CHALICE MINING LIMITED — Capital/Financing Update 2021

Sep 27, 2021

ASX Announcement

28 September 2021

Gonneville high-grade zones extended at depth

Further strong drilling results demonstrate continuity of high-grade zones beyond a depth of ~600mbs; modelling now underway for maiden Resource Estimate

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• « New high-grade results received from the ongoing step-out and resource definition drill program at the >1.9km x 0.9km Gonneville PGE-Ni-Cu-Co-Au Deposit.

• « Wide intervals of high-grade mineralisation intersected, extending the G12 zone along strike , the G2, G4 and G6 zones down-dip and the G4 zone up-dip.

• « Significant new high-grade (>1g/t Pd) step-out results include:

• « 26m @ 4.8g/t Pd, 1.0g/t Pt, 0.5% Ni , 0.3% Cu, 0.04% Co from 286m (JD130) – G2

• « 32m @ 2.4g/t Pd, 1.0g/t Pt , 0.2g/t Au, 0.1% Ni, 0.1% Cu, 0.01% Co from 76m (JRC316) – G4

• « 10.2m @ 1.6g/t Pd , 0.4g/t Pt, 0.1g/t Au, 0.1% Ni, 0.6% Cu , 0.01% Co from 299m (JD090) – G4

• « 18.1m @ 1.6g/t Pd , 0.4g/t Pt, 0.2g/t Au, 0.3% Ni, 0.7% Cu , 0.02% Co from 600.2m (JD121) – G4

• « 13.4m @ 3.2g/t Pd , 0.9g/t Pt, 0.1g/t Au, 0.2% Ni, 0.1% Cu, 0.02% Co from 149m (JD123) – G4

• « 8.9m @ 2.4g/t Pd , 0.5g/t Pt, 0.1g/t Au, 0.9% Ni, 0.5% Cu, 0.05% Co from 246.1m (JD089) – G2

• « 7m @ 3.9g/t Pd , 0.7g/t Pt, 0.8% Ni, 0.6% Cu, 0.05% Co from 223m (JD089) – G2

• « 10m @ 3.9g/t Pd , 0.7g/t Pt, 0.1g/t Au, 0.3% Ni, 0.3% Cu, 0.02% Co from 225m (JRC301) – G4

• « 10m @ 1.2g/t Pd , 0.2g/t Pt, 0.5% Ni , 0.3% Cu, 0.04% Co from 133m (JRC346) – G12

• « 40m spaced infill drilling across the deposit continues to support the updated geological model , with significant new high-grade (>1g/t Pd) results including:

• « 33.2m @ 2.2g/t Pd , 0.5g/t Pt, 0.3g/t Au, 0.2% Ni, 1.2% Cu , 0.02% Co from 453.8m (JD128) – G6

• « 17.7m @ 4.7g/t Pd , 1.3g/t Pt , 0.4% Ni, 0.4% Cu, 0.03% Co from 271m (JD120) – G2

• « 9.9m @ 5.8g/t Pd , 1.3g/t Pt, 0.6% Ni , 0.4% Cu, 0.04% Co from 68.1m (JD090) – G2

• « 20.1m @ 1.8g/t Pd , 0.8g/t Pt, 0.4g/t Au, 0.2% Ni, 0.6% Cu , 0.02% Co from 51.9m (JD112)

• « 17.9m @ 2.0g/t Pd , 0.5g/t Pt, 0.5g/t Au , 0.1% Ni, 0.4% Cu, 0.01% Co from 97.8m (JD112) – G6

• « 15.8m @ 1.8g/t Pd, 1.0g/t Pt , 0.3g/t Au, 0.1% Ni, 0.5% Cu , 0.01% Co from 118m (JD112) – G6

• « 9.8m @ 2.5g/t Pd , 0.3g/t Pt, 0.9g/t Au , 0.1% Ni, 0.7% Cu , 0.02% Co from 23m (JD108) – G6

• « New style of copper-rich mineralisation intersected below the eastern footwall contact – further drilling underway to understand its significance (currently wide-open ).

• « All assays informing the maiden Mineral Resource Estimate (MRE) have now been reported – with the pit-constrained MRE expected to be released in mid Q4 2021 .

• « Given the considerable scale of the Gonneville deposit and the continuity of the high-grade zones observed at depth , deeper step-out drilling is continuing beyond the maiden MRE.

• « Wide-spaced step-out drilling is now targeting extensions of the G1-G6 zones along the interpreted north-north-westerly plunge direction, with ~1,000m of potential plunge extent still untested.

Registered Office ABN 47 116 648 956

Level 2, 1292 Hay Street West Perth, Western Australia GPO Box 2890, Perth WA 6001

T: +61 8 9322 3960 info@chalicemining.com @chalicemining F: +61 8 9322 5800 www.chalicemining.com chalice-mining

• « Ongoing metallurgical testwork continues to deliver promising preliminary results:

• « Excellent Pd-Cu recoveries (75-90%) and good Ni-Pt recoveries (60-75%) into separate CuPGE-Au and Ni-Co-PGE concentrates from high-grade sulphide composites.

• « Initial locked-cycle flotation tests on disseminated sulphide composites indicate good recoveries achieved into separate Cu-PGE-Au and bulk Ni-Cu-PGE concentrates.

• « Final Conservation Management Plan (CMP2) for initial drilling at the Hartog-Baudin Targets submitted in early September after extensive consultation – with approval expected in the coming weeks.

Overview

Chalice Mining Limited (“Chalice” or “the Company”, ASX: CHN | OTCQB: CGMLF) is pleased to report significant new drilling and metallurgical testwork results from ongoing exploration and evaluation activities at its 100%-owned Julimar Nickel-Copper-Platinum Group Element (PGE) Project , located ~70km north-east of Perth in Western Australia.

The step-out and resource definition drill program at the >1.9km x 0.9km Gonneville Deposit is continuing with six rigs. A total of 160 diamond drill holes and 420 RC drill holes (including RC precollars with diamond tails) for ~155,000m have been completed to date at the Project.

Assay results have now been reported for 132 diamond and 365 RC holes (including RC pre-collars with diamond tails). New results have been received for drilling targeting:

• « The high-grade G4, G6, G7 and G11 zones at the eastern (footwall) contact between the Gonneville Intrusion and surrounding meta-sediments;

• « Infill and down-dip extensions to the high-grade G1-G9 zones; and,

• « The non-magnetic pyroxenite and leucogabbro-rich north-western part of the Gonneville Intrusion.

Within the 113 new drill holes reported in this announcement, there are:

• « 282 mineralised intervals (>4m width and >0.3g/t Pd cut-off grade);

• « 216 high-grade Pd +/- Pt-Au-Ni-Cu-Co mineralised intervals (>2m width and >1g/t Pd cut-off grade), including:

• « 52 high-grade Pd-Ni-Cu +/- Pt-Au-Co intervals (>2m width, >1g/t Pd and >0.5% Ni+Cu cut-off grade).

All released assay results have now been finalised and provided to CSA Global, who are completing the maiden Mineral Resource Estimate (MRE) and a pit-shell optimisation study for MRE reporting purposes. The maiden MRE is expected to be released in mid Q4 2021.

Assay results are pending for a further 85 completed drill holes, with lab turnaround times currently averaging around four weeks.

In addition to ongoing resource definition drilling, the Company has advanced metallurgical testwork on both the sulphide and oxide mineralisation at Gonneville. Further results have been received from locked cycle flotation testwork on high-grade and disseminated sulphide composites as well as from leach testwork on oxide composites.

Dieback and confirmatory Spring flora surveys have been completed across the Hartog-Baudin Targets in the Julimar State Forest. Results have informed final environmental management requirements for drilling and have not resulted in any significant changes to the planned drilling program.

Cultural heritage surveys commenced in early September at the Hartog-Baudin Targets and are expected to be completed in early October.

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The final Conservation Management Plan (Stage 2 CMP) for initial drilling at the Hartog-Baudin Targets was submitted in early September after extensive consultation. The Stage 2 CMP outlines the environmental protocols for the low-impact drilling program, which does not require any mechanised vegetation clearance.

The Company is currently finalising its Environmental Management Plans, which are designed to minimise any significant impacts from drilling, ahead of expected endorsement by the Department and approval to access the Julimar State Forest in the coming weeks.

Chalice Managing Director and Chief Executive Officer, Alex Dorsch, said: “Drilling has delivered further new high-grade results, once again reinforcing the scale and significance of the Julimar discovery just weeks away from our maiden Mineral Resource Estimate.

“The exciting new results reported today show that the high-grade zones have a significant plunge extent yet to be tested, with approximately 1,000m of extent between the limit of drilling and the state forest boundary. There is still a significant amount of exploration drilling to be done before we understand the true scale of the Gonneville Deposit.

“We have now received all the assay results that will be included in the initial pit-constrained Mineral Resource Estimate and work is underway with our consultants, CSA Global, with the maiden Resource expected to be released in mid Q4.

“Given the complexity of the geology and the range of mineralisation styles observed at Gonneville, we are looking forward to the results from the resource modelling process to determine where Gonneville currently sits in terms of scale and quality.

“Our initial metallurgical investigations also continue to deliver promising results, with the sequential flotation flowsheet for the high-grade sulphide zones firming as the preferred processing pathway. The shallow nature of the high-grade sulphide zones mean that the early stages of development will focus on processing this material with a relatively simple flowsheet. The focus now shifts to the disseminated sulphide material, with initial testwork now underway to determine the optimal flowsheet.

“After lengthy consultation with the WA State Government, we are also pleased to see that our lowimpact approach to initial drilling in the State Forest is now close to being approved. We have received positive feedback on our approach to minimising disturbance and we are eagerly awaiting final approvals for drilling to commence at the >6.5km long Hartog Target in the coming weeks.”

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Figure 1. Gonneville Intrusion Plan View – key new drill results and high-grade G1-G13 zone outlines over simplified geology at 160m RL (~80m below surface).

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Figure 2. Gonneville Intrusion Plan View – high-grade G1-G13 zone outlines over interpreted geology at 160m RL (~80m below surface).

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Figure 3. Gonneville Intrusion 3D View (looking North-West) – new key drill results and high-grade zones.

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Figure 4. Gonneville Intrusion 3D View (looking East-South-East) – new key drill results and high-grade zones.

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Drilling results technical discussion

Drilling has now constrained the host Gonneville Intrusion up-dip, with the Intrusion remaining open both down-dip and along strike to the north into the Julimar State Forest (Figure 1). The intrusive ‘sill’ has been confirmed to continue to at least 800m below surface and is consistently 500-600m thick along strike.

As previously reported, detailed analysis of litho-geochemical data from drilling across the Gonneville Intrusion has indicated that the intrusion contains several subtly different but distinct geological domains which strike broadly north-east and dip to the north-west. This understanding has been further refined, with seven separate domains now defined (Figure 2).

The interpreted strike and dip of the higher sulphide abundance zones generally correlates well with the strike and dip of these domains. However, in certain areas drilling density is still not sufficient to make a definitive geological interpretation.

The polymetallic nature and complex geometry of the Gonneville domains, the diverse range of mineralisation styles and the lack of definitive ‘ore-waste’ boundaries make the Gonneville Intrusion geology inherently complex. As such, while the Company has continued to use >1g/t Pd wireframes as a representative model to date, a resource model is now ultimately required to accurately estimate the size and quality of the deposit at a range of different cut-off grades.

Step-out drilling results

Step-out drilling down-dip of the high-grade G2, G4 and G6 zones has continued to intersect highgrade mineralisation, supporting the interpretation of a north-north-west plunge direction to each zone. Significant new high-grade (>1g/t Pd) results include:

• « 26m @ 4.8g/t Pd, 1.0g/t Pt, 0.5% Ni, 0.3% Cu, 0.04% Co from 286m (JD130) – G2

• « 7m @ 3.9g/t Pd, 0.7g/t Pt, 0.8% Ni, 0.6% Cu, 0.05% Co from 223m (JD089) – G2

• « 6.3m @ 3.4g/t Pd, 2.0g/t Pt, 0.7g/t Au, 0.3% Ni, 0.3% Cu, 0.03% Co from 434.8m (JD096) – G6

• « 8.9m @ 2.4g/t Pd, 0.5g/t Pt, 0.1g/t Au, 0.9% Ni, 0.5% Cu, 0.05% Co from 246.1m (JD089) – G2

• « 7m @ 3.9g/t Pd, 0.7g/t Pt, 0.8% Ni, 0.6% Cu, 0.05% Co from 223m (JD089) – G2

• « 18.1m @ 1.6g/t Pd, 0.4g/t Pt, 0.2g/t Au, 0.3% Ni, 0.7% Cu, 0.02% Co from 600.2m (JD121) – G4

• « 3.3m @ 9.7g/t Pd, 0.3g/t Pt, 1.2% Ni, 0.6% Cu, 0.07% Co from 367.5m (JD115) – G2

• « 4.8m @ 2.9g/t Pd, 0.8g/t Pt, 1.2% Ni, 0.5% Cu, 0.07% Co from 374.2m (JD115) – G2

• « 10.2m @ 1.6g/t Pd, 0.4g/t Pt, 0.1g/t Au, 0.1% Ni, 0.6% Cu, 0.01% Co from 299m (JD090) – G4

• « 4.1m @ 3.6g/t Pd, 0.6g/t Pt, 0.5% Ni, 0.3% Cu, 0.04% Co from 368.5m (JD116) – G2

Step-out drilling up-dip of the high-grade G4 zone has intersected high-grade mineralisation near the eastern footwall contact of the Gonneville Intrusion (Figure 3). Significant new high-grade (>1g/t Pd) results include:

• « 32m @ 2.4g/t Pd, 1.0g/t Pt, 0.2g/t Au, 0.1% Ni, 0.1% Cu, 0.01% Co from 76m (JRC316) – G4

• « 13.4m @ 3.2g/t Pd, 0.9g/t Pt, 0.1g/t Au, 0.2% Ni, 0.1% Cu, 0.02% Co from 149m (JD123) – G4

• « 10m @ 3.9g/t Pd, 0.7g/t Pt, 0.1g/t Au, 0.3% Ni, 0.3% Cu, 0.02% Co from 225m (JRC301) – G4

• « 4m @ 6.2g/t Pd, 0.3g/t Pt, 0.7% Ni, 0.8% Cu, 0.04% Co from 58m (JRC351) – G4

• « 8m @ 2.0g/t Pd, 1.0g/t Pt, 0.2g/t Au, 0.1% Ni, 0.01% Co from 60m (JRC316) – G4

• « 4m @ 5.0g/t Pd, 0.5g/t Pt, 0.6g/t Au, 0.1% Ni, 0.01% Co from 88m (JRC351) – G4

• « 10m @ 1.7g/t Pd, 0.3g/t Pt, 0.3% Ni, 0.03% Co from 49m (JRC353) – G4

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Figure 5. Gonneville Cross Section 6,512,560mN +/- 30m.

Step-out drilling along strike and down-dip of the high-grade G12 zone has continued to extend this zone (Figure 3), which remains open to the north. JRC346 was drilled just south of the Julimar State Forest boundary and confirms that high-grade mineralisation is open into the State Forest. Significant new high-grade (>1g/t Pd) results include:

• « 10m @ 1.2g/t Pd, 0.2g/t Pt, 0.5% Ni, 0.3% Cu, 0.04% Co from 133m (JRC346) – G12

• « 7m @ 1.6g/t Pd, 0.6g/t Pt, 0.1g/t Au, 0.2% Ni, 0.2% Cu, 0.01% Co from 130m (JRC324) – G12

11 of the 13 zones of high-grade mineralisation within the deposit remain open. Most high-grade zones have now been defined to a depth of 250-600m below surface. The Company will continue wide-spaced step-out drilling targeting potential new high-grade zones and extensions of the highest-grade zones (G1-G6) defined to date, as these are currently assessed as being of sufficient grade to potentially support future underground mining.

The G1-G6 zones appear to have a north-north-westerly plunge orientation and, as such, deeper drilling is now focused on extending those zones at depth. Approximately 1,000m of plunge extent remains untested between the deepest G1-G6 intersections and the Julimar State Forest boundary, projected vertically (Figure 4).

The eastern footwall contact between the Gonneville Intrusion and the surrounding metasediments is now well defined. The contact is steep (high dip angle) at the northern part of the intrusion and generally flattens (low dip angle) towards the southern end. The G4 zone is associated with this footwall contact and is widest and richest when the contact is flatter.

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JRC337 was drilled entirely in Gonneville footwall sediments approximately 100m east of the footwall contact, to confirm the eastern extent of the intrusion. The hole intersected a mineralised interval of 12m @ 0.7% Cu, 2.7g/t Ag, 0.15% Pb from 63m (negligible PGEs, Ni or Co). This new style of mineralisation has not previously been seen at Gonneville and presents a potential opportunity to expand the deposit footprint to the east. The new zone is wide open in all directions.

Infill drilling results

Infill drilling of the high-grade G4 and G6 zones has intersected two broad intervals of mineralisation (>0.3g/t Pd) containing several internal high-grade (>1g/t Pd) intervals:

• « 98.9m @ 1.3g/t Pd, 0.5g/t Pt, 0.3g/t Au, 0.1% Ni, 0.4% Cu, 0.01% Co from 90.7m (JD112), including:

• « 17.9m @ 2.0g/t Pd, 0.5g/t Pt, 0.5g/t Au, 0.1% Ni, 0.4% Cu, 0.01% Co from 97.8m;

• « 15.8m @ 1.8g/t Pd, 1.0g/t Pt, 0.3g/t Au, 0.1% Ni, 0.5% Cu, 0.01% Co from 118m;

• « 6m @ 1.3g/t Pd, 0.3g/t Pt, 0.3g/t Au, 0.1% Ni, 0.4% Cu, 0.01% Co from 141m; and,

• « 10m @ 1.6g/t Pd, 0.5g/t Pt, 0.6g/t Au, 0.2% Ni, 0.7% Cu, 0.02% Co from 164m.

• « 75.2m @ 1.4g/t Pd, 0.4g/t Pt, 0.2g/t Au, 0.1% Ni, 0.7% Cu, 0.01% Co from 446.8m (JD128), including; « 33.2m @ 2.2g/t Pd, 0.5g/t Pt, 0.3g/t Au, 0.2% Ni, 1.2% Cu, 0.02% Co from 453.8m – G6; and,

• « 5.8m @ 1.6g/t Pd, 0.6g/t Pt, 0.3g/t Au, 0.1% Ni, 0.9% Cu, 0.01% Co from 490m – G4.

Other significant new high-grade (>1g/t Pd) infill drill intersections include:

• « 5m @ 3.9g/t Pd, 0.7g/t Pt, 0.4% Ni, 0.3% Cu, 0.03% Co from 61m (JRC330) – G2;

• « 17.7m @ 4.7g/t Pd, 1.3g/t Pt, 0.4% Ni, 0.4% Cu, 0.03% Co from 271m (JD120) – G2;

• « 9.9m @ 5.8g/t Pd, 1.3g/t Pt, 0.6% Ni, 0.4% Cu, 0.04% Co from 68.1m (JD090) – G2;

• « 20.1m @ 1.8g/t Pd, 0.8g/t Pt, 0.4g/t Au, 0.2% Ni, 0.6% Cu, 0.02% Co from 51.9m (JD112);

• « 9.8m @ 2.5g/t Pd, 0.3g/t Pt, 0.9g/t Au, 0.1% Ni, 0.7% Cu, 0.02% Co from 23m (JD108) – G6

• « 5.8m @ 1.6g/t Pd, 0.6g/t Pt, 0.3g/t Au, 0.1% Ni, 0.9% Cu, 0.01% Co from 490m (JD128) – G4

Metallurgical testwork update

Results have now been received from over 100 batch and nine locked cycle flotation tests completed on sulphide mineralisation samples representing a range of mineralogy and grades (refer to ASX Announcement on 16 February 2021). Sample details for the locked cycle testwork is given in Table 3. Unoptimised, preliminary results from sequential flotation tests on high-grade sulphide samples indicate:

• « Copper recovery to a typical Cu-PGE-Au concentrate is expected to be 80-90%;

• « Nickel and cobalt recovery to a typical Ni-Co-PGE concentrate is expected to be 60-75%;

• « Overall palladium recovery into the two concentrates is expected to be 75-85%;

• « Overall platinum recovery into the two concentrates is expected to be 65-75%; and,

• « Gold recovery to a typical Cu-PGE-Au concentrate is more variable, expected to be 35-75%.

Ongoing early-stage optimisation work continues to improve recovery and concentrate grades from the lower grade disseminated sulphide composites and has demonstrated the ability to produce commercially attractive concentrates. Given the new understanding of litho-chemical domains, new metallurgical samples will be compiled accordingly. Further work is required over the coming months to establish metal recoveries and concentrate grades.

In order to maximise metal payability from the disseminated sulphide composites, several processing alternatives are being investigated, including producing a high-grade Cu-PGE-Au concentrate for sale, together with a lower grade bulk Ni-Cu-PGE concentrate for enrichment to higher grade intermediate products. Flowsheet development is continuing as part of the ongoing project Scoping Study, expected to be completed in H1 2022.

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Results from over 30 leach tests to date on oxide composites have demonstrated good recovery of Pd-Au into solution with various reagents. As yet, the Company has not attempted recovery of metal from solution and this work is ongoing.

Comminution parameters have been determined from a variety of composites providing a solid basis for design. Bond Work Index at a 38µm primary grind size is expected to be 19-24kWh/t, which is at the higher end of industry standards.

Forward plan

Chalice’s Julimar Project strategy is to concurrently advance studies for an initial mining development at Gonneville on private farmland and to define the full extent of mineralisation along the >26km long Julimar Complex.

Ongoing and planned activities at Julimar include:

• « Step-out drilling (Gonneville) – RC drilling is expected to be completed in the coming weeks, subject to results. Deeper step-out diamond drilling on a nominal ~80m spacing is expected to continue until ~Q1 2022, subject to results. The Company anticipates that its maiden Mineral Resource Estimate will be released in mid Q4 2021.

• « Geotechnical, metallurgical, hydrogeological and infrastructure drilling (Gonneville) – AC/RC/diamond drilling to support studies for Gonneville will commence once resource drilling is complete and will continue until ~Q1 2022.

• « Metallurgical testwork (Gonneville) – ongoing testwork is now focused on optimisation of disseminated sulphide performance and continuing leach testwork on oxide composites. Investigation into further bulk concentrate enrichment alternatives has commenced for the disseminated sulphide mineralisation as part of the recent $2.9M grant from the Australian Government’s Co-operative Research Centre Projects (CRC-P) Program. Initial waste rock and tailings characterisation testwork continues.

• « Studies (Gonneville) – Work is underway to support studies for the project, which will assess mining development scenarios for the Gonneville deposit. The Company anticipates that a Scoping Study for the initial stage of development at Gonneville will be completed in H1 2022.

• « Reconnaissance drilling at the Hartog-Baudin Targets within the Julimar State Forest – First-pass low-impact drilling utilising small track-mounted diamond rigs is planned to commence immediately upon obtaining access and permitting approvals, which is expected in the coming weeks. A total of 72 drill sites are planned across the ~10km strike length, with the ability to drill multiple angled holes at each site. No mechanised vegetation clearance is required to complete this first pass of drilling. Cultural heritage surveys are underway and will be completed in early October.

Authorised for release by the Disclosure Committee of the Company.

For further information or to view the interactive 3D model of Julimar, please visit www.chalicemining.com, or contact:

Corporate Enquiries

Media Enquiries

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Alex Dorsch Nicholas Read LinkedIn: chalice-mining Managing Director & CEO Principal and Managing Director Twitter: @chalicemining Chalice Mining Limited Read Corporate Investor Relations +61 8 9322 3960 +61 8 9388 1474 info@chalicemining.com info@readcorporate.com.au

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About the Julimar Nickel-Copper-PGE Project

The 100%-owned Julimar Nickel-Copper-PGE Project is located ~70km north-east of Perth in Western Australia. The Project was staked in early 2018 as part of Chalice’s global search for high-potential nickel sulphide exploration opportunities.

Chalice interpreted the possible presence of a mafic-ultramafic layered intrusive complex at Julimar based on high-resolution regional magnetics (the Julimar Complex). An initial RC drill program commenced in Q1 2020 at the southern end of the Complex on private farmland and resulted in the discovery of high-grade PGE-nickel-copper-cobalt-gold mineralisation.

The significant discovery (named Gonneville) established the new West Yilgarn Ni-Cu-PGE Province in Western Australia, which is interpreted to extend for ~1,200km along the western margin of the Yilgarn Craton.

The Julimar Complex is interpreted to be >26km long and is still largely undrilled, as such the project is considered highly prospective for further orthomagmatic nickel, copper and platinum group element (PGE) discoveries.

Drilling to date at Gonneville has established that the >1.9km x 0.9km intrusion on private farmland hosts at least 13 shallow, wide zones of high-grade PGE-Ni-Cu-Co+/-Au sulphide mineralisation in fresh rock, a substantial PGE-rich oxide zone, as well as widespread zones of PGE-dominant mineralisation associated with disseminated sulphides. The Gonneville Intrusion remains open to the north and has been confirmed to extend beyond a depth of ~800m below surface (open at depth).

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Figure 6. Julimar Complex, Gonneville discovery, Project tenure and nearby infrastructure.

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Competent Persons and Qualifying Persons Statement

The information in this announcement that relates to Exploration and Metallurgical Results in relation to the Julimar Nickel-Copper-PGE Project is based on and fairly represents information and supporting documentation compiled by Mr. Bruce Kendall BSc (Hons), a Competent Person, who is a Member of the Australian Institute of Geoscientists. Mr. Kendall is a full-time employee of the Company as General Manager – Development, and has sufficient experience that is relevant to the activity being undertaken to qualify as a Competent Person as defined in the 2012 edition of the Australasian Code for Reporting of Exploration Results, Minerals Resources and Ore Reserves, and is a Qualified Person under National Instrument 43-101 – ‘Standards of Disclosure for Mineral Projects’. The Qualified Person has verified the data disclosed in this release, including sampling, analytical and test data underlying the information contained in this release. Mr Kendall consents to the inclusion in the announcement of the matters based on his information in the form and context in which it

appears.

The Information in this announcement that relates to prior exploration results for the Julimar Project is extracted from ASX announcements available to view on the Company’s website at www.chalicemining.com. The Company confirms that it is not aware of any new information or data that materially affects the exploration results included in the relevant original market announcements. The Company confirms that the form and context in which the Competent Person and Qualified Person’s findings are presented have not been materially modified from the relevant original market announcements.

Forward Looking Statements

This announcement may contain forward-looking information, including forward looking information within the meaning of Canadian securities legislation and forward-looking statements within the meaning of the United States Private Securities Litigation Reform Act of 1995 (collectively, forwardlooking statements). These forward-looking statements are made as of the date of this report and Chalice Mining Limited (the Company) does not intend, and does not assume any obligation, to update these forward-looking statements.

Forward-looking statements relate to future events or future performance and reflect Company management’s expectations or beliefs regarding future events and include, but are not limited to, the Company’s strategy, the likelihood of exploration success at the Company’s projects, the estimated timing of drilling in the Julimar State Forest, the potential to extend mineralised zones in the deposit, the estimation of mineral reserves and mineral resources, the realisation of mineral resource estimates, estimation of metallurgical recoveries, the forecast timing of the estimation of mineral resources, the forecast timing of the completion of the Gonneville Scoping Study, the timing of future exploration activities on the Company’s exploration projects, planned expenditures and budgets and the execution thereof, the timing and amount of estimated future production, costs of production, capital expenditures, success of mining operations, environmental risks, unanticipated reclamation expenses, title disputes or claims and limitations on insurance coverage.

In certain cases, forward-looking statements can be identified by the use of words such as, “anticipates”, “awaiting”, “being”, “considered”, “expected”, “highly”, “interpreted”, “likely”, “may”, “plan” or “planned”, “potential”, “significant”, “will” or variations of such words and phrases or statements that certain actions, events or results may, could, would, might or will be taken, occur or be achieved or the negative of these terms or comparable terminology. By their very nature forward-looking statements involve known and unknown risks, uncertainties and other factors which may cause the actual results, performance or achievements of the Company to be materially different from any future results, performance or achievements expressed or implied by the forwardlooking statements.

Such factors may include, among others, risks related to actual results of current or planned exploration activities; assay results of soil samples; whether geophysical and geochemical anomalies

14 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

are related to economic mineralisation or some other feature; obtaining appropriate access to undertake additional ground disturbing exploration work on EM anomalies located in the Julimar State Forrest; the results from testing EM anomalies; results of planned metallurgical testwork Including results from other zones not tested yet, scaling up to commercial operations; changes in project parameters as plans continue to be refined; changes in exploration programs and budgets based upon the results of exploration, future prices of mineral resources; grade or recovery rates; accidents, labour disputes and other risks of the mining industry; delays in obtaining governmental approvals or financing or in the completion of development or construction activities; movements in the share price of investments and the timing and proceeds realised on future disposals of investments, the impact of the COVID 19 epidemic as well as those factors detailed from time to time in the Company’s interim and annual financial statements, all of which are filed and available for review on SEDAR at sedar.com, ASX at asx.com.au and OTC Markets at otcmarkets.com.

Although the Company has attempted to identify important factors that could cause actual actions, events or results to differ materially from those described in forward-looking statements, there may be other factors that cause actions, events or results not to be as anticipated, estimated or intended. There can be no assurance that forward-looking statements will prove to be accurate, as actual results and future events could differ materially from those anticipated in such statements. Accordingly, readers should not place undue reliance on forward-looking statements.

15 Chalice Mining Limited

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Appendix A Drilling and assay data

Table 1. Significant new drill intersections (>0.3g/t Pd, >1g/t Pd).

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||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JD085|313.0|330.0|17.0|0.53|0.14|0.14|0.09|0.03|0.01|Sulphide|
|Incl|328.0|330.0|2.0|1.93|0.25|0.60|0.09|0.08|0.02|Sulphide|
|JD089|7.4|28.0|20.6|0.94|0.46|0.02|0.15|0.14|0.10|Oxide|
|Incl|10.7|18.0|7.3|1.51|0.86|0.02|0.16|0.20|0.20|Oxide|
|JD089|28.0|184.9|156.9|0.61|0.12|0.01|0.14|0.06|0.01|Sulphide|
|Incl|128.0|131.0|3.0|1.20|0.23|0.02|0.14|0.06|0.02|Sulphide|
|and|134.0|140.0|6.0|1.02|0.20|0.04|0.14|0.08|0.02|Sulphide|
|and|173.0|183.0|10.0|1.52|0.19|0.02|0.09|0.04|0.01|Sulphide|
|JD089|192.0|201.0|9.0|0.38|0.10|0.01|0.12|0.04|0.01|Sulphide|
|JD089|223.0|291.0|68.0|1.21|0.24|0.03|0.33|0.23|0.02|Sulphide|
|Incl|223.0|230.0|7.0|3.90|0.74|0.04|0.83|0.61|0.05|Sulphide|
|and|246.1|255.0|8.9|2.38|0.55|0.07|0.88|0.47|0.05|Sulphide|
|JD089|301.6|363.8|62.2|0.40|0.10|0.01|0.16|0.04|0.01|Sulphide|
|JD089W1|338.8|415.0|76.2|0.57|0.11|0.07|0.15|0.09|0.01|Sulphide|
|Incl|383.4|388.0|4.6|2.39|0.13|0.40|0.16|0.42|0.02|Sulphide|
|JD089W1|432.9|470.7|37.8|0.76|0.21|0.07|0.16|0.21|0.02|Sulphide|
|Incl|457.0|463.7|6.7|2.05|0.72|0.24|0.18|0.42|0.02|Sulphide|
|JD090|0.0|4.6|4.6|3.09|0.70|0.11|0.04|0.26|0.01|Oxide|
|Incl|1.3|4.6|3.3|4.70|1.06|0.18|0.04|0.39|0.02|Oxide|
|JD090|9.1|27.0|17.9|5.76|2.27|0.16|0.19|0.44|0.01|Oxide|
|Incl|11.1|27.0|15.9|6.28|2.48|0.18|0.21|0.48|0.01|Oxide|
|JD090|27.0|33.0|6.0|0.80|0.07|0.02|0.18|0.21|0.02|Sulphide|
|Incl|27.0|30.0|3.0|1.34|0.11|0.02|0.24|0.37|0.02|Sulphide|
|JD090|43.0|47.0|4.0|0.55|0.18|0.01|0.14|0.05|0.02|Sulphide|
|JD090|55.0|82.0|27.0|3.14|0.60|0.02|0.36|0.21|0.03|Sulphide|
|Incl|68.1|78.0|9.9|5.83|1.27|0.03|0.58|0.37|0.04|Sulphide|
|JD090|127.0|175.0|48.0|0.56|0.12|0.01|0.17|0.05|0.02|Sulphide|
|JD090|180.0|273.0|93.0|0.35|0.10|<0.01|0.14|0.03|0.01|Sulphide|
|JD090|293.0|309.2|16.2|1.20|0.27|0.09|0.16|0.40|0.02|Sulphide|
|Incl|299.0|309.2|10.2|1.64|0.36|0.14|0.15|0.59|0.01|Sulphide|
|JD090|324.9|352.0|27.1|0.54|0.17|0.05|0.11|0.17|0.01|Sulphide|
|JD091|0.3|37.0|36.7|0.96|0.24|0.05|0.12|0.14|0.02|Oxide|
|Incl|5.2|11.0|5.8|1.16|0.31|0.03|0.10|0.08|0.01|Oxide|
|and|17.2|24.7|7.5|1.76|0.49|0.11|0.21|0.40|0.05|Oxide|
|and|29.0|32.0|3.0|1.10|0.20|0.03|0.17|0.04|0.02|Oxide|

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16 Chalice Mining Limited

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||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JD091|42.6|60.0|17.4|0.60|0.14|0.03|0.15|0.06|0.02|Sulphide|
|JD091|65.0|167.2|102.2|0.72|0.16|0.02|0.17|0.07|0.02|Sulphide|
|Incl|93.0|102.0|9.0|1.74|0.40|0.03|0.19|0.05|0.02|Sulphide|
|and|106.0|108.1|2.1|1.28|0.23|0.02|0.45|0.16|0.03|Sulphide|
|and|122.0|124.0|2.0|1.25|0.39|0.01|0.23|0.07|0.02|Sulphide|
|and|130.0|134.0|4.0|1.28|0.25|0.01|0.30|0.18|0.03|Sulphide|
|JD091|182.0|189.0|7.0|0.66|0.08|<0.01|0.14|0.05|0.02|Sulphide|
|JD091|207.0|219.0|12.0|0.41|0.08|<0.01|0.12|0.02|0.01|Sulphide|
|JD091|229.7|255.5|25.8|0.58|0.12|<0.01|0.17|0.05|0.01|Sulphide|
|Incl|230.4|234.0|3.6|1.04|0.20|0.01|0.18|0.01|0.01|Sulphide|
|JD091|264.0|300.7|36.7|0.59|0.12|<0.01|0.16|0.05|0.02|Sulphide|
|JD091|309.0|326.0|17.0|0.68|0.13|<0.01|0.18|0.03|0.02|Sulphide|
|Incl|311.0|314.0|3.0|1.16|0.20|0.01|0.26|0.02|0.02|Sulphide|
|JD091|336.0|414.5|78.5|0.47|0.10|<0.01|0.15|0.05|0.01|Sulphide|
|Incl|400.0|403.0|3.0|1.19|0.19|0.01|0.22|0.07|0.02|Sulphide|
|and|406.0|408.0|2.0|1.05|0.17|0.01|0.16|0.02|0.01|Sulphide|
|JD091|420.5|464.0|43.5|1.24|0.18|0.04|0.22|0.22|0.02|Sulphide|
|Incl|434.0|436.0|2.0|1.51|0.30|0.03|0.15|0.48|0.02|Sulphide|
|and|448.0|451.0|3.0|1.50|0.22|0.08|0.30|0.56|0.03|Sulphide|
|and|454.0|457.0|3.0|8.52|0.93|0.19|0.85|0.60|0.07|Sulphide|
|JD092|6.0|8.6|2.6|4.61|1.17|0.33|0.37|0.79|0.32|Oxide|
|JD092|10.7|22.0|11.3|1.34|0.22|0.12|0.16|0.28|0.03|Oxide|
|Incl|10.7|15.2|4.5|2.35|0.32|0.14|0.27|0.47|0.06|Oxide|
|and|20.0|22.0|2.0|1.46|0.33|0.15|0.13|0.23|0.02|Oxide|
|JD092|22.0|29.0|7.0|0.42|0.09|0.02|0.13|0.08|0.01|Sulphide|
|JD092|34.0|51.0|17.0|0.38|0.06|0.01|0.14|0.20|0.02|Sulphide|
|JD092|56.0|102.0|46.0|0.65|0.07|0.18|0.13|0.37|0.02|Sulphide|
|Incl|67.0|70.0|3.0|1.88|0.05|0.88|0.05|0.50|0.01|Sulphide|
|and|74.2|77.0|2.8|1.69|0.12|0.35|0.39|1.94|0.06|Sulphide|
|JD092|109.0|129.0|20.0|0.88|0.30|0.04|0.17|0.15|0.02|Sulphide|
|Incl|111.0|113.0|2.0|1.07|0.42|0.03|0.20|0.16|0.02|Sulphide|
|and|114.0|121.0|7.0|1.15|0.47|0.07|0.15|0.17|0.02|Sulphide|
|JD092|143.0|212.0|69.0|0.96|0.21|0.11|0.12|0.08|0.01|Sulphide|
|Incl|198.8|201.0|2.2|13.95|0.88|0.71|0.28|0.21|0.02|Sulphide|
|and|207.0|211.0|4.0|1.05|0.25|0.07|0.16|0.10|0.01|Sulphide|
|JD093|9.4|22.0|12.6|1.13|0.32|0.05|0.14|0.23|0.05|Oxide|
|Incl|10.7|13.0|2.3|1.56|0.53|0.12|0.17|0.28|0.10|Oxide|
|and|15.9|19.0|3.1|1.70|0.34|0.03|0.15|0.24|0.03|Oxide|

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17 Chalice Mining Limited

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||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JD094|7.6|28.0|20.4|1.75|0.40|0.07|0.29|0.41|0.05|Oxide|
|Incl|9.1|28.0|18.9|1.77|0.37|0.08|0.30|0.41|0.05|Oxide|
|JD095|35.4|40.1|4.7|1.73|0.48|0.02|0.22|0.19|0.02|Sulphide|
|Incl|35.4|39.0|3.6|2.09|0.55|0.02|0.26|0.23|0.02|Sulphide|
|JD095|57.4|123.0|65.7|0.57|0.15|0.01|0.14|0.11|0.02|Sulphide|
|Incl|58.0|63.0|5.0|1.24|0.75|0.01|0.16|0.20|0.02|Sulphide|
|and|107.0|109.0|2.0|1.16|0.14|0.03|0.19|0.10|0.02|Sulphide|
|JD096|8.0|21.2|13.2|0.79|0.12|0.01|0.05|0.08|0.01|Oxide|
|Incl|11.0|13.0|2.0|1.18|0.29|0.01|0.04|0.10|0.01|Oxide|
|JD096|86.0|198.0|112.0|0.49|0.10|<0.01|0.14|0.04|0.01|Sulphide|
|JD096|207.0|224.7|17.7|0.36|0.08|0.01|0.15|0.08|0.01|Sulphide|
|JD096|230.0|249.0|19.0|0.33|0.08|0.01|0.14|0.03|0.02|Sulphide|
|JD096|264.0|292.9|28.9|0.57|0.13|0.01|0.16|0.05|0.02|Sulphide|
|JD096|297.0|315.0|18.0|0.58|0.13|0.01|0.14|0.04|0.01|Sulphide|
|JD096|343.0|513.6|170.6|0.65|0.21|0.06|0.16|0.12|0.02|Sulphide|
|Incl|355.7|360.0|4.3|1.16|0.40|0.01|0.22|0.11|0.02|Sulphide|
|and|434.8|441.0|6.3|3.35|1.99|0.67|0.28|0.28|0.03|Sulphide|
|and|448.0|453.0|5.0|1.27|0.25|0.09|0.20|0.47|0.02|Sulphide|
|JD097|9.0|30.7|21.7|0.71|0.22|0.03|0.19|0.12|0.04|Oxide|
|Incl|11.0|17.0|6.0|1.18|0.42|0.01|0.25|0.20|0.07|Oxide|
|JD097|31.0|43.3|12.3|0.40|0.12|0.02|0.15|0.07|0.01|Sulphide|
|JD098|4.0|31.0|27.0|0.72|0.11|0.02|0.22|0.12|0.02|Oxide|
|Incl|11.0|13.0|2.0|1.23|0.11|0.04|0.32|0.13|0.02|Oxide|
|and|21.0|23.3|2.3|1.16|0.11|0.02|0.32|0.13|0.02|Oxide|
|and|28.0|30.0|2.0|1.97|0.47|0.05|0.27|0.33|0.03|Oxide|
|JD098|31.0|53.0|22.0|0.55|0.14|0.04|0.18|0.18|0.02|Sulphide|
|JD098|59.0|62.0|3.0|5.48|0.28|0.20|0.35|0.33|0.03|Sulphide|
|JD099|3.0|24.0|21.0|1.49|0.59|0.19|0.21|0.34|0.04|Oxide|
|Incl|4.5|22.0|17.5|1.64|0.55|0.21|0.22|0.37|0.04|Oxide|
|JD099|24.0|43.0|19.0|0.84|0.17|0.02|0.19|0.11|0.02|Sulphide|
|Incl|32.0|40.0|8.0|1.32|0.24|0.02|0.24|0.12|0.03|Sulphide|
|JD099|75.0|80.0|5.0|1.12|0.15|0.08|0.09|0.13|0.01|Sulphide|
|JD100|10.0|27.0|17.0|0.76|0.16|0.01|0.12|0.07|0.01|Oxide|
|Incl|18.3|24.0|5.7|1.21|0.24|0.01|0.18|0.06|0.02|Oxide|
|JD100|27.0|99.6|72.7|0.58|0.12|<0.01|0.16|0.05|0.02|Sulphide|
|Incl|76.7|80.0|3.3|1.07|0.21|0.01|0.18|0.06|0.02|Sulphide|
|and|94.6|99.0|4.5|1.11|0.17|0.01|0.26|0.12|0.03|Sulphide|
|JD100|104.4|167.0|62.6|0.58|0.12|<0.01|0.15|0.04|0.01|Sulphide|

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18 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

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||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|Incl|137.9|140.5|2.7|1.10|0.19|0.01|0.32|0.21|0.03|Sulphide|
|and|146.0|149.0|3.0|1.05|0.21|0.01|0.21|0.01|0.02|Sulphide|
|JD100|174.5|185.8|11.3|0.34|0.07|<0.01|0.13|0.04|0.01|Sulphide|
|JD100|233.9|334.0|100.1|0.70|0.14|0.02|0.15|0.08|0.02|Sulphide|
|Incl|248.0|251.0|3.0|3.56|0.48|0.03|0.34|0.09|0.03|Sulphide|
|and|299.0|301.3|2.3|3.31|0.51|0.02|0.38|0.13|0.04|Sulphide|
|JD101|5.0|29.6|24.6|0.75|0.17|0.03|0.11|0.15|0.02|Oxide|
|Incl|11.0|16.0|5.0|1.58|0.36|0.06|0.15|0.18|0.05|Oxide|
|JD101|31.1|75.0|44.0|0.71|0.14|0.02|0.15|0.07|0.01|Sulphide|
|Incl|38.0|41.0|3.0|1.21|0.23|0.04|0.17|0.11|0.01|Sulphide|
|and|50.0|54.0|4.0|1.23|0.23|0.03|0.17|0.05|0.01|Sulphide|
|and|58.0|61.0|3.0|1.11|0.20|0.01|0.22|0.02|0.02|Sulphide|
|JD101|86.0|206.0|120.0|0.61|0.13|0.01|0.16|0.09|0.02|Sulphide|
|Incl|158.0|160.0|2.0|1.16|0.20|0.02|0.29|0.09|0.03|Sulphide|
|and|173.0|175.0|2.0|1.19|0.25|0.01|0.15|0.08|0.02|Sulphide|
|JD101|235.0|250.0|15.0|0.45|0.10|<0.01|0.10|0.03|0.01|Sulphide|
|JD102|7.0|31.3|24.3|0.81|0.19|0.03|0.24|0.11|0.05|Oxide|
|Incl|8.0|16.8|8.8|1.52|0.36|0.04|0.29|0.23|0.11|Oxide|
|JD102|35.0|42.0|7.0|0.32|0.09|0.01|0.15|0.05|0.02|Sulphide|
|JD102|58.0|65.0|7.0|0.45|0.08|0.01|0.15|0.01|0.01|Sulphide|
|JD103|8.0|18.9|10.9|2.28|0.14|0.16|0.12|0.21|0.02|Oxide|
|Incl|9.5|18.0|8.5|2.90|0.17|0.20|0.13|0.23|0.02|Oxide|
|JD103|21.0|26.0|5.0|1.02|0.12|0.07|0.25|0.34|0.03|Oxide|
|Incl|21.0|24.0|3.0|1.53|0.20|0.09|0.33|0.49|0.05|Oxide|
|JD104|9.0|22.0|13.0|0.57|0.07|0.02|0.28|0.08|0.02|Oxide|
|Incl|18.0|20.0|2.0|1.12|0.14|0.02|0.44|0.21|0.01|Oxide|
|JD104|32.0|55.0|23.0|1.66|0.28|0.03|0.19|0.08|0.02|Sulphide|
|Incl|51.0|53.3|2.3|12.98|1.94|0.12|0.38|0.15|0.03|Sulphide|
|JD105|7.1|22.0|14.9|0.48|0.03|0.01|0.26|0.05|0.01|Oxide|
|JD105|53.0|71.0|18.0|0.37|0.10|0.01|0.16|0.09|0.01|Sulphide|
|JD105|83.8|90.2|6.3|0.37|0.11|0.02|0.14|0.06|0.01|Sulphide|
|JD106|2.5|25.0|22.5|0.68|0.14|0.07|0.20|0.17|0.03|Oxide|
|Incl|5.0|12.0|7.0|1.33|0.30|0.14|0.29|0.34|0.07|Oxide|
|JD106|62.0|74.6|12.6|0.65|0.22|0.05|0.16|0.18|0.01|Sulphide|
|JD107|20.0|25.0|5.0|0.44|0.09|0.01|0.13|0.06|0.01|Oxide|
|JD107|38.8|112.0|73.2|0.64|0.14|0.02|0.14|0.11|0.01|Sulphide|
|Incl|91.0|99.1|8.1|1.62|0.30|0.04|0.20|0.09|0.02|Sulphide|
|JD107|125.0|211.0|86.0|0.59|0.12|0.02|0.15|0.06|0.01|Sulphide|

----- End of picture text -----

19 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 694] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|Incl|128.0|130.0|2.0|1.50|0.31|0.04|0.16|0.08|0.02|Sulphide|
|and|141.0|144.0|3.0|1.09|0.22|0.03|0.16|0.05|0.01|Sulphide|
|and|147.0|152.0|5.0|1.28|0.27|0.08|0.18|0.14|0.02|Sulphide|
|JD107|217.2|264.3|47.0|0.54|0.12|0.01|0.15|0.11|0.02|Sulphide|
|JD107|283.3|303.3|20.0|0.64|0.14|0.01|0.17|0.04|0.02|Sulphide|
|Incl|286.5|294.0|7.5|1.12|0.22|0.01|0.22|0.06|0.02|Sulphide|
|JD107|315.5|338.0|22.5|0.65|0.15|<0.01|0.19|0.05|0.02|Sulphide|
|Incl|319.0|322.0|3.0|1.52|0.29|0.01|0.31|0.03|0.02|Sulphide|
|JD107|349.0|364.0|15.0|0.33|0.08|<0.01|0.14|0.02|0.01|Sulphide|
|JD107|368.2|375.0|6.8|0.39|0.08|<0.01|0.12|0.04|0.01|Sulphide|
|JD107|390.3|462.0|71.7|0.51|0.11|0.01|0.15|0.03|0.01|Sulphide|
|Incl|409.3|413.0|3.7|1.31|0.39|0.01|0.17|0.02|0.02|Sulphide|
|JD107|545.6|577.0|31.4|0.88|1.36|0.10|0.09|0.10|0.01|Sulphide|
|Incl|554.0|557.0|3.0|1.08|0.26|0.06|0.11|0.13|0.01|Sulphide|
|and|574.2|577.0|2.8|3.41|2.45|0.68|0.06|0.11|0.01|Sulphide|
|JD108|2.8|23.0|20.2|1.67|0.55|0.21|0.20|0.27|0.03|Oxide|
|Incl|2.8|13.7|10.9|1.26|0.60|0.12|0.25|0.32|0.05|Oxide|
|and|17.0|23.0|6.0|2.70|0.66|0.39|0.16|0.25|0.01|Oxide|
|JD108|23.0|44.0|21.0|1.35|0.17|0.42|0.14|0.34|0.01|Sulphide|
|Incl|23.0|32.8|9.8|2.55|0.27|0.86|0.15|0.69|0.02|Sulphide|
|JD108|74.0|81.0|7.0|0.38|0.11|0.01|0.16|0.08|0.02|Sulphide|
|JD108|90.0|123.0|33.0|0.66|0.19|0.09|0.15|0.22|0.02|Sulphide|
|Incl|102.0|107.0|5.0|1.20|0.37|0.28|0.16|0.43|0.02|Sulphide|
|and|110.0|112.0|2.0|1.30|0.39|0.30|0.18|0.61|0.02|Sulphide|
|JD108|131.6|141.8|10.2|0.90|0.35|0.06|0.16|0.05|0.01|Sulphide|
|Incl|139.0|141.8|2.8|1.80|0.65|0.12|0.20|0.05|0.01|Sulphide|
|JD109|9.3|33.0|23.8|0.69|0.16|0.01|0.15|0.06|0.02|Oxide|
|JD109|33.0|39.0|6.0|0.31|0.07|<0.01|0.16|0.01|0.01|Sulphide|
|JD109|43.7|85.0|41.4|0.77|0.15|<0.01|0.19|0.11|0.02|Sulphide|
|Incl|45.5|50.0|4.5|1.49|0.29|0.01|0.31|0.12|0.03|Sulphide|
|and|55.0|61.0|6.0|1.05|0.22|0.01|0.18|0.07|0.02|Sulphide|
|and|75.0|77.0|2.0|1.31|0.30|0.01|0.24|0.15|0.02|Sulphide|
|JD109|112.2|120.9|8.7|0.42|0.08|0.01|0.16|0.07|0.02|Sulphide|
|JD109|201.8|207.0|5.2|0.71|0.13|0.01|0.22|0.09|0.02|Sulphide|
|JD109|222.0|232.0|10.0|0.32|0.07|0.01|0.13|0.04|0.01|Sulphide|
|JD110|12.1|20.5|8.4|0.79|0.06|0.04|0.05|0.11|0.02|Oxide|
|Incl|13.6|18.0|4.4|1.02|0.08|0.03|0.05|0.14|0.03|Oxide|
|JD112|2.3|19.8|17.5|1.48|0.40|0.06|0.26|0.35|0.09|Oxide|

----- End of picture text -----

20 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 696] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|Incl|4.5|19.8|15.3|1.57|0.43|0.06|0.28|0.37|0.10|Oxide|
|JD112|28.0|33.2|5.2|0.42|0.09|0.01|0.14|0.20|0.01|Sulphide|
|JD112|39.0|72.4|33.4|1.24|0.53|0.28|0.17|0.41|0.02|Sulphide|
|Incl|51.9|72.0|20.1|1.75|0.76|0.41|0.17|0.62|0.02|Sulphide|
|JD112|90.7|189.6|98.9|1.26|0.46|0.26|0.14|0.38|0.01|Sulphide|
|Incl|90.7|93.0|2.3|1.33|0.39|0.13|0.14|0.58|0.01|Sulphide|
|and|97.8|115.7|17.9|2.00|0.51|0.48|0.15|0.43|0.01|Sulphide|
|and|118.0|133.8|15.8|1.77|0.98|0.32|0.12|0.46|0.01|Sulphide|
|and|136.0|138.0|2.0|1.13|0.18|0.05|0.13|0.28|0.02|Sulphide|
|and|141.0|147.0|6.0|1.35|0.31|0.30|0.15|0.44|0.01|Sulphide|
|and|158.0|160.0|2.0|1.14|3.68|0.02|0.13|0.09|0.01|Sulphide|
|and|164.0|174.0|10.0|1.59|0.46|0.57|0.18|0.74|0.02|Sulphide|
|JD113|9.6|17.0|7.4|0.60|0.04|0.03|0.04|0.11|<0.01|Oxide|
|JD114|106.1|173.9|67.8|0.76|0.18|0.01|0.22|0.07|0.02|Sulphide|
|Incl|139.9|148.0|8.2|2.00|0.50|0.02|0.68|0.24|0.05|Sulphide|
|JD114|258.0|301.0|43.0|1.04|0.21|0.06|0.15|0.12|0.01|Sulphide|
|Incl|261.0|263.0|2.0|1.58|0.27|0.03|0.20|0.22|0.02|Sulphide|
|and|272.0|276.0|4.0|1.55|0.58|0.06|0.16|0.10|0.01|Sulphide|
|and|286.0|290.0|4.0|3.80|0.19|0.15|0.25|0.18|0.02|Sulphide|
|JD114|337.5|382.1|44.6|0.99|0.18|0.08|0.17|0.11|0.01|Sulphide|
|Incl|360.0|363.0|3.0|1.07|0.25|0.15|0.21|0.11|0.02|Sulphide|
|and|374.0|378.0|4.0|3.43|0.22|0.16|0.14|0.21|0.01|Sulphide|
|JD115|41.0|68.5|27.5|0.63|0.14|0.01|0.15|0.07|0.02|Sulphide|
|JD115|73.0|84.0|11.0|0.77|0.15|0.01|0.14|0.04|0.01|Sulphide|
|Incl|81.0|84.0|3.0|1.32|0.25|0.02|0.19|0.07|0.02|Sulphide|
|JD115|89.0|98.2|9.2|0.65|0.14|0.01|0.12|0.04|0.01|Sulphide|
|JD115|104.3|154.7|50.4|0.80|0.19|0.01|0.16|0.08|0.01|Sulphide|
|Incl|119.0|125.2|6.2|1.88|0.61|0.03|0.22|0.25|0.02|Sulphide|
|and|133.0|140.0|7.0|1.04|0.22|0.02|0.20|0.09|0.02|Sulphide|
|and|143.0|145.0|2.0|1.20|0.23|0.01|0.18|0.18|0.02|Sulphide|
|JD115|161.0|189.6|28.6|0.53|0.10|<0.01|0.16|0.02|0.01|Sulphide|
|Incl|162.0|164.0|2.0|1.62|0.31|0.01|0.18|0.06|0.02|Sulphide|
|JD115|247.8|267.2|19.3|0.46|0.11|0.01|0.16|0.10|0.02|Sulphide|
|JD115|286.2|303.0|16.8|0.47|0.11|0.01|0.15|0.08|0.02|Sulphide|
|JD115|367.5|387.0|19.5|2.54|0.30|0.01|0.57|0.23|0.03|Sulphide|
|Incl|367.5|370.8|3.3|9.75|0.25|0.04|1.23|0.59|0.07|Sulphide|
|and|374.2|379.0|4.8|2.86|0.83|0.02|1.23|0.49|0.07|Sulphide|
|JD115|392.0|511.0|119.0|0.42|0.09|0.01|0.15|0.04|0.01|Sulphide|

----- End of picture text -----

21 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 696] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JD115|528.6|558.0|29.4|1.02|0.18|0.02|0.25|0.17|0.02|Sulphide|
|Incl|539.0|551.0|12.0|1.56|0.28|0.03|0.26|0.13|0.03|Sulphide|
|and|555.7|558.0|2.3|1.83|0.19|0.04|0.81|1.26|0.05|Sulphide|
|JD115|564.3|597.0|32.6|0.69|0.17|0.04|0.19|0.16|0.02|Sulphide|
|Incl|588.0|593.0|5.0|1.03|0.27|0.06|0.30|0.34|0.02|Sulphide|
|JD116|31.0|71.0|40.0|0.61|0.15|0.03|0.10|0.10|0.01|Sulphide|
|Incl|66.0|71.0|5.0|1.42|0.39|0.04|0.17|0.17|0.02|Sulphide|
|JD116|79.8|87.2|7.5|0.45|0.09|0.01|0.13|0.07|0.01|Sulphide|
|JD116|94.3|149.0|54.7|0.52|0.10|0.01|0.14|0.05|0.01|Sulphide|
|Incl|108.0|110.3|2.3|1.41|0.23|0.02|0.21|0.04|0.02|Sulphide|
|JD116|154.0|205.6|51.6|0.80|0.16|<0.01|0.18|0.04|0.02|Sulphide|
|Incl|174.0|178.0|4.0|1.46|0.34|0.01|0.20|0.08|0.02|Sulphide|
|and|187.0|191.0|4.0|1.08|0.26|0.01|0.20|0.06|0.02|Sulphide|
|JD116|240.1|249.3|9.2|0.71|0.14|<0.01|0.16|0.07|0.02|Sulphide|
|JD116|254.0|263.8|9.8|0.37|0.08|<0.01|0.12|0.06|0.01|Sulphide|
|JD116|360.0|373.9|13.9|1.44|0.25|0.02|0.25|0.14|0.02|Sulphide|
|Incl|368.5|372.7|4.1|3.63|0.61|0.04|0.53|0.31|0.04|Sulphide|
|JD116|402.8|501.4|98.6|0.53|0.14|0.02|0.16|0.04|0.01|Sulphide|
|JD116|524.0|560.0|36.0|0.63|0.14|0.06|0.18|0.16|0.02|Sulphide|
|Incl|551.7|553.7|2.1|1.37|0.28|0.09|0.21|0.44|0.02|Sulphide|
|JD116|565.0|572.8|7.8|1.28|0.33|0.14|0.15|0.23|0.01|Sulphide|
|Incl|566.0|571.0|5.0|1.63|0.42|0.18|0.17|0.25|0.02|Sulphide|
|JD120|8.0|48.1|40.1|0.95|0.20|0.02|0.13|0.08|0.04|Oxide|
|Incl|14.9|25.8|11.0|1.35|0.37|0.01|0.13|0.15|0.10|Oxide|
|JD120|115.4|140.6|25.2|0.46|0.09|0.01|0.15|0.07|0.02|Sulphide|
|JD120|145.0|211.0|66.0|0.70|0.18|0.01|0.15|0.07|0.02|Sulphide|
|Incl|204.0|209.9|5.8|1.42|0.36|0.03|0.18|0.08|0.02|Sulphide|
|JD120|216.0|223.0|7.0|0.56|0.11|0.02|0.16|0.09|0.01|Sulphide|
|JD120|227.9|255.6|27.6|0.55|0.11|0.01|0.15|0.06|0.02|Sulphide|
|JD120|260.0|288.7|28.7|3.13|0.84|0.04|0.34|0.31|0.02|Sulphide|
|Incl|271.0|288.7|17.7|4.71|1.28|0.05|0.42|0.41|0.03|Sulphide|
|JD120|321.0|327.0|6.0|0.39|0.09|<0.01|0.15|0.03|0.02|Sulphide|
|JD120|338.8|344.0|5.2|0.76|0.17|0.01|0.20|0.02|0.02|Sulphide|
|JD120|431.9|447.7|15.8|0.55|0.12|0.01|0.16|0.04|0.01|Sulphide|
|JD120|453.6|525.0|71.4|0.47|0.17|0.03|0.15|0.08|0.02|Sulphide|
|Incl|505.0|507.0|2.0|1.18|2.41|0.17|0.21|0.33|0.02|Sulphide|
|JD121|76.0|93.6|17.6|0.52|0.11|<0.01|0.09|0.02|0.01|Sulphide|
|JD121|115.5|132.7|17.2|0.54|0.11|0.01|0.14|0.06|0.02|Sulphide|

----- End of picture text -----

22 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 696] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JD121|160.0|262.6|102.6|0.56|0.12|0.01|0.15|0.05|0.02|Sulphide|
|Incl|186.0|191.0|5.0|1.20|0.21|0.01|0.26|0.05|0.03|Sulphide|
|JD121|270.0|297.0|27.0|0.65|0.13|<0.01|0.17|0.09|0.02|Sulphide|
|Incl|285.0|288.1|3.1|1.30|0.30|0.01|0.19|0.25|0.02|Sulphide|
|JD121|311.8|348.1|36.3|0.50|0.09|<0.01|0.18|0.07|0.02|Sulphide|
|JD121|366.2|405.0|38.8|0.49|0.12|0.01|0.13|0.03|0.01|Sulphide|
|JD121|417.7|425.8|8.1|0.38|0.10|0.01|0.10|0.05|0.01|Sulphide|
|JD121|456.0|459.6|3.6|1.07|0.21|0.03|0.19|0.06|0.01|Sulphide|
|JD121|471.3|503.7|32.4|0.51|0.11|0.01|0.14|0.05|0.01|Sulphide|
|JD121|509.0|618.3|109.3|0.82|0.18|0.04|0.19|0.16|0.02|Sulphide|
|Incl|595.0|597.0|2.0|5.56|0.65|0.04|0.15|0.15|0.01|Sulphide|
|and|600.2|618.3|18.1|1.59|0.45|0.16|0.29|0.70|0.02|Sulphide|
|JD122|4.0|12.0|8.0|2.22|0.35|0.11|0.23|0.27|0.05|Oxide|
|Incl|4.7|12.0|7.3|2.35|0.38|0.11|0.23|0.27|0.05|Oxide|
|JD122|14.3|35.0|20.7|0.64|0.14|0.02|0.23|0.14|0.02|Oxide|
|Incl|15.8|18.5|2.7|1.33|0.30|0.06|0.28|0.24|0.04|Oxide|
|JD123|3.0|12.0|9.0|1.11|0.09|<0.01|0.03|0.04|<0.01|Oxide|
|Incl|4.0|11.0|7.0|1.28|0.10|<0.01|0.03|0.04|<0.01|Oxide|
|JD123|143.0|165.0|22.0|2.05|0.59|0.06|0.14|0.08|0.01|Sulphide|
|Incl|149.0|162.4|13.4|3.18|0.89|0.09|0.19|0.11|0.02|Sulphide|
|JD124|2.5|29.0|26.5|1.36|0.16|0.01|0.06|0.07|0.01|Oxide|
|Incl|4.3|15.7|11.4|2.73|0.26|0.01|0.05|0.08|0.01|Oxide|
|JD124|61.0|67.4|6.4|0.50|0.11|0.02|0.11|0.04|0.01|Sulphide|
|JD124|144.8|152.2|7.4|1.10|0.21|0.13|0.14|0.07|0.01|Sulphide|
|Incl|147.0|152.2|5.2|1.31|0.22|0.17|0.16|0.08|0.01|Sulphide|
|JD124|174.0|181.0|7.1|0.38|0.12|0.04|0.12|0.07|0.01|Sulphide|
|JD125|10.0|23.8|13.8|0.43|0.04|<0.01|0.05|0.05|0.01|Oxide|
|JD125|51.0|77.0|26.0|0.44|0.10|0.01|0.25|0.04|0.02|Oxide|
|JD125|148.0|237.7|89.7|0.69|0.13|0.05|0.15|0.14|0.01|Sulphide|
|Incl|168.0|170.7|2.7|1.96|0.17|0.04|0.29|0.17|0.02|Sulphide|
|and|204.9|207.0|2.1|1.58|0.25|0.05|0.19|0.20|0.02|Sulphide|
|and|232.0|234.0|2.0|1.29|0.28|0.07|0.16|0.10|0.02|Sulphide|
|JD126|17.0|39.1|22.1|0.55|0.14|0.01|0.15|0.05|0.02|Oxide|
|JD126|52.0|150.0|98.0|0.55|0.11|0.01|0.15|0.05|0.01|Sulphide|
|Incl|143.0|146.0|3.0|1.05|0.19|0.03|0.22|0.07|0.02|Sulphide|
|JD126|172.1|196.6|24.5|0.39|0.09|0.04|0.14|0.07|0.01|Sulphide|
|JD127|1.4|20.3|18.9|0.32|0.03|0.01|0.03|0.05|0.01|Oxide|
|JD127|51.0|189.2|138.2|0.53|0.11|0.01|0.15|0.05|0.02|Sulphide|

----- End of picture text -----

23 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 694] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JD127|194.0|199.0|5.0|0.34|0.08|0.01|0.15|0.04|0.02|Sulphide|
|JD127|233.0|297.1|64.1|0.82|0.18|0.02|0.17|0.06|0.01|Sulphide|
|Incl|240.0|243.0|3.0|1.43|0.39|0.05|0.14|0.18|0.01|Sulphide|
|and|248.0|253.0|5.0|1.70|0.22|0.02|0.13|0.03|0.01|Sulphide|
|JD127|317.2|333.9|16.7|0.48|0.11|0.01|0.15|0.02|0.01|Sulphide|
|JD128|8.1|27.0|18.9|0.82|0.14|0.01|0.14|0.10|0.02|Oxide|
|Incl|9.5|12.0|2.5|2.81|0.28|0.03|0.25|0.19|0.04|Oxide|
|JD128|27.0|80.3|53.3|0.50|0.12|0.01|0.14|0.07|0.01|Sulphide|
|JD128|85.3|113.4|28.1|0.60|0.12|<0.01|0.15|0.03|0.01|Sulphide|
|JD128|142.9|151.2|8.3|0.54|0.10|<0.01|0.16|0.02|0.01|Sulphide|
|JD128|159.5|240.0|80.5|0.52|0.10|0.01|0.15|0.07|0.02|Sulphide|
|Incl|235.4|240.0|4.6|1.55|0.16|0.05|0.24|0.40|0.02|Sulphide|
|JD128|270.5|282.0|11.5|1.30|0.33|0.01|0.23|0.14|0.02|Sulphide|
|Incl|270.5|279.3|8.7|1.58|0.39|0.01|0.26|0.18|0.03|Sulphide|
|JD128|318.8|418.4|99.7|0.56|0.16|0.01|0.14|0.03|0.01|Sulphide|
|Incl|324.8|327.0|2.2|2.36|0.22|0.02|0.21|0.25|0.02|Sulphide|
|and|414.0|416.0|2.0|2.15|1.43|0.02|0.20|0.07|0.02|Sulphide|
|JD128|423.4|434.0|10.6|0.30|0.07|0.02|0.14|0.01|0.01|Sulphide|
|JD128|446.8|522.0|75.2|1.41|0.40|0.21|0.15|0.67|0.01|Sulphide|
|Incl|453.8|487.0|33.2|2.16|0.49|0.34|0.15|1.16|0.02|Sulphide|
|and|490.0|495.8|5.8|1.58|0.59|0.32|0.12|0.86|0.01|Sulphide|
|JD129|1.9|44.0|42.1|0.78|0.21|0.01|0.11|0.08|0.03|Oxide|
|Incl|11.0|21.0|10.0|1.45|0.48|0.01|0.14|0.14|0.09|Oxide|
|JD129|44.0|171.0|127.0|0.60|0.12|0.04|0.15|0.08|0.01|Sulphide|
|Incl|81.0|83.0|2.0|1.59|0.34|0.03|0.24|0.08|0.03|Sulphide|
|and|93.0|96.0|3.0|1.00|0.33|0.02|0.17|0.06|0.02|Sulphide|
|and|138.0|140.0|2.0|1.46|0.18|0.03|0.28|0.12|0.02|Sulphide|
|JD130|15.1|32.0|16.9|0.47|0.11|0.01|0.12|0.08|0.02|Oxide|
|JD130|32.0|51.8|19.8|0.60|0.12|0.01|0.15|0.06|0.02|Sulphide|
|JD130|55.9|62.3|6.4|0.64|0.11|0.01|0.17|0.03|0.01|Sulphide|
|JD130|114.3|120.8|6.5|0.75|0.15|0.01|0.17|0.08|0.02|Sulphide|
|JD130|134.6|169.3|34.7|0.57|0.12|<0.01|0.15|0.05|0.02|Sulphide|
|Incl|135.0|139.0|4.0|1.25|0.25|0.01|0.19|0.08|0.02|Sulphide|
|JD130|182.3|240.0|57.7|0.41|0.09|<0.01|0.12|0.04|0.01|Sulphide|
|JD130|283.0|322.0|39.0|3.32|0.70|0.03|0.39|0.24|0.03|Sulphide|
|Incl|286.0|312.0|26.0|4.75|1.01|0.04|0.50|0.34|0.04|Sulphide|
|JD130|328.5|339.4|10.9|0.43|0.08|<0.01|0.16|0.01|0.01|Sulphide|
|JD131|9.0|25.0|16.0|0.43|0.02|<0.01|0.04|0.05|<0.01|Oxide|

----- End of picture text -----

24 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 696] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JD131|97.3|116.8|19.5|0.68|0.13|0.01|0.18|0.09|0.02|Sulphide|
|Incl|112.0|116.8|4.8|1.02|0.19|0.01|0.24|0.14|0.02|Sulphide|
|JD131|126.0|247.3|121.3|0.62|0.13|0.01|0.14|0.07|0.01|Sulphide|
|Incl|136.0|138.0|2.0|1.03|0.21|0.04|0.24|0.18|0.03|Sulphide|
|and|170.0|172.0|2.0|1.46|0.25|0.02|0.17|0.08|0.02|Sulphide|
|and|178.0|183.0|5.0|1.41|0.22|0.02|0.14|0.09|0.01|Sulphide|
|and|187.0|192.0|5.0|1.30|0.28|0.02|0.18|0.07|0.02|Sulphide|
|and|212.0|214.0|2.0|1.05|0.17|0.01|0.23|0.12|0.02|Sulphide|
|JD132|56.0|185.0|129.0|0.55|0.12|0.01|0.14|0.05|0.01|Sulphide|
|Incl|82.0|84.0|2.0|1.16|0.19|0.01|0.15|<0.01|0.02|Sulphide|
|and|133.0|135.0|2.0|1.11|0.31|0.01|0.26|0.18|0.03|Sulphide|
|JRC036D|145.0|335.0|190.0|0.57|0.13|0.01|0.15|0.08|0.01|Sulphide|
|JRC036D|342.0|360.2|18.2|0.55|0.11|0.01|0.18|0.07|0.02|Sulphide|
|JRC050D|95.0|277.0|182.0|0.58|0.14|0.02|0.13|0.08|0.01|Sulphide|
|Incl|269.0|273.0|4.0|1.77|0.60|0.02|0.15|0.07|0.02|Sulphide|
|JRC050D|279.3|286.0|6.7|0.53|0.12|0.01|0.15|0.06|0.02|Sulphide|
|JRC050D|290.0|328.0|38.0|0.74|0.21|0.02|0.15|0.07|0.02|Sulphide|
|Incl|290.0|292.0|2.0|2.37|1.05|0.04|0.20|0.09|0.02|Sulphide|
|and|308.0|310.0|2.0|1.25|0.38|0.04|0.11|0.06|0.01|Sulphide|
|and|313.0|320.0|7.0|1.09|0.27|0.01|0.17|0.08|0.02|Sulphide|
|JRC050D|334.0|360.0|26.0|0.65|0.14|0.01|0.15|0.06|0.01|Sulphide|
|Incl|354.0|360.0|6.0|1.10|0.26|0.03|0.14|0.09|0.01|Sulphide|
|JRC061D|273.0|284.3|11.3|0.42|0.08|0.01|0.15|0.05|0.01|Sulphide|
|JRC134D|197.0|285.4|88.4|0.79|0.18|0.03|0.18|0.11|0.01|Sulphide|
|Incl|278.0|281.0|3.0|1.31|0.36|0.09|0.12|0.18|0.01|Sulphide|
|JRC134D|317.4|342.5|25.1|0.54|0.13|0.08|0.13|0.09|0.01|Sulphide|
|JRC139D|114.0|261.0|147.0|0.63|0.15|0.03|0.14|0.08|0.01|Sulphide|
|Incl|228.0|233.0|5.0|1.25|0.57|0.15|0.09|0.15|0.01|Sulphide|
|JRC139D|270.0|277.3|7.3|0.31|0.06|0.02|0.12|0.06|0.02|Sulphide|
|JRC139D|309.0|320.2|11.2|0.47|0.10|0.01|0.14|0.06|0.02|Sulphide|
|JRC156D|35.0|294.9|259.9|0.59|0.13|<0.01|0.16|0.06|0.02|Sulphide|
|Incl|87.0|89.0|2.0|1.20|0.25|0.01|0.17|0.02|0.02|Sulphide|
|and|92.0|94.0|2.0|1.12|0.21|0.01|0.22|0.02|0.02|Sulphide|
|and|97.0|99.0|2.0|1.34|0.26|0.01|0.19|0.06|0.02|Sulphide|
|and|103.0|107.0|4.0|1.66|0.30|0.01|0.20|0.05|0.02|Sulphide|
|and|175.0|178.0|3.0|1.12|0.22|0.01|0.19|0.06|0.02|Sulphide|
|and|252.0|254.9|2.9|1.08|0.19|0.01|0.32|0.09|0.04|Sulphide|
|JRC162D|78.0|257.6|179.6|0.71|0.17|0.03|0.12|0.06|0.01|Sulphide|

----- End of picture text -----

25 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 696] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|Incl|222.0|228.0|6.0|1.58|0.34|0.09|0.14|0.07|0.01|Sulphide|
|and|232.0|234.0|2.0|1.08|0.22|0.05|0.11|0.10|0.01|Sulphide|
|and|238.0|243.0|5.0|1.05|0.20|0.02|0.10|0.06|0.01|Sulphide|
|and|249.0|251.0|2.0|1.33|0.19|0.03|0.15|0.08|0.01|Sulphide|
|JRC167D|298.0|302.0|4.0|1.23|0.12|0.34|0.13|0.31|0.01|Sulphide|
|JRC173D|279.3|289.4|10.0|0.66|0.13|0.01|0.13|0.11|0.02|Sulphide|
|JRC173D|300.2|310.9|10.7|1.06|0.29|0.04|0.16|0.19|0.02|Sulphide|
|Incl|302.4|306.0|3.6|1.71|0.47|0.03|0.17|0.19|0.02|Sulphide|
|JRC177D|257.0|270.1|13.1|0.55|0.12|0.01|0.16|0.07|0.01|Sulphide|
|JRC177D|291.3|304.1|12.7|0.86|0.27|0.02|0.14|0.03|0.01|Sulphide|
|JRC177D|319.0|345.7|26.7|0.55|0.14|0.02|0.12|0.04|0.01|Sulphide|
|Incl|325.0|327.0|2.0|1.47|0.33|0.04|0.10|0.02|0.01|Sulphide|
|JRC229D|311.7|314.0|2.3|2.44|1.24|0.57|0.18|0.17|0.02|Sulphide|
|JRC237D|251.0|315.0|64.0|0.67|0.17|0.13|0.15|0.12|0.01|Sulphide|
|Incl|254.0|258.0|4.0|2.65|0.74|0.70|0.15|0.31|0.01|Sulphide|
|and|308.0|310.0|2.0|1.72|0.35|1.35|0.12|0.54|0.01|Sulphide|
|and|313.0|315.0|2.0|1.33|0.28|0.19|0.17|0.21|0.01|Sulphide|
|JRC237D|345.0|349.8|4.8|1.40|0.44|0.13|0.10|0.06|0.01|Sulphide|
|and|345.0|349.0|4.0|1.56|0.52|0.15|0.11|0.07|0.01|Sulphide|
|JRC237D|354.4|361.6|7.3|0.49|0.13|0.05|0.08|0.03|0.01|Sulphide|
|JRC293|10.0|15.0|5.0|0.38|0.12|0.06|0.06|0.07|0.02|Oxide|
|JRC293|42.0|197.0|155.0|0.56|0.13|0.01|0.14|0.09|0.01|Sulphide|
|Incl|90.0|92.0|2.0|2.59|0.37|0.02|0.34|0.19|0.03|Sulphide|
|and|181.0|184.0|3.0|1.35|0.61|0.12|0.28|0.24|0.04|Sulphide|
|JRC293|203.0|216.0|13.0|0.31|0.08|0.01|0.08|0.07|0.01|Sulphide|
|JRC294D|280.0|304.0|24.0|0.62|0.12|0.01|0.14|0.07|0.02|Sulphide|
|JRC294D|351.0|366.2|15.2|0.62|0.16|0.01|0.14|0.07|0.01|Sulphide|
|JRC297|54.0|62.0|8.0|0.79|0.34|0.04|0.12|0.21|0.01|Sulphide|
|JRC297|237.0|246.0|9.0|0.36|0.09|0.02|0.15|0.14|0.02|Sulphide|
|JRC298|8.0|26.0|18.0|0.86|0.23|0.04|0.11|0.15|0.02|Oxide|
|Incl|13.0|18.0|5.0|1.19|0.29|0.06|0.14|0.23|0.03|Oxide|
|JRC298|26.0|62.0|36.0|0.68|0.16|<0.01|0.14|0.06|0.01|Sulphide|
|JRC301|9.0|14.0|5.0|0.48|0.25|0.04|0.05|0.11|0.05|Oxide|
|JRC301|19.0|45.0|26.0|0.72|0.15|0.01|0.12|0.11|0.02|Oxide|
|Incl|34.0|36.0|2.0|2.50|0.19|0.01|0.16|0.22|0.02|Oxide|
|JRC301|45.0|58.0|13.0|0.76|0.18|0.01|0.15|0.09|0.02|Sulphide|
|Incl|46.0|48.0|2.0|1.14|0.35|0.01|0.17|0.11|0.02|Sulphide|
|JRC301|69.0|95.0|26.0|0.53|0.10|<0.01|0.15|0.03|0.01|Sulphide|

----- End of picture text -----

26 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 696] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JRC301|122.0|130.0|8.0|0.39|0.08|<0.01|0.10|0.04|0.01|Sulphide|
|JRC301|136.0|152.0|16.0|0.34|0.06|0.01|0.14|0.08|0.02|Sulphide|
|JRC301|163.0|189.0|26.0|0.38|0.08|0.01|0.15|0.09|0.02|Sulphide|
|JRC301|195.0|213.0|18.0|0.50|0.11|0.01|0.17|0.05|0.02|Sulphide|
|JRC301|225.0|239.0|14.0|2.97|0.54|0.16|0.22|0.21|0.02|Sulphide|
|Incl|225.0|235.0|10.0|3.91|0.69|0.12|0.26|0.28|0.02|Sulphide|
|JRC302|9.0|23.0|14.0|0.64|0.56|0.04|0.04|0.07|0.02|Oxide|
|JRC303|155.0|159.0|4.0|0.38|0.10|0.02|0.09|0.09|0.01|Sulphide|
|JRC303|227.0|249.0|22.0|0.92|0.20|0.01|0.15|0.11|0.01|Sulphide|
|Incl|243.0|246.0|3.0|2.19|0.40|0.01|0.19|0.14|0.02|Sulphide|
|JRC304|23.0|51.0|28.0|0.65|0.31|0.08|0.08|0.08|0.03|Oxide|
|Incl|38.0|42.0|4.0|1.61|0.63|0.27|0.12|0.22|0.01|Oxide|
|JRC304|51.0|55.0|4.0|0.57|0.41|0.03|0.04|0.01|0.01|Sulphide|
|JRC304|206.0|291.0|85.0|0.54|0.14|0.03|0.12|0.12|0.01|Sulphide|
|Incl|253.0|258.0|5.0|1.03|0.28|0.05|0.18|0.23|0.02|Sulphide|
|JRC305|35.0|43.0|8.0|0.46|0.11|0.07|0.12|0.19|0.02|Sulphide|
|JRC305|56.0|61.0|5.0|0.37|0.09|0.11|0.14|0.31|0.02|Sulphide|
|JRC305|67.0|124.0|57.0|0.57|0.13|0.01|0.13|0.09|0.01|Sulphide|
|JRC305|131.0|158.0|27.0|0.63|0.15|<0.01|0.14|0.06|0.01|Sulphide|
|JRC305|247.0|254.0|7.0|0.41|0.11|0.02|0.15|0.01|0.02|Sulphide|
|JRC305|261.0|266.0|5.0|0.91|0.11|0.01|0.11|<0.01|0.02|Sulphide|
|Incl|262.0|264.0|2.0|1.41|0.13|0.01|0.12|<0.01|0.02|Sulphide|
|JRC306|18.0|26.0|8.0|0.43|0.46|0.03|0.05|0.11|0.02|Oxide|
|JRC306|160.0|184.0|24.0|0.34|0.10|0.02|0.09|0.10|0.01|Sulphide|
|JRC306|200.0|264.0|64.0|0.61|0.13|0.02|0.12|0.10|0.01|Sulphide|
|JRC307|13.0|26.0|13.0|0.35|0.27|0.01|0.04|0.04|0.03|Oxide|
|JRC307|110.0|135.0|25.0|0.51|0.12|0.03|0.13|0.14|0.01|Sulphide|
|JRC307|146.0|272.0|126.0|0.61|0.13|0.01|0.14|0.09|0.01|Sulphide|
|Incl|162.0|164.0|2.0|1.29|0.30|0.05|0.16|0.12|0.02|Sulphide|
|and|211.0|214.0|3.0|1.14|0.19|0.01|0.20|0.20|0.02|Sulphide|
|JRC307|277.0|291.0|14.0|0.54|0.12|0.02|0.12|0.11|0.01|Sulphide|
|JRC308|189.0|211.0|22.0|0.35|0.09|0.05|0.10|0.15|0.01|Sulphide|
|JRC308|229.0|241.0|12.0|0.46|0.11|0.03|0.10|0.04|0.01|Sulphide|
|JRC309|4.0|38.0|34.0|0.90|0.19|0.01|0.13|0.05|0.03|Oxide|
|Incl|5.0|16.0|11.0|1.67|0.38|<0.01|0.14|0.08|0.03|Oxide|
|and|19.0|21.0|2.0|1.06|0.14|0.03|0.13|0.08|0.08|Oxide|
|JRC309|38.0|98.0|60.0|0.50|0.10|<0.01|0.16|0.04|0.01|Sulphide|
|JRC309|129.0|156.0|27.0|0.57|0.11|<0.01|0.17|0.10|0.02|Sulphide|

----- End of picture text -----

27 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 696] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JRC310|47.0|51.0|4.0|0.57|0.21|0.01|0.12|0.05|0.01|Oxide|
|JRC310|51.0|58.0|7.0|0.63|0.09|0.01|0.10|0.01|0.01|Sulphide|
|JRC310|83.0|88.0|5.0|0.81|0.42|0.02|0.06|0.14|0.01|Sulphide|
|Incl|85.0|87.0|2.0|1.52|0.64|0.04|0.10|0.32|0.01|Sulphide|
|JRC310|93.0|120.0|27.0|0.55|0.31|0.04|0.06|0.05|0.01|Sulphide|
|Incl|105.0|107.0|2.0|1.51|0.73|0.07|0.10|0.06|0.01|Sulphide|
|and|117.0|119.0|2.0|1.65|0.58|0.05|0.14|0.11|0.01|Sulphide|
|JRC311|165.0|201.0|36.0|0.39|0.09|0.02|0.11|0.08|0.01|Sulphide|
|Incl|199.0|201.0|2.0|1.30|0.23|0.02|0.09|0.07|0.01|Sulphide|
|JRC311|207.0|287.0|80.0|0.62|0.14|0.01|0.14|0.08|0.01|Sulphide|
|Incl|213.0|215.0|2.0|1.10|0.23|0.02|0.13|0.08|0.01|Sulphide|
|and|253.0|260.0|7.0|1.21|0.24|0.01|0.31|0.24|0.03|Sulphide|
|JRC312|1.0|25.0|24.0|0.47|0.15|0.01|0.06|0.05|0.01|Oxide|
|JRC312|58.0|71.0|13.0|0.54|0.19|0.08|0.13|0.06|0.02|Sulphide|
|JRC313|47.0|53.0|6.0|0.51|0.26|0.01|0.05|0.03|0.01|Sulphide|
|JRC314|9.0|29.0|20.0|0.66|0.16|0.04|0.11|0.14|0.02|Oxide|
|Incl|19.0|24.0|5.0|1.20|0.28|0.04|0.17|0.11|0.04|Oxide|
|JRC314|29.0|112.0|83.0|0.60|0.13|0.02|0.14|0.07|0.02|Sulphide|
|Incl|66.0|69.0|3.0|1.23|0.23|0.02|0.18|0.07|0.02|Sulphide|
|and|78.0|81.0|3.0|1.23|0.24|0.03|0.21|0.15|0.02|Sulphide|
|and|87.0|90.0|3.0|1.15|0.20|0.02|0.22|0.07|0.02|Sulphide|
|JRC314|121.0|130.0|9.0|0.83|0.17|0.01|0.17|0.07|0.01|Sulphide|
|Incl|122.0|125.0|3.0|1.29|0.27|0.01|0.22|0.16|0.02|Sulphide|
|JRC314|139.0|249.0|110.0|0.64|0.13|0.01|0.16|0.08|0.02|Sulphide|
|Incl|140.0|143.0|3.0|1.68|0.29|0.02|0.26|0.16|0.02|Sulphide|
|and|229.0|231.0|2.0|1.11|0.24|0.01|0.20|0.11|0.02|Sulphide|
|and|241.0|243.0|2.0|1.36|0.26|0.01|0.32|0.16|0.03|Sulphide|
|and|246.0|248.0|2.0|1.20|0.23|0.01|0.24|0.09|0.02|Sulphide|
|JRC315|1.0|5.0|4.0|0.39|0.04|<0.01|0.01|0.01|<0.01|Oxide|
|JRC315|78.0|94.0|16.0|1.09|0.43|<0.01|0.20|0.12|0.02|Sulphide|
|Incl|84.0|93.0|9.0|1.39|0.65|0.01|0.23|0.15|0.02|Sulphide|
|JRC315|127.0|150.0|23.0|0.70|0.14|0.01|0.22|0.09|0.02|Sulphide|
|JRC315|168.0|182.0|14.0|0.52|0.12|<0.01|0.11|0.02|0.01|Sulphide|
|JRC315|210.0|219.0|9.0|0.87|0.16|0.02|0.11|0.06|0.01|Sulphide|
|Incl|217.0|219.0|2.0|2.20|0.36|0.05|0.14|0.10|0.01|Sulphide|
|JRC315|264.0|303.0|39.0|1.03|0.24|0.05|0.15|0.09|0.01|Sulphide|
|Incl|277.0|281.0|4.0|2.85|0.32|0.16|0.29|0.10|0.02|Sulphide|
|and|288.0|291.0|3.0|1.22|0.31|0.04|0.13|0.15|0.01|Sulphide|

----- End of picture text -----

28 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 696] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|and|300.0|303.0|3.0|1.70|0.46|0.04|0.17|0.16|0.02|Sulphide|
|JRC316|5.0|36.0|31.0|0.98|0.27|0.02|0.18|0.11|0.02|Oxide|
|Incl|9.0|24.0|15.0|1.27|0.34|0.02|0.21|0.14|0.03|Oxide|
|JRC316|36.0|44.0|8.0|0.86|1.06|0.05|0.15|0.08|0.02|Sulphide|
|JRC316|57.0|108.0|51.0|1.97|0.81|0.19|0.13|0.07|0.01|Sulphide|
|Incl|60.0|68.0|8.0|1.95|1.05|0.19|0.12|0.05|0.01|Sulphide|
|and|76.0|108.0|32.0|2.45|0.96|0.24|0.15|0.09|0.01|Sulphide|
|JRC317|6.0|18.0|12.0|1.35|0.45|0.15|0.11|0.14|0.04|Oxide|
|Incl|9.0|16.0|7.0|1.93|0.59|0.12|0.13|0.16|0.07|Oxide|
|JRC317|27.0|44.0|17.0|0.93|0.22|0.07|0.18|0.09|0.01|Oxide|
|Incl|28.0|34.0|6.0|1.16|0.29|0.09|0.20|0.09|0.02|Oxide|
|JRC317|44.0|87.0|43.0|0.88|0.21|0.04|0.12|0.03|0.01|Sulphide|
|Incl|59.0|61.0|2.0|2.40|0.34|0.05|0.14|0.05|0.01|Sulphide|
|and|65.0|68.0|3.0|1.82|0.65|0.09|0.16|0.07|0.01|Sulphide|
|and|72.0|74.0|2.0|3.06|0.34|0.30|0.08|0.02|0.01|Sulphide|
|JRC318|13.0|29.0|16.0|0.71|0.17|0.13|0.11|0.21|0.03|Oxide|
|Incl|18.0|23.0|5.0|1.10|0.29|0.15|0.17|0.26|0.05|Oxide|
|JRC318|30.0|106.0|76.0|0.62|0.14|0.03|0.13|0.11|0.01|Sulphide|
|Incl|30.0|32.0|2.0|1.46|0.36|0.05|0.16|0.18|0.02|Oxide|
|JRC318|136.0|157.0|21.0|0.53|0.13|0.01|0.19|0.12|0.02|Sulphide|
|Incl|137.0|139.0|2.0|1.12|0.26|0.01|0.37|0.16|0.03|Sulphide|
|JRC318|162.0|179.0|17.0|0.42|0.09|0.01|0.15|0.05|0.02|Sulphide|
|JRC318|186.0|204.0|18.0|0.50|0.11|0.01|0.14|0.09|0.01|Sulphide|
|JRC318|213.0|249.0|36.0|0.47|0.11|<0.01|0.17|0.06|0.02|Sulphide|
|JRC319|120.0|126.0|6.0|0.33|0.11|0.02|0.11|0.06|0.01|Sulphide|
|JRC319|137.0|144.0|7.0|0.83|0.30|0.09|0.13|0.06|0.02|Sulphide|
|Incl|137.0|141.0|4.0|1.04|0.37|0.14|0.16|0.09|0.02|Sulphide|
|JRC319|153.0|158.0|5.0|0.36|0.12|0.05|0.10|0.13|0.01|Sulphide|
|JRC319|210.0|219.0|9.0|0.41|0.10|0.01|0.11|0.08|0.01|Sulphide|
|JRC320|6.0|20.0|14.0|0.79|0.08|0.04|0.05|0.08|<0.01|Oxide|
|Incl|7.0|10.0|3.0|1.40|0.17|0.04|0.04|0.07|<0.01|Oxide|
|JRC320|26.0|38.0|12.0|1.10|0.29|0.08|0.14|0.13|0.02|Oxide|
|Incl|29.0|31.0|2.0|1.09|0.20|0.06|0.15|0.12|0.02|Oxide|
|and|34.0|38.0|4.0|1.82|0.57|0.08|0.14|0.15|0.01|Oxide|
|JRC320|38.0|56.0|18.0|0.69|0.18|0.04|0.15|0.09|0.01|Sulphide|
|JRC320|79.0|103.0|24.0|0.63|0.19|0.05|0.13|0.04|0.01|Sulphide|
|Incl|80.0|85.0|5.0|1.30|0.49|0.08|0.14|0.10|0.02|Sulphide|
|JRC321|176.0|180.0|4.0|0.42|0.61|0.07|0.04|0.14|0.01|Sulphide|

----- End of picture text -----

29 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 694] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JRC322|226.0|234.0|8.0|0.50|0.65|0.01|0.04|0.02|0.01|Sulphide|
|JRC323|3.0|15.0|12.0|0.58|0.17|0.17|0.04|0.08|0.01|Oxide|
|Incl|7.0|9.0|2.0|1.37|0.19|0.03|0.03|0.10|0.02|Oxide|
|JRC324|114.0|138.0|24.0|0.79|0.45|0.04|0.11|0.09|0.01|Sulphide|
|Incl|130.0|137.0|7.0|1.55|0.57|0.05|0.19|0.18|0.01|Sulphide|
|JRC324|148.0|158.0|10.0|0.48|0.38|0.01|0.06|0.01|0.01|Sulphide|
|JRC325|6.0|18.0|12.0|1.23|0.47|0.02|0.07|0.15|0.04|Oxide|
|Incl|8.0|13.0|5.0|2.17|0.76|0.02|0.09|0.19|0.08|Oxide|
|JRC326|51.0|214.0|163.0|0.62|0.13|0.02|0.14|0.10|0.01|Sulphide|
|Incl|59.0|64.0|5.0|1.12|0.29|0.03|0.13|0.09|0.01|Sulphide|
|and|106.0|108.0|2.0|1.41|0.28|0.27|0.23|0.40|0.03|Sulphide|
|and|151.0|153.0|2.0|1.09|0.22|0.02|0.17|0.11|0.02|Sulphide|
|and|159.0|166.0|7.0|1.05|0.20|0.02|0.25|0.14|0.02|Sulphide|
|and|179.0|181.0|2.0|1.13|0.19|0.01|0.30|0.09|0.03|Sulphide|
|and|186.0|191.0|5.0|1.12|0.19|0.01|0.23|0.07|0.02|Sulphide|
|JRC326|220.0|297.0|77.0|0.47|0.10|<0.01|0.14|0.06|0.01|Sulphide|
|JRC327|50.0|56.0|6.0|0.33|0.08|0.02|0.06|0.11|0.01|Sulphide|
|JRC328|25.0|58.0|33.0|0.71|0.15|0.01|0.20|0.04|0.02|Oxide|
|JRC328|58.0|72.0|14.0|0.52|0.09|<0.01|0.15|0.02|0.01|Sulphide|
|JRC329|8.0|26.0|18.0|1.88|0.41|0.07|0.14|0.22|0.06|Oxide|
|Incl|9.0|25.0|16.0|2.04|0.44|0.08|0.15|0.23|0.06|Oxide|
|JRC329|26.0|61.0|35.0|0.70|0.14|0.04|0.16|0.11|0.02|Sulphide|
|JRC330|10.0|19.0|9.0|0.88|0.23|<0.01|0.07|0.05|0.02|Oxide|
|Incl|16.0|19.0|3.0|1.37|0.46|<0.01|0.12|0.08|0.06|Oxide|
|JRC330|19.0|75.0|56.0|0.75|0.15|<0.01|0.17|0.06|0.02|Sulphide|
|Incl|61.0|66.0|5.0|3.87|0.66|0.02|0.39|0.27|0.03|Sulphide|
|JRC330|130.0|139.0|9.0|0.48|0.10|<0.01|0.13|0.05|0.01|Sulphide|
|JRC330|194.0|250.0|56.0|0.71|0.13|0.02|0.15|0.10|0.01|Sulphide|
|Incl|201.0|206.0|5.0|1.15|0.19|0.01|0.12|0.21|0.01|Sulphide|
|and|225.0|229.0|4.0|1.38|0.23|0.01|0.16|0.08|0.02|Sulphide|
|JRC331|4.0|38.0|34.0|1.09|0.14|0.07|0.12|0.04|0.01|Oxide|
|Incl|7.0|25.0|18.0|1.51|0.15|0.06|0.10|0.06|0.01|Oxide|
|JRC331|52.0|63.0|11.0|1.65|0.73|0.06|0.26|0.12|0.02|Sulphide|
|Incl|57.0|62.0|5.0|3.02|1.22|0.08|0.32|0.18|0.02|Sulphide|
|JRC331|83.0|87.0|4.0|2.24|0.50|0.34|0.11|0.11|0.01|Sulphide|
|Incl|83.0|86.0|3.0|2.80|0.48|0.43|0.12|0.13|0.01|Sulphide|
|JRC332|9.0|27.0|18.0|0.99|0.21|0.02|0.19|0.10|0.03|Oxide|
|Incl|12.0|25.0|13.0|1.16|0.25|0.02|0.22|0.10|0.03|Oxide|

----- End of picture text -----

30 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 696] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JRC340|7.0|29.0|22.0|2.19|0.60|0.22|0.13|0.30|0.01|Oxide|
|Incl|8.0|24.0|16.0|2.82|0.79|0.28|0.13|0.30|0.01|Oxide|
|JRC341|121.0|128.0|7.0|0.86|0.17|0.05|0.07|0.05|0.01|Sulphide|
|JRC343D|9.0|14.0|5.0|0.42|0.35|0.01|0.02|0.11|0.01|Oxide|
|JRC343D|29.0|56.0|27.0|0.55|0.12|<0.01|0.16|0.08|0.02|Sulphide|
|JRC343D|63.0|126.0|63.0|0.64|0.13|<0.01|0.17|0.08|0.02|Sulphide|
|Incl|93.0|95.0|2.0|1.21|0.23|0.01|0.24|0.06|0.02|Sulphide|
|JRC344|7.0|33.0|26.0|1.62|0.43|0.08|0.12|0.10|0.02|Oxide|
|Incl|8.0|19.0|11.0|2.45|0.57|0.12|0.11|0.14|0.02|Oxide|
|and|25.0|30.0|5.0|1.95|0.60|0.09|0.17|0.12|0.01|Oxide|
|JRC344|33.0|41.0|8.0|0.45|0.22|0.05|0.10|0.03|0.01|Sulphide|
|JRC345|16.0|25.0|9.0|0.48|0.13|<0.01|0.06|0.08|0.01|Oxide|
|JRC345D|38.0|44.0|6.0|0.36|0.12|0.01|0.13|0.04|0.01|Oxide|
|JRC345D|105.0|114.0|9.0|0.42|0.09|<0.01|0.15|0.01|0.02|Sulphide|
|JRC345D|146.0|214.0|68.0|0.65|0.14|0.01|0.16|0.06|0.02|Sulphide|
|JRC345D|220.0|224.0|4.0|0.46|0.11|<0.01|0.13|0.02|0.01|Sulphide|
|JRC345D|230.0|244.0|14.0|0.44|0.09|0.01|0.12|0.04|0.01|Sulphide|
|JRC346|62.0|72.0|10.0|0.38|0.30|0.01|0.05|0.04|0.01|Sulphide|
|JRC346|79.0|99.0|20.0|0.41|0.10|0.01|0.11|0.06|0.01|Sulphide|
|JRC346|106.0|234.0|128.0|0.66|0.13|0.01|0.19|0.11|0.02|Sulphide|
|Incl|133.0|143.0|10.0|1.16|0.24|0.01|0.50|0.29|0.04|Sulphide|
|and|231.0|233.0|2.0|1.10|0.20|0.02|0.17|0.06|0.02|Sulphide|
|JRC347|6.0|28.0|22.0|0.66|0.10|0.02|0.08|0.02|0.01|Oxide|
|JRC348|5.0|25.0|20.0|0.56|0.11|0.02|0.04|0.09|<0.01|Oxide|
|Incl|17.0|19.0|2.0|1.23|0.21|0.01|0.03|0.16|0.01|Oxide|
|JRC348|45.0|63.0|18.0|0.67|0.53|0.11|0.07|0.04|0.01|Sulphide|
|Incl|50.0|53.0|3.0|1.26|1.14|0.14|0.09|0.03|0.01|Sulphide|
|and|57.0|60.0|3.0|1.50|0.72|0.39|0.11|0.09|0.01|Sulphide|
|JRC349|7.0|35.0|28.0|0.96|0.23|0.04|0.14|0.10|0.02|Oxide|
|Incl|9.0|17.0|8.0|2.14|0.40|0.09|0.13|0.20|0.03|Oxide|
|JRC349|35.0|71.0|36.0|0.72|0.13|0.04|0.14|0.06|0.01|Sulphide|
|Incl|57.0|59.0|2.0|3.54|0.38|0.08|0.14|0.06|0.01|Sulphide|
|and|69.0|71.0|2.0|2.29|0.28|0.24|0.09|0.06|0.01|Sulphide|
|JRC350|146.0|158.0|12.0|0.47|0.11|0.01|0.13|0.03|0.01|Sulphide|
|JRC350|168.0|308.0|140.0|0.58|0.12|<0.01|0.16|0.08|0.02|Sulphide|
|Incl|179.0|186.0|7.0|1.09|0.20|0.01|0.18|0.12|0.02|Sulphide|
|and|200.0|203.0|3.0|1.38|0.31|0.01|0.22|0.10|0.02|Sulphide|
|and|303.0|305.0|2.0|1.02|0.25|0.01|0.16|0.08|0.02|Sulphide|

----- End of picture text -----

31 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [483 x 696] intentionally omitted <==

----- Start of picture text -----

||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JRC351|7.0|34.0|27.0|1.16|0.22|0.06|0.21|0.13|0.03|Oxide|
|Incl|8.0|20.0|12.0|1.75|0.31|0.08|0.26|0.21|0.05|Oxide|
|JRC351|40.0|70.0|30.0|1.25|0.13|0.04|0.21|0.16|0.02|Sulphide|
|Incl|58.0|62.0|4.0|6.20|0.34|0.05|0.68|0.76|0.04|Sulphide|
|JRC351|88.0|96.0|8.0|2.70|0.28|0.37|0.10|0.05|0.01|Sulphide|
|Incl|88.0|92.0|4.0|4.98|0.46|0.64|0.13|0.02|0.01|Sulphide|
|JRC352|6.0|33.0|27.0|0.92|0.28|0.04|0.18|0.14|0.02|Oxide|
|Incl|9.0|17.0|8.0|1.52|0.49|0.03|0.22|0.17|0.04|Oxide|
|JRC352|33.0|45.0|12.0|0.92|0.21|0.04|0.19|0.13|0.02|Sulphide|
|JRC352|50.0|55.0|5.0|0.75|0.15|0.07|0.15|0.08|0.01|Sulphide|
|JRC353|7.0|24.0|17.0|0.50|0.08|0.03|0.18|0.06|0.03|Oxide|
|Incl|34.0|36.0|2.0|2.64|0.56|0.37|0.12|0.24|0.01|Sulphide|
|JRC353|41.0|46.0|5.0|0.85|0.13|0.13|0.12|0.05|0.01|Oxide|
|Incl|42.0|45.0|3.0|1.01|0.16|0.14|0.13|0.01|0.01|Sulphide|
|JRC353|46.0|74.0|28.0|0.88|0.18|0.01|0.21|0.03|0.02|Sulphide|
|Incl|49.0|59.0|10.0|1.70|0.34|0.02|0.34|0.05|0.03|Sulphide|
|JRC353|78.0|90.0|12.0|1.40|0.46|0.09|0.17|0.05|0.02|Sulphide|
|Incl|80.0|84.0|4.0|2.92|0.99|0.11|0.28|0.09|0.03|Sulphide|
|JRC354|7.0|32.0|25.0|1.73|0.29|0.07|0.14|0.10|0.02|Oxide|
|Incl|23.0|32.0|9.0|3.86|0.73|0.16|0.26|0.22|0.03|Oxide|
|JRC354|32.0|61.0|29.0|0.85|0.30|0.06|0.14|0.05|0.01|Sulphide|
|Incl|32.0|37.0|5.0|1.28|0.29|0.08|0.18|0.15|0.01|Sulphide|
|and|56.0|59.0|3.0|1.88|1.10|0.10|0.18|0.06|0.02|Sulphide|
|JRC355|169.0|173.0|4.0|0.49|0.11|<0.01|0.10|0.08|0.01|Sulphide|
|JRC356|7.0|30.0|23.0|2.09|0.37|0.15|0.27|0.17|0.04|Oxide|
|Incl|9.0|23.0|14.0|2.90|0.47|0.21|0.33|0.20|0.05|Oxide|
|and|28.0|30.0|2.0|2.15|0.48|0.07|0.26|0.07|0.02|Oxide|
|JRC356|44.0|48.0|4.0|1.59|0.50|0.05|0.20|0.10|0.02|Sulphide|
|Incl|45.0|48.0|3.0|2.03|0.64|0.04|0.25|0.12|0.02|Sulphide|
|JRC358|6.0|39.0|33.0|1.42|0.41|0.07|0.18|0.09|0.03|Oxide|
|Incl|6.0|18.0|12.0|2.69|0.77|0.13|0.24|0.20|0.04|Oxide|
|and|35.0|39.0|4.0|1.38|0.43|0.09|0.19|0.04|0.02|Oxide|
|JRC359|6.0|32.0|26.0|1.76|0.28|0.13|0.18|0.09|0.03|Oxide|
|Incl|7.0|31.0|24.0|1.86|0.30|0.14|0.18|0.09|0.03|Oxide|
|JRC360|181.0|188.0|7.0|0.38|0.41|0.01|0.05|0.02|0.01|Sulphide|
|JRC360|206.0|219.0|13.0|0.46|0.10|<0.01|0.11|0.06|0.01|Sulphide|
|JRC360|225.0|261.0|36.0|0.59|0.13|<0.01|0.14|0.07|0.02|Sulphide|
|Incl|240.0|242.0|2.0|1.05|0.20|0.01|0.18|0.09|0.02|Sulphide|

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32 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

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||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|Hole ID|From|To|Interval|Pd|Pt|Au|Ni|Cu|Co|Geology|
|(m)|(m)|(m)|(g/t)|(g/t)|(g/t)|(%)|(%)|(%)|
|JRC361|134.0|151.0|17.0|0.48|0.12|0.02|0.13|0.09|0.01|Sulphide|
|JRC362|6.0|19.0|13.0|0.53|0.05|0.07|0.06|0.06|0.01|Oxide|
|Incl|7.0|9.0|2.0|1.13|0.05|0.07|0.02|0.05|<0.01|Oxide|
|JRC363|89.0|96.0|7.0|0.85|0.44|0.04|0.10|0.12|0.01|Sulphide|
|Incl|93.0|96.0|3.0|1.33|0.48|0.06|0.15|0.24|0.01|Sulphide|
|JRC363|171.0|179.0|8.0|0.67|0.50|0.02|0.05|0.05|0.01|Sulphide|
|JRC364|7.0|21.0|14.0|0.71|0.09|0.04|0.06|0.07|<0.01|Oxide|
|Incl|16.0|18.0|2.0|1.11|0.17|0.02|0.08|0.10|0.01|Oxide|

----- End of picture text -----

Table 2. New drill hole survey data and assaying status.

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|||||||||||
|---|---|---|---|---|---|---|---|---|---|
|Hole ID|Type|Easting|Northing|RL|Depth|Survey|Azi|Dip|Assay status|
|(m)|(m)|(m)|(m)|type|(°)|(°)|
|JD089|Core|424969.2|6512477.5|238.2|363.8|GPS-RTK|90.6|-60.6|Reported|
|JD089W1|Core|424969.2|6512477.5|238.2|512.8|GPS-RTK|90.6|-60.6|Reported|
|JD090|Core|425018.4|6512279.0|235.1|414.6|GPS-RTK|89.3|-72.3|Reported|
|JD091|Core|425094.0|6512740.6|253.2|570.5|GPS-RTK|90.1|-60.1|Reported|
|JD092|Core|425246.4|6512144.2|231.7|264.6|GPS-RTK|269.2|-84.6|Reported|
|JD093|Core|425439.5|6512205.1|241.5|144.8|GPS-RTK|90.7|-59.8|Reported|
|JD094|Core|425394.0|6512103.2|237.3|129.5|GPS-RTK|91.7|-59.4|Reported|
|JD095|Core|425124.1|6511959.6|230.9|270.8|GPS-RTK|88.8|-62.4|Reported|
|JD096|Core|424893.0|6512478.6|240.8|579|GPS-RTK|89.4|-59.7|Reported|
|JD097|Core|425399.5|6512204.7|239.0|163.4|GPS-RTK|89.6|-60.3|Reported|
|JD098|Core|425342.0|6512101.4|234.9|158.4|GPS-RTK|92.8|-63.0|Reported|
|JD099|Core|425297.2|6512110.7|233.0|173.7|GPS-RTK|76.4|-60.2|Reported|
|JD100|Core|425448.4|6512999.4|258.2|375.8|GPS-RTK|88.0|-60.3|Reported|
|JD101|Core|425062.0|6512745.7|254.6|250|GPS-RTK|90.9|-59.9|Reported|
|JD102|Core|425359.1|6512203.1|237.2|165.5|GPS-RTK|90.2|-60.0|Reported|
|JD103|Core|425376.1|6512057.5|235.3|120.4|GPS-RTK|90.6|-59.8|Reported|
|JD104|Core|425334.1|6512058.5|233.4|135.4|GPS-RTK|90.0|-60.2|Reported|
|JD105|Core|425323.2|6512207.3|236.1|165.4|GPS-RTK|90.2|-59.3|Reported|
|JD106|Core|425293.2|6512064.8|231.3|135.4|GPS-RTK|89.6|-59.9|Reported|
|JD107|Core|424938.5|6512745.4|256.3|612.3|GPS-RTK|89.6|-60.3|Reported|
|JD108|Core|425250.1|6512196.6|233.4|210.6|GPS-RTK|89.2|-67.8|Reported|
|JD109|Core|425461.5|6513074.7|256.3|396.7|GPS-RTK|89.7|-62.8|Reported|
|JD110|Core|425435.1|6512067.6|240.0|192.6|GPS-RTK|89.6|-69.5|Reported|
|JD111|Core|425415.6|6512007.4|237.8|141.6|GPS-RTK|89.9|-59.8|Reported -|
|NSA|
|JD112|Core|425171.4|6512198.2|231.7|303.8|GPS-RTK|88.2|-69.6|Reported|
|JD113|Core|425380.0|6512010.0|235.5|255.5|GPS|90.5|-59.5|Reported|

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33 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [499 x 710] intentionally omitted <==

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|||||||||||
|---|---|---|---|---|---|---|---|---|---|
|Hole ID|Type|Easting|Northing|RL|Depth|Survey|Azi|Dip|Assay status|
|(m)|(m)|(m)|(m)|type|(°)|(°)|
|JD114|Core|425407.1|6512918.8|261.3|421.06|GPS-RTK|90.9|-60.1|Reported|
|JD115|Core|424808.1|6512601.2|249.2|657.47|GPS-RTK|90.3|-61.2|Reported|
|JD116|Core|424779.7|6512469.1|241.8|636.8|GPS-RTK|89.6|-60.7|Reported|
|JD117|Core|425416.5|6511953.7|236.1|130.8|GPS-RTK|97.6|-61.0|Reported -|
|NSA|
|JD118|Core|425356.1|6511958.8|231.3|243.4|GPS-RTK|92.8|-60.6|Reported -|
|NSA|
|JD119|Core|425352.6|6511922.8|229.1|246.5|GPS-RTK|90.3|-59.8|Reported -|
|NSA|
|JD120|Core|424889.9|6512551.2|244.4|582.5|GPS-RTK|88.6|-59.9|Reported|
|JD121|Core|424738.0|6512546.1|245.1|693.7|GPS-RTK|90.7|-64.7|Reported|
|JD122|Core|425325.4|6512012.8|231.2|168.6|GPS-RTK|87.6|-79.0|Reported|
|JD123|Core|425646.9|6512782.5|248.4|204.5|GPS-RTK|92.6|-59.5|Reported|
|JD124|Core|425639.5|6512817.3|248.5|234.4|GPS-RTK|87.8|-58.9|Reported|
|JD125|Core|425567.8|6512922.4|253.8|276.5|GPS-RTK|89.1|-59.3|Reported|
|JD126|Core|425612.9|6513010.7|251.3|249.4|GPS-RTK|87.3|-60.1|Reported|
|JD127|Core|424915.4|6512432.5|238.9|333.9|GPS-RTK|90.4|-62.0|Reported|
|JD128|Core|424819.0|6512387.1|237.6|570.7|GPS-RTK|88.7|-56.4|Reported|
|JD129|Core|425606.4|6512923.4|251.5|237.4|GPS-RTK|90.2|-59.6|Reported|
|JD130|Core|424853.7|6512432.6|239.5|339.4|GPS-RTK|89.5|-59.5|Reported|
|JD131|Core|425569.6|6513009.1|254.4|279.4|GPS-RTK|97.0|-59.9|Reported|
|JD132|Core|425589.4|6513083.9|252.9|234.4|GPS-RTK|93.1|-59.7|Reported|
|JRC036D|RC-|425370.5|6513521.7|252.8|405.8|GPS-RTK|92.0|-60.5|RC previously|
|Core|reported|
|JRC050D|RC-|425371.4|6513319.0|253.7|393.9|GPS-RTK|85.6|-61.1|RC previously|
|Core|reported|
|JRC061D|RC-|425400.131|6513225.5|254.9|401.4|GPS-RTK|88.1|-61.1|RC previously|
|Core|reported|
|JRC134D|RC-|425357.106|6512785.0|255.2|393.4|GPS-RTK|88.8|-60.1|RC previously|
|Core|reported|
|JRC139D|RC-|425409.856|6513320.0|251.0|357.9|GPS-RTK|89.6|-59.8|RC previously|
|Core|reported|
|JRC156D|RC-|425408.548|6513519.8|252.0|360.6|GPS-RTK|88.1|-60.0|RC previously|
|Core|reported|
|JRC162D|RC-|425558.800|6512865.5|252.0|294.8|GPS-RTK|93.7|-59.3|RC previously|
|Core|reported|
|JRC173D|RC-|425290.506|6513597.1|256.1|402.8|GPS-RTK|85.9|-59.0|RC previously|
|Core|reported|
|JRC177D|RC-|425256.946|6512646.2|246.2|402.8|GPS-RTK|87.2|-59.6|RC previously|
|Core|reported|
|JRC229D|RC-|425457.479|6512821.6|259.1|387.8|GPS-RTK|90.1|-61.5|RC previously|
|Core|reported|
|JRC237D|RC-|425340.7|6512821.6|256.7|427|GPS-RTK|90.3|-59.5|RC previously|
|Core|reported|

----- End of picture text -----

34 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [499 x 711] intentionally omitted <==

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|||||||||||
|---|---|---|---|---|---|---|---|---|---|
|Hole ID|Type|Easting|Northing|RL|Depth|Survey|Azi|Dip|Assay status|
|(m)|(m)|(m)|(m)|type|(°)|(°)|
|JRC293|RC|425486.3|6513439.6|248.3|273.0|GPS-RTK|91.6|-61.1|Reported|
|JRC294D|RC-|425345.9|6513236.4|257.3|445|GPS-RTK|89.1|-60.6|RC previously|
|Core|reported|
|JRC295|RC|425043.5|6513161.0|265.8|249|GPS-RTK|90.8|-60.4|Previously|
|reported|
|JRC296|RC|425306.0|6513235.4|258.7|252|GPS-RTK|91.1|-60.6|Previously|
|reported|
|JRC297|RC|425006.3|6513146.7|266.3|255|GPS-RTK|92.9|-60.3|Reported|
|JRC298|RC|425547.6|6513235.4|248.5|300|GPS-RTK|96.0|-61.1|Reported|
|JRC301|RC|425517.9|6513234.9|249.5|273|GPS-RTK|91.1|-62.3|Reported|
|JRC302|RC|425249.6|6513316.9|259.1|219|GPS-RTK|88.6|-59.8|Reported|
|JRC303|RC|425223.2|6513233.6|261.2|252|GPS-RTK|92.0|-60.9|Reported|
|JRC304|RC|425170.2|6513316.7|263.0|291|GPS-RTK|90.0|-59.9|Reported|
|JRC305|RC|425446.8|6513237.5|252.2|302|GPS-RTK|89.7|-57.6|Reported|
|JRC306|RC|425188.8|6513236.8|262.7|264|GPS-RTK|89.7|-60.9|Reported|
|JRC307|RC|425367.9|6513372.0|252.2|294|GPS-RTK|89.6|-60.5|Reported|
|JRC308|RC|425150.8|6513236.9|263.9|249|GPS-RTK|91.1|-59.7|Reported|
|JRC309|RC|425337.2|6512866.4|259.6|171|GPS-RTK|96.7|-65.0|Reported|
|JRC310|RC|425041.0|6513247.0|267.3|255|GPS-RTK|90.5|-63.4|Reported|
|JRC311|RC|425288.5|6513375.5|256.9|306|GPS-RTK|90.2|-59.2|Reported|
|JRC312|RC|425638.3|6512701.3|247.2|249|GPS-RTK|89.8|-59.8|Reported|
|JRC313|RC|425210.4|6513375.7|260.7|216|GPS-RTK|89.0|-60.6|Reported|
|JRC314|RC|425032.1|6512753.0|255.7|249|GPS-RTK|89.4|-59.7|Reported|
|JRC315|RC|425390.3|6512862.8|261.4|303|GPS-RTK|90.8|-59.4|Reported|
|JRC316|RC|425639.7|6512741.9|248.0|249|GPS-RTK|89.1|-59.8|Reported|
|JRC317|RC|425716.8|6512771.9|247.4|243|GPS-RTK|89.1|-59.8|Reported|
|JRC318|RC|425031.6|6512782.2|257.9|249|GPS-RTK|90.0|-59.1|Reported|
|JRC319|RC|425122.2|6513381.6|265.5|246|GPS-RTK|91.4|-59.0|Reported|
|JRC320|RC|425716.1|6512813.7|246.9|249|GPS-RTK|89.9|-60.1|Reported|
|JRC321|RC|425044.5|6513378.7|269.3|180|GPS-RTK|90.4|-60.9|Reported|
|JRC322|RC|424985.9|6513375.6|270.1|234|GPS-RTK|90.2|-60.4|Reported|
|JRC323|RC|425796.1|6512780.1|246.6|249|GPS-RTK|90.3|-59.8|Reported|
|JRC324|RC|424951.6|6513242.6|266.6|222|GPS-RTK|94.0|-61.1|Reported|
|JRC325|RC|425797.5|6512820.0|246.2|249|GPS-RTK|88.9|-61.0|Reported|
|JRC326|RC|425047.5|6512865.1|262.5|297|GPS-RTK|91.6|-64.7|Reported|
|JRC327|RC|424891.1|6513517.6|270.2|241|GPS-RTK|91.8|-61.1|Reported|
|JRC328|RC|425642.5|6513152.1|248.1|180|GPS-RTK|88.9|-59.8|Reported|
|JRC329|RC|425755.5|6512854.0|245.6|213|GPS-RTK|90.0|-61.0|Reported|
|JRC330|RC|425492.2|6512996.6|255.8|321|GPS-RTK|90.4|-60.8|Reported|
|JRC331|RC|425713.1|6512736.9|247.4|135|GPS-RTK|90.8|-59.5|Reported|

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35 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

==> picture [499 x 705] intentionally omitted <==

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|||||||||||
|---|---|---|---|---|---|---|---|---|---|
|Hole ID|Type|Easting|Northing|RL|Depth|Survey|Azi|Dip|Assay status|
|(m)|(m)|(m)|(m)|type|(°)|(°)|
|JRC332|RC|425682.3|6513152.9|247.3|180|GPS-RTK|89.4|-60.6|Reported|
|JRC333|RC|425569.4|6513600.4|250.1|249|GPS-RTK|91.1|-60.9|Reported -|
|NSA|
|JRC334|RC|425722.2|6513158.6|247.8|126|GPS-RTK|93.7|-59.0|Reported -|
|NSA|
|JRC335|RC|425852.7|6512999.4|243.6|177|GPS-RTK|90.6|-65.1|Reported -|
|NSA|
|JRC336|RC|425853.8|6512918.6|243.9|123|GPS-RTK|89.7|-64.9|Reported -|
|NSA|
|JRC337|RC|425855.5|6512861.4|244.8|123|GPS-RTK|87.0|-66.6|Reported –|
|No significant|
|Pd assay|
|JRC338|RC|425847.0|6512814.4|245.8|123|GPS-RTK|89.1|-59.8|Reported -|
|NSA|
|JRC339|RC|425769.8|6513159.4|247.8|120|GPS-RTK|88.2|-61.2|Reported -|
|NSA|
|JRC340|RC|425492.1|6513597.5|251.3|164|GPS-RTK|92.4|-60.5|Reported|
|JRC341|RC|425677.3|6512738.9|247.8|153|GPS-RTK|91.6|-60.0|Reported|
|JRC342|RC|425856.5|6513069.6|242.9|120|GPS-RTK|89.9|-65.7|Reported -|
|NSA|
|JRC343D|RC-|425409.2|6513595.4|253.2|336.8|GPS-RTK|92.5|-60.9|Reported|
|Core|
|JRC344|RC|425758.5|6512734.3|247.0|123|GPS-RTK|90.8|-59.8|Reported|
|JRC345D|RC-|425407.8|6512998.2|260.2|390.7|GPS-RTK|88.8|-60.4|Reported|
|Core|
|JRC346|RC|425331.1|6513597.7|255.0|370|GPS-RTK|92.5|-60.9|Reported|
|JRC347|RC|425714.9|6512696.3|247.0|123|GPS-RTK|90.1|-61.0|Reported|
|JRC348|RC|425677.5|6512700.2|247.0|135|GPS-RTK|91.4|-60.3|Reported|
|JRC349|RC|425639.1|6512650.4|244.8|130|GPS-RTK|90.3|-59.7|Reported|
|JRC350|RC|425249.1|6513595.4|257.3|321|GPS-RTK|91.8|-60.4|Reported|
|JRC351|RC|425638.2|6512596.7|242.4|240|GPS-RTK|86.8|-59.9|Reported|
|JRC352|RC|425756.0|6512816.4|246.4|138|GPS-RTK|91.9|-59.8|Reported|
|JRC353|RC|425638.1|6512560.4|241.2|123|GPS-RTK|91.0|-60.1|Reported|
|JRC354|RC|425758.3|6512776.5|246.8|138|GPS-RTK|88.1|-60.4|Reported|
|JRC355|RC|425207.6|6513595.3|258.1|183|GPS-RTK|90.4|-60.4|Reported|
|JRC356|RC|425679.3|6512561.6|241.6|122|GPS-RTK|92.3|-60.6|Reported|
|JRC357|RC|425830.5|6512783.8|246.5|138|GPS-RTK|90.0|-60.2|Reported -|
|NSA|
|JRC358|RC|425679.3|6512598.0|242.6|120|GPS-RTK|88.7|-60.2|Reported|
|JRC359|RC|425676.9|6512652.2|245.0|126|GPS-RTK|90.8|-60.6|Reported|
|JRC360|RC|425169.8|6513594.5|259.0|261|GPS-RTK|91.7|-61.4|Reported|
|JRC361|RC|425288.0|6513438.1|256.0|207|GPS-RTK|91.2|-60.1|Reported|
|JRC362|RC|425716.9|6512598.4|243.2|120|GPS-RTK|88.6|-59.5|Reported|

----- End of picture text -----

36 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

Hole ID	Type	Easting	Northing	RL	Depth	Survey	Azi	Dip	Assay status
		(m)	(m)	(m)	(m)	type	(°)	(°)
JRC363	RC	424988.4	6513241.9	267.5	192	GPS-RTK	90.0	-60.3	Reported
JRC364	RC	425718.3	6512559.3	242.2	120	GPS-RTK	91.1	-60.7	Reported
JRC365	RC	425087.6	6513599.6	262.1	267	GPS-RTK	91.7	-61.4	Reported -
									NSA

NSA = No significant assay

37 Chalice Mining Limited

ASX:CHN OTCQB:CGMLF

Metallurgical sample data

Appendix B

Table 3. Locked Cycle Test composite sample details.

Composite	Zone	Holes selected	Mineralisation	Head assay	Flotation
ID			style	grades	testwork
JSG1	G1-G2 Fresh	JD001, JD003,	Massive-Matrix-	3.66g/t Pd,	Sequential
	(Sulphide)	JD005 – JD010	Heavily	0.73g/t Pt, 0.15g/t	Float
			Disseminated	Au, 0.63% Ni,
				0.36% Cu, 0.04%
				Co
JSG3	G3 Fresh	JD006	Massive-Matrix-	5.84g/t Pd,	Sequential
	(Sulphide)		Heavily	1.10g/t Pt, 0.07/t	Float
			Disseminated	Au, 0.90% Ni,
				0.82% Cu, 0.07%
				Co
JSG5	G1, G5 Fresh	JD005, JD009	Massive-Matrix-	2.15g/t Pd,	Sequential
	(Sulphide)		Heavily	0.78g/t Pt,	Float
			Disseminated	<0.05g/t Au,
				0.19% Ni, 0.17%
				Cu, 0.02% Co
JSG6	G3, G5 Fresh	JD005, JD006,	Massive-Matrix-	1.27g/t Pd,	Sequential
	(Sulphide)	JD009	Heavily	0.30g/t Pt, 0.06g/t	Float and Bulk
			Disseminated	Au, 0.15% Ni,	Float
				0.09% Cu, 0.02%
				Co
JSDS4	Disseminated	JD013, JD023,	Disseminated	1.22g/t Pd,	Sequential
	Sulphides	JD022, JD063,		0.26g/t Pt, 0.07g/t	Float
		JD015, JD020		Au, 0.22% Ni,
				0.21% Cu, 0.02%
				Co
JSMC1	G1-G2 Fresh	Produced from	Massive-Matrix-	3.86g/t Pd,	Sequential
	(Sulphide)	above variability	Heavily	0.50g/t Pt, 0.13g/t	Float
		composites	Disseminated	Au, 0.59% Ni,
				0.33% Cu, 0.04%
				Co
JSMC2	80% G1-2, 20%	Produced from	Massive-Matrix-	4.25g/t Pd,	Sequential
	G3	above variability	Heavily	0.75g/t Pt, 0.08g/t	Float
		composites	Disseminated	Au, 0.63% Ni,
				0.39% Cu, 0.04%
				Co
JSMC3	40% G1-2, 30%	Produced from	Massive-Matrix-	3.31g/t Pd,	Sequential
	G3, 30% G5	above variability	Heavily	0.66g/t Pt, 0.08g/t	Float
		composites	Disseminated	Au, 0.47% Ni,
				0.33% Cu, 0.03%
				Co

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Appendix C JORC Table 1

C-1 Section 1 Sampling Techniques and Data

Criteria	JORC Code explanation	JORC Code explanation	Commentary	Commentary
Sampling •		Nature and quality of sampling (eg. cut	•	Diamond drill core samples were taken
techniques		channels, random chips, or specific		over selective intervals ranging from
		specialised industry standard		0.2m to 1.2m (typically 1.0m).
		measurement tools appropriate to the		Qualitative care taken when sampling
		minerals under investigation, such as		diamond drill core to sample the same
		down hole gamma sondes, or handheld		half of the drill core.
		XRF instruments, etc). These examples should not be taken as limiting the broad meaning of sampling.	•	Reverse Circulation (RC) drilling samples were collected as 1m samples. Two 1m assay samples were collected
•		Include reference to measures taken to		as a split from the rig cyclone using a
		ensure sample representivity and the		cone splitter and are typically 3kg in
		appropriate calibration of any		weight.
		measurement tools or systems used.
•		Aspects of the determination of
		mineralisation that are Material to the
		Public Report.
•		In cases where ‘industry standard’ work
		has been done this would be relatively
		simple (eg. ‘reverse circulation drilling was
		used to obtain 1 m samples from which 3
		kg was pulverised to produce a 30 g
		charge for fire assay’). In other cases more
		explanation may be required, such as
		where there is coarse gold that has
		inherent sampling problems. Unusual
		commodities or mineralisation types (eg.
		submarine nodules) may warrant
		disclosure of detailed information.
Drilling	•	Drill type (eg. core, reverse circulation,	•	Drilling has been undertaken by
techniques		open-hole hammer, rotary air blast, auger,		diamond and Reverse Circulation (RC)
		Bangka, sonic, etc) and details (eg. core		techniques.
		diameter, triple or standard tube, depth of diamond tails, face-sampling bit or other type, whether core is oriented and if so, by what method, etc).	•	Diamond drill core is predominantly HQ size (63.5mm diameter). Limited NQ (47.6mm diameter) drilling has also been completed. Triple tube has been
				used from surface until competent
				bedrock and then standard tube
				thereafter.
			•	Core orientation is by an ACT Reflex
				(ACT II RD) tool
			•	RC Drilling uses a face-sampling
				hammer drill bit with a diameter of 5.5
				inches (140mm).
Drill sample	•	Method of recording and assessing core	•	Individual recoveries of diamond drill
recovery		and chip sample recoveries and results		core samples were recorded on a
		assessed.		qualitative basis. Generally sample
	•	Measures taken to maximise sample recovery and ensure representative nature		weights are comparable, and any bias is considered negligible.
		of the samples.	•	Individual recoveries for RC composite
	•	Whether a relationship exists between sample recovery and grade and whether sample bias may have occurred due to		samples were recorded on a qualitative basis. Sample weights were slightly lower through transported cover whereas drillingthroughbedrock

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Criteria	JORC Code explanation	JORC Code explanation	Commentary	Commentary
		preferential loss/gain of fine/coarse		yielded samples with more consistent
		material.		weights.
			•	No relationships have been evident
				between diamond core or RC sample
				grade and recoveries.
Logging	•	Whether core and chip samples have	•	All drill holes were logged geologically
		been geologically and geotechnically		including, but not limited to;
		logged to a level of detail to support		weathering, regolith, lithology,
		appropriate Mineral Resource estimation,		structure, texture, alteration and
		mining studies and metallurgical studies.		mineralisation. Logging was at an
	•	Whether logging is qualitative or quantitative in nature. Core (or costean,		appropriate quantitative standard for infill drilling and resource estimation.
		channel, etc) photography.	•	Logging is considered qualitative in
	•	The total length and percentage of the		nature.
		relevant intersections logged.	•	All holes were geologically logged in
				full.
			•	Diamond drill core is photographed
				wet before cutting.
Sub-sampling	•	If core, whether cut or sawn and whether	•	Diamond core was sawn in half and
techniques		quarter, half or all core taken.		one-half quartered and sampled over
and sample preparation	•	If non-core, whether riffled, tube sampled, rotary split, etc and whether sampled wet	•	0.2-1.2m intervals (mostly 1m). Diamond drill core field duplicates
		or dry.		collected as ¼ core.
	•	For all sample types, the nature, quality	•	RC assay samples were collected as
		and appropriateness of the sample		two 1m splits from the rig cyclone via a
		preparation technique.		cone splitter. The cone splitter was
	• •	Quality control procedures adopted for all sub-sampling stages to maximise representivity of samples. Measures taken to ensure that the		horizontal to ensure sample representivity. Wet or damp samples were noted in the sample logging sheet. A majority of samples were dry.
		sampling is representative of the in-situ material collected, including for instance results for field duplicate/second-half sampling.	•	Sample preparation is industry standard and comprises oven drying, jaw crushing and pulverising to -75 microns (80% pass).
	•	Whether sample sizes are appropriate to the grain size of the material being sampled.	•	Field duplicates were collected from selected sulphide zones as a second 1m split directly from the cone splitter.
			•	Drill sample sizes are considered
				appropriate for the style of
				mineralisation sought and the nature of
				the drilling program.
			•	Metallurgical samples for sulphide
				testwork were sampled as ½ core
				samples and composited to produce
				composite samples considered to be
				representative of the various mineralised
				zones.
			•	Metallurgical samples for oxide testwork
				were sampled as a 1m split from the rig
				cyclone via a cone splitter and
				composited to produce composite
				samples considered to be representative
				of the oxide mineralised zone.
			•	Sulphide flotation testwork was
				completed on the sulphide
				metallurgical samples and leach
				testwork was completed on the oxide
				metallurgical samples

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Criteria	JORC Code explanation	JORC Code explanation	Commentary	Commentary
Quality of	•	The nature, quality and appropriateness of	•	Diamond drill core and RC samples
assay data		the assaying and laboratory procedures		underwent sample preparation and
and		used and whether the technique is		geochemical analysis by ALS Perth. Au-
laboratory		considered partial or total.		Pt-Pd was analysed by 50g fire assay
tests	•	For geophysical tools, spectrometers, handheld XRF instruments, etc, the		fusion with an ICP-AES finish (ALS Method code PGM-ICP24). A 48-
	•	parameters used in determining the analysis including instrument make and model, reading times, calibrations factors applied and their derivation, etc. Nature of quality control procedures adopted (eg. standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (ie. lack of bias) and precision have been established.		element suite was analysed by ICP-MS following a four-acid digest (ALS method code ME-MS61) for holes up to and including JD023 and JRC122. Later holes were analysed using four-acid digest for 34 elements (ALS method code ME-ICP61) including Ag, Al, As, Ba, Be, Bi, Ca, Cd, Co, Cr, Cu, Fe, Ga, K, La, Mg, Mn, Mo, Na, Ni, P, Pb, S, Sb, Sc, Sr, Th, Ti, Tl, U, V, W, Zn, Zr. Additional ore-grade analysis was performed as
				required for elements reporting out of
				range for Ni, Cr, Cu (ALS method code
				ME-OG-62) and Pd, Pt (ALS method
				code PGM-ICP27).
			•	Certified analytical standards and
				blanks were inserted at appropriate
				intervals for diamond, RC drill samples
				and auger soil samples. Approximately
				5% of significant intercepts were sent for
				cross laboratory checks. All QAQC
				samples display results within
				acceptable levels of accuracy
			•	Approximately 5% of samples submitted
				for analysis comprised QAQC control
				samples.
Verification of	•	The verification of significant intersections	•	Significant drill intersections are
sampling and		by either independent or alternative		checked by the Project Geologist and
assaying		company personnel.		then by the General Manager
	•	The use of twinned holes.		Development. Significant intersections
	• •	Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols. Discuss any adjustment to assay data.	•	are cross-checked with the logged geology and drill core after final assays are received. Three RC holes have been twinned with a diamond hole to provide a comparison between grade/thickness
				variations over a 5m separation
				between drill holes.
			•	Primary drill data was collected digitally
				using OCRIS software before being
				transferred to the master SQL
				database.
			•	No adjustments were made to the
				assay data
			•	Metallurgical results have been
				reviewed and checked by the
				supervising metallurgist
Location of	•	Accuracy and quality of surveys used to	•	Diamond and RC drill hole collar
data points		locate drill holes (collar and down-hole		locations are initially recorded by
		surveys), trenches, mine workings and		Chalice employees using a handheld
		other locations used in Mineral Resource		GPS with a +/- 3m margin of error.
		estimation.
	•	Specification of the grid system used.

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||||||
|---|---|---|---|---|
|Criteria|JORC Code explanation|Commentary|
|•|Quality and adequacy of topographic|•|RTK-DGPS collar pick-ups replace|
|control.|handheld GPS collar pick-ups and have|
|+/-20 mm margin of error.|
|•|The grid system used for the location of|
|all drill holes is GDA94 - MGA (Zone 50).|
|•|RLs for reported holes were derived|
|from RTK-DGPS pick-ups.|
|Data spacing|•|Data spacing for reporting of Exploration|•|Drill hole spacing varies from between|
|and|Results.|40m x 40 m in the south to 180m x 80m|
|distribution|•|Whether the data spacing and distribution|in the north.|
|is sufficient to establish the degree of|•|No Mineral Resources or Mineral|
|geological and grade continuity|Reserves have been reported.|
|appropriate for the Mineral Resource and|•|No compositing undertaken for|
|Ore Reserve estimation procedure(s) and|diamond drill core or RC samples.|
|classifications applied.|
|•|Whether sample compositing has been|
|applied.|
|Orientation of|•|Whether the orientation of sampling|•|RC and Diamond drill holes were|
|data in|achieves unbiased sampling of possible|typically oriented within 15° of|
|relation to|structures and the extent to which this is|orthogonal to the interpreted dip and|
|geological|known, considering the deposit type.|strike of the known zone of|
|structure|•|If the relationship between the drilling|mineralisation. However, several holes|
|orientation and the orientation of key|were drilled at less optimal azimuths|
|mineralised structures is considered to|due to site access constraints or to test|
|have introduced a sampling bias, this|for alternative mineralisation|
|should be assessed and reported if|orientations.|
|material.|•|The orientation of the drilling is not|
|considered to have introduced|
|sampling bias|
|Sample|•|The measures taken to ensure sample|•|Samples are collected in polyweave|
|security|security.|bags and delivered directly from site to|
|ALS laboratories in Wangara, Perth by a|
|Chalice contractor|
|•|Samples selected for metallurgical|
|testwork were sampled and if|
|necessary, then refrigerated until being|
|shipped to the metallurgical laboratory|
|to minimise oxidation|
|Audits or|•|The results of any audits or reviews of|•|No review has been carried out to|
|reviews|sampling techniques and data.|date.|

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C-2 Section 2 Reporting of Exploration Results

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||||||
|---|---|---|---|---|
|Criteria|JORC Code explanation|Commentary|
|Mineral|•|Type, reference name/number, location|•|Exploration activities are ongoing over|
|tenement and|and ownership including agreements or|E70/5118 and 5119 and the tenements|
|land tenure|material issues with third parties such as|are in good standing. The holder CGM|
|status|joint ventures, partnerships, overriding|(WA) Pty Ltd is a wholly owned|
|royalties, native title interests, historical|subsidiary of Chalice Mining Limited|
|sites, wilderness or national park and|with no known encumbrances|
|environmental settings.|•|Current drilling is on private land|
|•|The security of the tenure held at the|•|E70/5119 partially overlaps ML1SA, a|
|time of reporting along with any known|
|State Agreement covering Bauxite|
|impediments to obtaining a licence to|
|mineral rights only|
|operate in the area.|

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Criteria	JORC Code explanation	JORC Code explanation	Commentary	Commentary
Exploration	•	Acknowledgment and appraisal of	•	Limited exploration has been
done by other		exploration by other parties.		completed by other exploration parties
parties				in the vicinity of the targets identified by
				Chalice to date.
			•	Chalice has compiled historical records
				dating back to the early 1960’s which
				indicate only three genuine explorers in
				the area, all primarily targeting Fe-Ti-V
				mineralisation.
			•	Over 1971-1972, Garrick Agnew Pty Ltd
				undertook reconnaissance surface
				sampling over prominent
				aeromagnetic anomalies in a search
				for ‘Coates deposit style’ vanadium
				mineralisation. Surface sampling
				methodology is not described in detail,
				nor were analytical methods specified,
				with samples analysed for V2O5, Ni, Cu,
				Cr, Pb and Zn, results of which are
				referred to in this announcement.
			•	Three diamond holes were completed
				by Bestbet Pty Ltd targeting Fe-Ti-V
				situated approximately 3km NE of
				JRC001. No elevated Ni-Cu-PGE assays
				were reported.
			•	Bestbet Pty Ltd undertook 27 stream
				sediment samples within E70/5119.
				Elevated levels of palladium were
				noted in the coarse fraction (-
				5mm+2mm) are reported in this release.
				Finer fraction samples did not replicate
				the coarse fraction results.
			•	A local AMAG survey was flown in 1996
				by Alcoa using 200m line spacing which
				has been used by Chalice for targeting
				purposes.
Geology	•	Deposit type, geological setting and	•	The target deposit type is a magmatic
		style of mineralisation.		Ni-Cu-PGE sulphide deposit, within the
				Yilgarn Craton. The style of sulphide
				mineralisation intersected consists of
				massive, matrix, stringer and
				disseminated sulphides typical of
				metamorphosed and structurally
				overprinted magmatic Ni sulphide
				deposits.
Drill hole	•	A summary of all information material to	•	Provided in body of text
Information		the understanding of the exploration
		results including a tabulation of the
		following information for all Material drill
		holes:
	•	easting and northing of the drill hole
		collar
	•	elevation or RL (Reduced Level –
		elevation above sea level in metres) of
		the drill hole collar
	• •	dip and azimuth of the hole down hole length and interception depth

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Criteria	JORC Code explanation	JORC Code explanation	Commentary	Commentary
	•	hole length.
	•	If the exclusion of this information is	•	No material information has been
		justified on the basis that the information		excluded.
		is not Material and this exclusion does
		not detract from the understanding of
		the report, the Competent Person should
		clearly explain why this is the case.
Data	•	In reporting Exploration Results,	•	Significant intercepts are reported using
aggregation		weighting averaging techniques,		a >0.3g/t Pd length-weighted cut off. A
methods		maximum and/or minimum grade		maximum of 4m internal dilution has
		truncations (eg. cutting of high grades)		been applied.
		and cut-off grades are usually Material and should be stated.	•	Higher grade intervals are reported using a >1.0g/t Pd and >1.0g/t Pd &
	•	Where aggregate intercepts incorporate		>0.5% Ni+Cu length-weighted cut off. A
		short lengths of high-grade results and		maximum of 2m internal dilution has
		longer lengths of low grade results, the		been applied.
		procedure used for such aggregation should be stated and some typical examples of such aggregations should	•	Metal equivalent values are not reported.
		be shown in detail.
	•	The assumptions used for any reporting
		of metal equivalent values should be
		clearly stated.
Relationship	•	These relationships are particularly	•	All widths are quoted down-hole.
between		important in the reporting of Exploration	•	All drill holes were orientated to be as
mineralisation widths and intercept lengths	•	Results. If the geometry of the mineralisation with respect to the drill hole angle is known, its nature should be reported.	•	close as possible to orthogonal to the interpreted strike and/or dip of the mineralised zone(s) and/or targets. Assays for the composite metallurgical
	•	If it is not known and only the down hole		samples are the head assay taken from
		lengths are reported, there should be a		the composite sample.
		clear statement to this effect (eg. ‘down
		hole length, true width not known’).
Diagrams	•	Appropriate maps and sections (with	•	Refer to figures in the body of text.
		scales) and tabulations of intercepts
		should be included for any significant
		discovery being reported These should
		include, but not be limited to a plan
		view of drill hole collar locations and
		appropriate sectional views.
Balanced	•	Where comprehensive reporting of all	•	All holes including those without
reporting		Exploration Results is not practicable,		significant intercepts have been
		representative reporting of both low and		reported.
		high grades and/or widths should be practiced to avoid misleading reporting of Exploration Results.	•	Metallurgical testwork results to date are summarised within the body of the text. Testwork and flowsheet
				development / optimisation is
				expected to continue throughout the
				study phase of the project.
Other	•	Other exploration data, if meaningful	•	Not applicable
substantive		and material, should be reported
exploration		including (but not limited to): geological
data		observations; geophysical survey results;
		geochemical survey results; bulk samples
		– size and method of treatment; metallurgical test results; bulk density, groundwater, geotechnicalandrock

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Criteria	JORC Code explanation	JORC Code explanation	Commentary	Commentary
		characteristics; potential deleterious or
		contaminating substances.
Further work	•	The nature and scale of planned further	•	Diamond and RC drilling will continue
		work (eg. tests for lateral extensions or		to test high-priority targets including EM
		depth extensions or large-scale step-out		conductors. Further drilling along strike
		drilling).		and down dip may occur at these and
	•	Diagrams clearly highlighting the areas		other targets depending on results.
		of possible extensions, including the	•	Down-hole EM surveying will be carried
		main geological interpretations and		out on selective drill holes to test for off-
		future drilling areas, provided this		hole conductors. Subsequent holes will
		information is not commercially sensitive.		undergo down-hole EM if required.
			•	Any potential extensions to
				mineralisation are shown in the figures
				in the body of the text.
			•	Further metallurgical testwork is in
				progress.

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