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Benz Mining Corp.
Symbol BZ
Shares Issued 290,883,109
Close 2026-01-27 C$ 2.16
Market Cap C$ 628,307,515
Recent Sedar+ Documents

ORIGINAL: Benz Announces that Icon Delivers Shallow High-Grade Discovery as Large-Scale System Continues to Grow

2026-01-27 22:08 ET - News Release

HIGHLIGHTS:

  • Ultra high-grade shallow lens emerging at Icon through infill drilling:

    • 13m at 29.0 g/t gold from 60m25GLR232

    • 9m at 28.0g/t gold from 84m25GLR190

    • 17m at 11.0g/t gold from 55m25GLR237

  • Icon drilling continues to demonstrate large-scale bulk mineralisation:

    • 200m at 1.0/t gold from 76m25GLR062 (remaining assays now received)

    • 71m at 0.8g/t gold from 202m25GLR050

    • 60m at 1.0g/t gold from 240m25GLR054

    • 53m at 1.0g/t gold from 424m25GLR091

  • Tuxedo drilling: significant broad step out drilling extends mineralisation 200m+ at depth beneath historical shallow drilling:

    • 28m at 2.5g/t gold from 406m 25GLR115 (> 200m down-dip extension at depth)

    • 35m at 1.0g/t gold from 296m25GLR133

  • Icon trend potential: with more than 3 km of strike identified and only ~30% tested to date, 2026 Q1 drilling will systematically step out along the Icon trend, targeting the definition of a single, large-scale open-pit system

Vancouver, British Columbia--(Newsfile Corp. - January 27, 2026) - Benz Mining Corp (TSXV: BZ) (ASX: BNZ) ("Benz" or the "Company") is pleased to report results from the Icon trend within the Glenburgh Gold Project in Western Australia.

Cannot view this image? Visit: https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_002.jpg

Figure 1. Icon - Tuxedo cross section looking east. The section is displayed using a ±150 m clipping window to appropriately represent the folded and plunging geometry of the mineralised system. Previous results released on 6 November 2024, 4 August 2025 and 20 August 2025. Current release in black highlight. 

To view an enhanced version of this graphic, please visit:
https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_002full.jpg

Benz CEO, Mark Lynch-Staunton, commented:

"Results from the latest drilling at Icon and Tuxedo continue to reinforce our view that this is a large, coherent mineralised system with genuine scale.

"At Tuxedo, our first pass step-out drilling has successfully extended mineralisation by more than 200 metres down-dip. This broad-spaced drilling was designed to test the limits of the system, and the results clearly demonstrate that mineralisation continues well beyond historical drilling. With this extension now defined, we are well positioned to move into more focused infill drilling to further build continuity and confidence.

"At Icon, infill drilling is delivering exactly what we want to see - improved continuity, increasing confidence in the system, and the emergence of high-grade zones within a broad mineralised envelope. These results continue to demonstrate the quality and robustness of the mineralisation.

"When considered together, Icon and Tuxedo sit within the same mineralised footprint and are increasingly shaping up as a single, large open-pit style system. The combined corridor now extends up to 400 metres wide, underlining the scale of the opportunity we are developing.

"With more than 3 kilometres of strike already defined and less than 30% tested to date, we are still in the early stages of unlocking the full potential of this system. Upcoming drilling will focus on expanding the footprint along strike and at depth, while continuing to infill and upgrade the higher-grade zones.

"Glenburgh is rapidly emerging as a genuinely large gold system, and each round of drilling continues to build scale, confidence and long-term value for shareholders."

Cannot view this image? Visit: https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_003.jpg

Figure 2. Icon trend plan map with reported collar locations.

To view an enhanced version of this graphic, please visit:
https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_003full.jpg

Icon-Tuxedo: A Growing Mineralised System

Recent drilling at the Icon Camp continues to demonstrate the scale and continuity of mineralisation, reinforcing its potential to host a large, long-life open pit gold operation.

At Icon, broad zones of moderate-grade mineralisation have now been confirmed over significant strike and thickness, highlighted by a 200m intersection at 1 g/t Au, providing further evidence of a bulk-tonnage mineralised system. This standout intercept complements previously released intercepts:

  • 134m at 1g/t gold from 66m including 44m at 2.2g/t gold (25GLR060)

  • 117m at 0.7g/t gold from 107m including 38m at 1.1g/t gold (25GLR064)

  • 142m at 0.95g/t gold from 227m within a broader 229m at 0.7g/t gold (25GLR048)

  • 102m at 1.0g/t gold from 96m (25GLR058)

Tuxedo

At Tuxedo first pass step-out drilling has successfully extended mineralisation more than 200 metres down-dip, well beyond the limits of historical drilling, which had only tested to approximately 100 metres depth. Intersections of 28m at 2.52 g/t Au, 35m at 1.0 g/t Au, and 21m at 1.34 g/t Au demonstrate that mineralisation remains strong and continuous at depth.

Together, Icon and Tuxedo now form a mineralised corridor exceeding 400 metres in width, surrounded by a broad halo of lower-grade mineralisation.

High-Grade Zones Emerge with Infill Drilling

A representative 100 m × 100 m area of the Icon system was selected for close-spaced infill drilling to enhance geological understanding and support orebody characterisation. The closer-spaced drilling has revealed a significant high-grade component that was not apparent in the previous 40-80m spaced drill pattern (Figure 3).

The new closer spaced drilling shows that:

  • High-grade mineralisation occurs as curved, folded lenses, rather than simple planar zones.

  • These lenses were masked by wide drill spacing, and the potential to find more through infill drilling is high.

  • Mineralisation geometry reflects the high-grade metamorphic environment at Glenburgh, where gold continuity is rarely linear.

Recent results include:

  • 13m at 29.0 g/t gold from 60m (25GLR232)

  • 9m at 28.0g/t gold from 84m (25GLR190)

  • 17m at 11.0g/t gold from 55m (25GLR237)

These intersections define an ~100 m long high-grade lens within the broader Icon system, which remains open at depth and along strike.

The infill drilling has confirmed improved continuity of higher-grade mineralisation, which is considered positive for future resource refinement, subject to further drilling and formal estimation.

Cannot view this image? Visit: https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_004.jpg

Figure 3. Long section looking northwest, with a +/- 10m clipping window, highlighting close spaced infill drilling test area. The closer-spaced drilling has revealed a significant high-grade component that was not apparent in the historical broader spaced drill pattern (black dots). 

To view an enhanced version of this graphic, please visit:
https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_004full.jpg

District-Scale Upside - The Icon Trend

The Company is now preparing to systematically test the full >3 km long Icon trend, throughout 2026 with drilling planned to depths of 300-500 metres (Figure 4).

This work will:

  • Step out along strike from current drilling

  • Test down-dip continuity beneath existing mineralisation

  • Assess the scale of the broader mineralised system

  • Evaluate the potential for a single large-scale open pit development

With multiple stacked mineralised zones, strong continuity, and emerging high-grade domains, Benz believes the Icon trend has the potential to evolve into a large, long-life gold system.

Cannot view this image? Visit: https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_005.jpg

Figure 4. Icon trend long section with all historical and current drilling to date. Drill target area in light blue hash box. Systematically testing the full strike and depth potential of the icon trend.

To view an enhanced version of this graphic, please visit:
https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_005full.jpg

Glenburgh - A New Frontier Gold District

The 100%-owned Glenburgh Gold Project is rapidly emerging as a new frontier gold district with multi-million-ounce potential. Located in Western Australia's Gascoyne region, Glenburgh hosts an 18-20 kilometre mineralised corridor anchored by the large-scale Icon-Apollo trend and the high-grade Zone 126 system.

Glenburgh's unique combination of thick, bulk-style gold mineralisation (Icon-Apollo) and multiple high-grade underground lenses (Zone 126) positions it as a rare opportunity in the Australian gold sector. With gold prices at record levels, the ability to develop both large-scale open pit and underground operations offers exceptional leverage and growth potential.

Cannot view this image? Visit: https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_006.jpg

Figure 5. Geological overview of the Glenburgh Gold Project.

To view an enhanced version of this graphic, please visit:
https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_006full.jpg

- END -

This announcement has been approved for release by the Board of Benz Mining Corp.

For more information please contact:

Mark Lynch-Staunton
Chief Executive Officer Benz Mining Corp.
E: mstaunton@benzmining.com
T: +61 8 6143 6702

About Benz Mining Corp.

Benz Mining Corp. (TSXV: BZ) (ASX: BNZ) is a pure-play gold exploration company dual-listed on the TSX Venture Exchange and Australian Securities Exchange. The Company owns the Eastmain Gold Project in Quebec, and the recently acquired Glenburgh and Mt Egerton Gold Projects in Western Australia.

Benz's key point of difference lies in its team's deep geological expertise and the use of advanced geological techniques, particularly in high-metamorphic terrane exploration. The Company aims to rapidly grow its global resource base and solidify its position as a leading gold explorer across two of the world's most prolific gold regions.

Cannot view this image? Visit: https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_007.jpg

To view an enhanced version of this graphic, please visit:
https://images.newsfilecorp.com/files/1818/281887_2f188d97b46c1870_007full.jpg

For more information, please visit: https://benzmining.com/.

Qualified Person's Statement (NI 43-101)

The disclosure of scientific or technical information in this news release is based on, and fairly represents, information compiled by Mr Mark Lynch-Staunton, who is a Qualified Person as defined by NI 43-101 and a Member of Australian Institute of Geoscientists (AIG) (Membership ID: 6918). Mr Lynch-Staunton has reviewed and approved the technical information in this news release. Mr Lynch-Staunton owns securities in Benz Mining Corp.

Forward-Looking Statements

Statements contained in this news release that are not historical facts are "forward-looking information" or "forward looking statements" (collectively Forward-Looking Information) as such term is used in applicable Canadian securities laws. Forward-Looking Information includes, but is not limited to, disclosure regarding the exploration potential of the Glenburgh Gold Project and the anticipated benefits thereof, planned exploration and related activities on the Glenburgh Gold Project. In certain cases, Forward-Looking Information can be identified by the use of words and phrases or variations of such words and phrases or statements such as "anticipates", "complete", "become", "expects", "next steps", "commitments" and "potential", in relation to certain actions, events or results "could", "may", "will", "would", be achieved. In preparing the Forward-Looking Information in this news release, the Company has applied several material assumptions, including, but not limited to, that the accuracy and reliability of the Company's exploration thesis in respect of additional drilling at the Glenburgh Gold Project will be consistent with the Company's expectations based on available information; the Company will be able to raise additional capital as necessary; the current exploration, development, environmental and other objectives concerning the Company's Projects (including Glenburgh and Mt Egerton Gold Projects) can be achieved; and the continuity of the price of gold and other metals, economic and political conditions, and operations.

Forward-looking information is subject to a variety of risks and uncertainties and other factors that could cause plans, estimates and actual results to vary materially from those projected in such forward-looking information. Factors that could cause the forward-looking information in this news release to change or to be inaccurate include, but are not limited to, the early stage nature of the Company's exploration of the Glenburgh Gold Project, the risk that any of the assumptions referred to prove not to be valid or reliable, that occurrences such as those referred to above are realized and result in delays, or cessation in planned work, that the Company's financial condition and development plans change, and delays in regulatory approval, as well as the other risks and uncertainties applicable to the Company as set forth in the Company's continuous disclosure filings filed under the Company's profile at www.sedarplus.ca and www.asx.com.au. Accordingly, readers should not place undue reliance on Forward-Looking Information. The Forward-looking information in this news release is based on plans, expectations, and estimates of management at the date the information is provided and the Company undertakes no obligation to update these forward-looking statements, other than as required by applicable law.

NEITHER THE TSX VENTURE EXCHANGE NOR ITS REGULATION SERVICES PROVIDER (AS THAT TERM IS DEFINED IN THE POLICIES OF THE TSX VENTURE EXCHANGE) ACCEPTS RESPONSIBILITY FOR THE ACCURACY OR ADEQUACY OF THIS RELEASE.

Appendix 1: Collar Table. Coordinates system: GDA94/MGA Zone 50

Hole IDEastingNorthingElevationDipAzimuthEnd Depth
25GLR_0364097007191553296.765-60170582
25GLR_0484093777191503293.287-59161456
25GLR_0504095627191527298.376-59160360
25GLR_0524096337191562296.606-55161300
25GLR_0544096557191481298.722-65161300
25GLR_0564094827191417297.849-56161354
25GLR_0584095627191492299.126-55160402
25GLR_0624096087191486299.687-65160438
25GLR_0644095887191506300.007-60160366
25GLR_0674094277191595294.925-55163600
25GLR_0744095207191368298.92-55165552
25GLR_0784094777191463300.524-5516591
25GLR_0794095547191250299.7-55165558
25GLR_0804095917191158302.337-55165600
25GLR_0834097357191425302.089-55165600
25GLR_0844097797191328303.496-55167600
25GLR_0854098257191192301.927-55165446
25GLR_0864094007191698297.975-55165750
25GLR_0884093607191806297.644-55164528
25GLR_0894098547191479301.399-55165600
25GLR_0914098117191605301.019-56165598
25GLR_0934091767191431296.78-55165733
25GLR_0954094817190784303.114-55345600
25GLR_0964092097191044298.945-55165600
25GLR_0984102627191361300.97-55165570
25GLR_1004095567191051298.618-55165549
25GLR_1014103357191115301.043-55165450
25GLR_1044105097190786301.43-55340600
25GLR_1054088597191040296.439-54164492
25GLR_1074099697190976301.609-52168600
25GLR_1104091087190691295.219-55346504
25GLR_1114097987190914301.995-55165512
25GLR_1124089587191131294.31-55166492
25GLR_1144101647191043296.424-55165600
25GLR_1154093797191217296.383-55165600
25GLR_1184092707191531296.618-54164600
25GLR_1194094147191114297.843-55165600
25GLR_1214093087191429298.875-54165312
25GLR_1234093787191569296.187-55165492
25GLR_1264094857191256299.31-53165600
25GLR_1274094127191463293.971-55165600
25GLR_1334095207191149303.463-55164600
25GLR_1344094487191358297.626-56164600
25GLR_1394091727191145296.965-51155402
25GLR_1404093117191083300.239-64167402
25GLR_1434097067191173302.463-58184300
25GLR_1444096277191184301.683-50165300
25GLR_1464097077191172302.288-50160252
25GLR_1494106657191753301.443-61165102
25GLR_1504108887191932303.305-58165330
25GLR_1514106527191795303.813-58165150
25GLR_1534107077191871301.198-58165204
25GLR_1554106817191904301.848-58165252
25GLR_1574108757191980303.759-5816566
25GLR_1584106557191952300.782-58165300
25GLR_1594108767191979304.376-5816572
25GLR_1614106127191940300.211-58165314
25GLR_1624108727192028303.326-58165450
25GLR_1644107547191838302.388-60164150
25GLR_1654107507191887300.926-59164204
25GLR_1664108437191913303.29-59166330
25GLR_1674107327191929300.754-58164252
25GLR_1684107007191968301.3-58165300
25GLR_1724107817191908303.325-58164222
25GLR_1744107817191946301.89-58164252
25GLR_1774107677191996303.058-58165300
25GLR_1794108167191966303.256-59164506
25GLR_1854105777191787302.75-55154204
25GLR_1874094527191423300.406-60155120
25GLR_1884094647191398300.717-60155120
25GLR_1894094737191375300.754-6015524
25GLR_1904094617191427300.777-75155114
25GLR_1914094647191419300.396-75155114
25GLR_1924094687191410299.054-75155114
25GLR_1934094727191401299.146-75155114
25GLR_1944094767191391299.262-7515560
25GLR_1954094717191431298.826-80155108
25GLR_1964094767191421298.951-75155114
25GLR_1974094807191413299.402-75155114
25GLR_1994094867191396299.698-6015542
25GLR_2004094797191432298.857-60155120
25GLR_2014094847191448299.214-60155120
25GLR_2044095167191447298.787-81155105
25GLR_2114094887191439299.2-60155120
25GLR_2124094937191429299.252-60155120
25GLR_2134094977191419299.36-6015590
25GLR_2214094967191445299.478-60155102
25GLR_2224095067191422299.329-6015590
25GLR_2234095017191411299.324-6015560
25GLR_2244095067191402299.308-6015542
25GLR_2254095207191420299.104-80155108
25GLR_2264095167191428297.76-80155108
25GLR_2274095197191441298.733-80155105
25GLR_2284095237191432298.937-80155108
25GLR_2294095277191422299.095-80155105
25GLR_2304095327191414299.094-80156108
25GLR_2314095377191404299.093-8115484
25GLR_2324095127191437299.027-80155108
25GLR_2334095247191409298.8-81151108
25GLR_2344095487191404299.172-6015360
25GLR_2354095387191463295.071-60155108
25GLR_2364105117191811299.998-55155252
25GLR_2374095117191439299.216-80155108
25GLR_2384105577191831299.819-55155252

 

Appendix 2: Significant Intercepts Tables.

High Grade Intercepts: A nominal 0.8g/t Au lower cut off has been applied to results, no maximum internal dilution was applied unless stated otherwise. Some intercepts reported were previously disclosed based on partial assay results. Completion of outstanding assays has resulted in updated intercepts being reported

Hole IDFromToAu_ppmLengthComments
25GLR_0501631790.9616
25GLR_0502022730.871Updated intercept following receipt of remaining assays
25GLR_0542112142.253
25GLR_054240300160
25GLR_0566430.8137
25GLR_058962290.87133Updated intercept following receipt of remaining assays Includes: 16m at 2.16g/t and 7m at 2.85g/t
25GLR_0582632690.816
25GLR_062842841200Updated intercept following receipt of remaining assays Includes: 14m at 8.36g/t
25GLR_0642032300.8227Updated intercept following receipt of remaining assays
25GLR_0642332420.999
25GLR_0642773050.9928
25GLR_0673163211.065
25GLR_0674194251.156
25GLR_0674834891.46
25GLR_07440480.938
25GLR_0745265471.3421
25GLR_07878881.8710
25GLR_0801861980.9712
25GLR_0802832970.8214
25GLR_0835805831.623
25GLR_0911441470.913
25GLR_0912042120.918
25GLR_0913843941.0610
25GLR_0914244401.116
25GLR_0914574771.4820
25GLR_0953443571.1213
25GLR_0954844891.395
25GLR_1102342570.8423Includes: 6m at 2.72g/t
25GLR_1152572601.43
25GLR_1153063111.495
25GLR_1154064342.5228Includes: 8m at 5.56g/t and 11m at 2.06g/t
25GLR_1192672701.523
25GLR_1212762821.356
25GLR_1234144220.858
25GLR_1272522561.334
25GLR_1331461551.059
25GLR_1332973321.0435Includes: 3m at 3.01g/t
25GLR_1393213243.883
25GLR_1431992060.97
25GLR_1442052091.194
25GLR_1442892963.957
25GLR_1461982021.044
25GLR_15040461.566
25GLR_1551311380.87
25GLR_1582112240.8313
25GLR_16424270.953
25GLR_16429333.934
25GLR_1651641671.533
25GLR_1671391551.0216Includes: 4m at 3.03g/t
25GLR_1682332381.685
25GLR_1721121151.553
25GLR_1741291351.526
25GLR_1772542701.2416
25GLR_1791651690.824
25GLR_18756851.3629
25GLR_18815261.4411Includes: 4m at 2.55g/t
25GLR_1881051092.554
25GLR_189372.444
25GLR_190849327.949
25GLR_19161790.9418
25GLR_19242461.154
25GLR_19250531.183
25GLR_19265850.8620
25GLR_192951142.0219Includes: 7m at 3.81g/t
25GLR_19319491.1530Includes: 5m at 4.29g/t
25GLR_19381860.855
25GLR_1946121.746
25GLR_196321142.1882Includes: 4m at 17.7g/t and 34m at 2.56g/t
25GLR_19724880.964Includes: 3m at 2.48g/t
25GLR_1971081120.934
25GLR_201391021.0563Includes: 14m at 2.08g/t
25GLR_204889221.444
25GLR_21136680.8632
25GLR_2111081121.14
25GLR_21221372.0616Includes: 13m at 2.37g/t
25GLR_21314400.9126Includes: 6m at 2.98g/t
25GLR_22142771.4735Includes: 13m at 2.42g/t
25GLR_22217231.156
25GLR_223180.857
25GLR_22520281.048
25GLR_225901061.1216
25GLR_226231081.385Includes: 16m at 2.14g/t
25GLR_227611022.5641Includes: 22m at 2.81g/t and 15m at 2.74g/t
25GLR_228741051.4831
25GLR_22924271.343
25GLR_22943501.47
25GLR_22990940.854
25GLR_229961051.119
25GLR_230253.473
25GLR_232131084.2995Includes: 13m at 29.11g/t
25GLR_23350600.8510
25GLR_23577881.7711
25GLR_23675782.053
25GLR_237551025.147Includes: 17m at 11.73 g/t and 12m at 2.9g/t
25GLR_2381581643.86

 

Bulk Low Grade Intercepts: A nominal 0.3g/t Au lower cut off has been applied to results, no maximum internal dilution was applied unless stated otherwise. Some intercepts reported were previously disclosed based on partial assay results. Completion of outstanding assays has resulted in updated intercepts being reported

Hole IDFromToAu_ppmLengthComments
25GLR_0361945540.39360Updated intercept following receipt of remaining assays. Includes: 6m at 4.18g/t
25GLR_0481994420.67243Updated intercept following receipt of remaining assays Includes: 21m at 2.74g/t and 7m at 2.7g/t
25GLR_0501483510.5203Updated intercept following receipt of remaining assays
25GLR_0521351380.353
25GLR_0521611740.4613
25GLR_0522042200.416
25GLR_0522342450.3211
25GLR_0541193000.64181Updated intercept following receipt of remaining assays Includes: 3m at 2.25g/t
25GLR_05662420.38236Updated intercept following receipt of remaining assays Includes: 17m at 2.18g/t
25GLR_058813630.49282Updated intercept following receipt of remaining assays Includes: 7m at 2.85g/t and 16m at 2.16g/t
25GLR_062763620.72286Updated intercept following receipt of remaining assays Includes: 14m at 8.36g/t
25GLR_064633500.48287Updated intercept following receipt of remaining assays Includes: 4m at 3.38g/t and 8m at 2.22g/t
25GLR_0672862910.365
25GLR_0673083450.3937
25GLR_0674184530.3835
25GLR_0674745340.3160
25GLR_0675365470.3111
25GLR_0675545730.3219
25GLR_0675765810.665
25GLR_07436610.5425
25GLR_0743623720.3810
25GLR_0745175500.9133
25GLR_07851600.389
25GLR_07865910.7926
25GLR_0792823030.4121
25GLR_0794074110.474
25GLR_0795085130.455
25GLR_0801562070.3851
25GLR_0802452570.312
25GLR_0802803300.3250
25GLR_0834450.441
25GLR_08377870.5110
25GLR_0835805861.056
25GLR_0844094300.3221
25GLR_0862682760.418
25GLR_08948680.4820
25GLR_0892192240.445
25GLR_0893263290.413
25GLR_0911431520.559
25GLR_0911763150.31139
25GLR_0913604810.65121
25GLR_0953274390.34112
25GLR_0954725030.3631
25GLR_10010160.36
25GLR_10033490.3516
25GLR_10070740.354
25GLR_100961000.714
25GLR_1001421450.383
25GLR_107981010.383
25GLR_1102332570.8424Includes: 6m at 2.72g/t
25GLR_1111761830.687
25GLR_1151791850.356
25GLR_1152442500.426
25GLR_1152572720.3615
25GLR_1153063121.326
25GLR_1153994651.1466Includes: 8m at 5.56g/t and 11m at 2.06g/t
25GLR_11961680.327
25GLR_11988970.419
25GLR_1191813120.3131
25GLR_1193533630.3210
25GLR_12170770.517
25GLR_1212452820.5237
25GLR_1233273360.569
25GLR_1234014470.5446
25GLR_1262302350.585
25GLR_1262923010.449
25GLR_1263903960.496
25GLR_1271461500.424
25GLR_1271831860.423
25GLR_1272052780.4173
25GLR_1331321700.4838
25GLR_1332232260.643
25GLR_1332512560.585
25GLR_1332722780.456
25GLR_1332874030.38116Includes: 3m at 3.01g/t
25GLR_13433530.3220
25GLR_134991040.495
25GLR_1345265380.3312
25GLR_1392613610.31100Includes: 3m at 3.88g/t
25GLR_14070980.3328
25GLR_1401391430.414
25GLR_1401651680.653
25GLR_1402632760.3213
25GLR_1431972280.3531
25GLR_1441922220.430
25GLR_1442882963.528Includes: 7m at 3.95g/t
25GLR_1461351690.3334
25GLR_1461982210.3123
25GLR_1462262320.36
25GLR_14925310.496
25GLR_15036850.3949
25GLR_1502672710.374
25GLR_15148680.3220
25GLR_153901010.4211
25GLR_1531081130.325
25GLR_1531401440.44
25GLR_1532002030.623
25GLR_1551311780.347
25GLR_1552312350.394
25GLR_1581561660.4310
25GLR_1582042410.4837
25GLR_1612192770.3258
25GLR_1622553080.3453
25GLR_16420620.642Includes: 4m at 3.93g/t
25GLR_1651401500.3410
25GLR_1651581670.629
25GLR_16680850.495
25GLR_1661101150.355
25GLR_1661641760.3412
25GLR_1662953010.416
25GLR_1671221880.4566Includes: 4m at 3.03g/t
25GLR_1672412460.485
25GLR_1682032090.316
25GLR_1682282720.444
25GLR_172871520.365
25GLR_1721701770.327
25GLR_1721962220.3526
25GLR_1741281850.3257
25GLR_1742032360.3633
25GLR_1772002090.329
25GLR_1772152180.393
25GLR_1772432460.413
25GLR_1772512760.9125
25GLR_1791441970.3153
25GLR_1792212320.3311
25GLR_1792452480.393
25GLR_1793283610.3633
25GLR_1793793820.393
25GLR_18523270.334
25GLR_18567700.33
25GLR_18592980.316
25GLR_187481170.769
25GLR_188111160.41105Includes: 4m at 2.55g/t
25GLR_1892180.7816Includes: 4m at 2.44g/t
25GLR_190841138.829Includes: 9m at 27.94g/t
25GLR_191451140.4969
25GLR_192331140.9481Includes: 7m at 3.81g/t
25GLR_193161140.5598Includes: 5m at 4.29g/t
25GLR_1940270.6427
25GLR_19576900.4614
25GLR_196211141.9493Includes: 4m at 17.7g/t, 34m at 2.56g/t and 3m at 2.17g/t
25GLR_19701120.63112Includes: 3m at 2.48g/t
25GLR_1990190.3319
25GLR_200321150.3183
25GLR_201391190.8680Includes: 14m at 2.08g/t
25GLR_20471924.1621Includes: 4m at 21.44g/t
25GLR_211241180.4494
25GLR_21212990.5387Includes: 13m at 2.37g/t
25GLR_21310640.5554Includes: 6m at 2.98g/t
25GLR_221401020.962Includes: 13m at 2.42g/t
25GLR_2228390.4231
25GLR_2230420.3242
25GLR_224060.36
25GLR_22515790.364
25GLR_225841080.8424
25GLR_226231081.385Includes: 16m at 2.14g/t
25GLR_227541052.1251Includes: 22m at 2.81g/t and 15m at 2.74g/t
25GLR_22829560.3327
25GLR_228661051.2439Includes: 3m at 2.3g/t
25GLR_229101050.5295
25GLR_2301720.3871Includes: 3m at 3.47g/t
25GLR_2329140.475
25GLR_23238410.383
25GLR_232561087.7352Includes: 13m at 29.11g/t
25GLR_23347940.3747
25GLR_23433510.518
25GLR_23570990.829
25GLR_23674970.5423
25GLR_2361671760.449Includes: 3m at 2.05g/t
25GLR_237181082.790Includes: 17m at 11.73g/t and 12m at 2.9g/t
25GLR_23878840.346
25GLR_238931060.3413
25GLR_2381472010.5354Includes: 6m at 3.8g/t

 

Appendix 3: JORC Tables
JORC Code, 2012 Edition - Table 1 report template

Section 1 Sampling Techniques and Data
(Criteria in this section apply to all succeeding sections.)

CriteriaCommentary
Sampling techniques
  • Results are part of BNZ's RC drilling campaign at the recently acquired Glenburgh Gold Project situated ~285 km east of Carnarvon via Gascoyne Junction, WA.
  • RC drilling samples were collected as 1m single samples.
  • Each sample collected represents each one (1) metre drilled collected from the rig-mounted cone splitter into individual calico bags (~3kg).
  • The rig mounted cyclone/cone splitter was levelled at the start of each hole to aid an even fall of the sample through the cyclone into the cone splitter.
  • RC drilling sample submissions include the use of certified standards (CRMs), and field duplicates were added to the submitted sample sequence to test laboratory equipment calibrations. Standards selected are matched to the analytical method of photon assaying at ALS labs in Perth (~500g units). No composites were taken.
  • Based on statistical analysis of these results, there is no evidence to suggest the samples are not representative.
Drilling techniques
  • The RC drill rig was a Schramm C685 & T685 rig type with the capability to reach >500m depths with a rig-mounted cyclone/cone splitter using a face sample hammer bit of 5 1⁄2 - 6" size.
  • The booster was used to apply air to keep drill holes dry and reach deeper depths.
Drill sample recovery
  • RC sample recovery is visually assessed and recorded where significantly reduced. Negligible sample loss has been recorded.
  • RC samples were visually checked for recovery, moisture and contamination. A cyclone and cone splitter were used to provide a uniform sample, and these were routinely cleaned.
  • RC Sample recoveries are generally high. No significant sample loss has been recorded.
Logging
  • RC chip samples have been geologically logged on a per 1 metre process recording lithology, mineralisation, veining, alteration, and weathering.
  • Geological logging is considered appropriate for this style of deposit (metamorphosed orogenic gold). The entire length of all holes has been geologically logged.
  • RC drill logging was completed by Benz Mining staff and data entered into BNZ's MXDeposit digital data collection platform provided by Expedio.
  • All drill chips were collected into 20 compartment-trays for future reference and stored securely at Glenburgh camp.
Sub-sampling techniques and sample preparation
  • RC chips were cone split at the rig. Samples were generally dry.
  • A sample size of between 3 and 5 kg was collected. This size is considered appropriate, and representative of the material being sampled given the width and continuity of the intersections, and the grain size of the material being collected.
  • For the 1 metre samples, certified analytical standards (appropriate for photon assaying) and field duplicates were inserted at appropriate intervals at a rate equal to 1 in 20 and sent for analysis with the samples.
  • Sample preparation was undertaken at ALS Laboratory - Perth. Gold analysis utilised the photon assaying methodology where original samples are crushed to 90% better than -3mm with a sub-set 500g separated for non-destructive analysis.
  • Any sample reporting as having elevated > 1µSv readings during the preparation for photon assaying at ALS labs were flagged and were submitted for fire assay (Au-AA26) methodology at ALS labs in Perth as a quantifying check against the Photon assays.
Quality of assay data and laboratory test
  • PhotonAssay at ALS Perth: Samples submitted for PhotonAssay analysis were dried, crushed to achieve approximately 90% passing 3.15 mm, rotary split, and a nominal ~500 g sub-sample was collected (method codes CRU-32a and SPL-32a). The ~500 g sub-sample was analysed for gold using the PhotonAssay technique (method code Au-PA01), together with quality control samples including certified reference materials and field duplicates.
  • ALS PhotonAssay Analysis Technique: Developed by CSIRO in collaboration with Chrysos Corporation, PhotonAssay is a rapid, chemical-free alternative to conventional fire assay that uses high-energy X-rays. The technique is non-destructive and analyses a substantially larger sample mass than the standard 50 g fire assay. ALS has extensively tested and validated the PhotonAssay method, with results benchmarked against traditional fire assay.
  • Routine mutli-element analysis - four acid digest with ICP-MS finish (method code ME-MS61) and portable XRF (method code pXRF-NQ) has been completed down hole on a pulverize 500 g split to better than 85% passing 75um (method code PUL-32m) but this information does not form part of this report.
  • Laboratory QA/QC is maintained through the routine use of internal certified reference materials and blanks as part of standard in-house procedures. In addition, BNZ submitted an independent suite of certified reference materials (see above). These data are formally reviewed on a periodic basis.
Verification of sampling and assaying
  • Significant drill intersections are checked by the supervising personnel. The intersections are compared to recorded geology and neighbouring data and reviewed in Leapfrog and QGIS software.
  • No twinned holes have been drilled to date by Benz Mining, but, planned holes have tested the interpreted mineralised trends, verifying the geometry of the mineralised targets.
  • All logs were validated by the Project Geologist prior to being sent to the Database Administrator for import
  • No adjustments have been made to assay data apart from values below the detection limit which are assigned a value of half the detection limit (positive number)
Location of data points
  • Hole collar coordinates including RLs have been located by handheld GPS in the field during initial drill site preparation. Actual hole collars were collected by a DGPS system at the Glenburgh Gold Project.
  • The grid system used for the location of all drill holes is GDA94_MGA _Zone 50s.
  • Planned hole coordinates and final GPS coordinates are compared in QGIS and Leapfrog project files to ensure all targets have been tested as intended.
  • The drill string path is monitored as drilling progresses using downhole Axis Champ Gyro tool and compared against the planned drill path, adjustment to the drilling technique is requested as required to ensure the intended path is followed.
  • Readings were recorded at 30m intervals from surface to end of hole after Benz reviewed single shot verses EOH continuous surveying of the Axis Champ Gyro tool and noted >3 degrees variance in azimuth with hole depth. The single shots produce less variability and are used for hole trace reporting in the database.
  • Historical drill hole surveys and methods will be reviewed in preparation for any updates to MRE in the future.
Data spacing and distribution
  • BNZ's Glenburgh RC drilling has been designed to infill and extend mineralisation defined by historical drilling. Drill spacings are varied. Holes were generally angled between -65 degrees towards ~145 degrees.
  • 34 holes were drilled at Icon at 10m x 10m spacing, dipping between -60 to -80 degrees towards 155 degrees, with average depths of 100m. The objective of the close spaced drilling was to form a data cube to obtain adequate spacing for testing mineralisation continuity and geological host features.
  • The mineralised domains established for pre-BNZ Mineral Resource Estimates have sufficient continuity in both geology and grade to be considered appropriate for the Mineral Resource and Ore Reserve estimation procedures and classification applied under the 2012 JORC Code. Ongoing drilling will be sufficiently spaced for a reinterpretation based on BNZ's structural model.
  • No sample compositing of material from drilling has been applied during this drilling campaign.
Orientation of data in relation to geological structure
  • Drilling has primarily been undertaken perpendicular to the interpreted mineralised structures as stated above.
  • No orientation-based sampling bias has been identified - observed intercepts to date indicate the interpreted geology hosting mineralisation is robust.
Sample security
  • All samples were prepared in the field by Benz Mining staff and delivered by contracted couriers from the field site to the ALS laboratory in Perth directly.
  • Individual pre-numbered calco sample bags are placed in polywoven plastic bags (5 per bag) secured at the top with a cable tie. These bags are annotated with the company name and sample numbers, the bags are placed in larger bulker bags for transport to ALS labs in Perth, also labelled with corresponding company name, drill hole and sample identifiers.
  • Sample pulps are stored in a dry, secure location at Benz's Glenburgh camp.
Audits or reviews
  • Data is validated by Benz staff and Geolytic database consultants as it is entered into MXDeposit. Errors are returned to field staff for validation.
  • All drilled hole collars have been located with a DGPS.
  • There have been no audits undertaken.

 

Section 2 Reporting of Exploration Results
(Criteria listed in the preceding section also apply to this section.)

CriteriaCommentary
Mineral tenement and land tenure status
  • Glenburgh Gold Project is a group of 10 tenements and 2 applications. The majority of known gold deposits are located on Mining Lease M09/148.
  • The tenement is 100% owned by Benz Mining Limited.
  • The tenements are in good standing and no known impediments exist.
Exploration done by other parties
  • Since Helix Resources in 1994 and subsequent work by Gascoyne Resources, about 159,149 soil samples, 1,349 vacuum holes and 2,285 auger holes have been completed at Glenburgh.
  • 48 diamond holes, 398 RC holes, 6 air-core holes and 462 RAB holes have been drilled in the Glenburgh area to identify the distribution and evaluate the potential of the deposit.
  • Drilling to date has identified 10 high potential deposits in the Glenburgh area which are: Tuxedo, Icon, Apollo, Mustang, Shelby, Hurricane, Zone 102, Zone 126, NE3 and NE4 deposits.
Geology
  • Gold mineralisation at the Glenburgh deposit is hosted in Paleoproterozoic upper-amphibolite to granulite facies siliciclastic rocks of the Glenburgh Terrane, in the southern Gascoyne Province of Western Australia.
  • Gold was first discovered at the Glenburgh deposit in 1994 by Helix Resources during follow-up drilling of soil geochemical anomalies. Mineralisation occurs in shears within quartz + feldspar + biotite ± garnet gneiss, which contains discontinuous blocks or lenses of amphibolite and occasional thin magnetite-bearing metamorphics, probably derived from chemical sediments.
  • Higher-grade mineralisation appears to be directly related to silica flooding in the gneiss. This silica flooding may give rise to quartz 'veins' up to several metres thick, although scales of several centimetres to tens of centimetres are the norm. Neither the higher-grade silica lodes nor the more pervasive lower-grade mineralisation exhibits sharp or well-defined lithological contacts.
Drill hole Information
  • For this announcement, 104 Reverse Circulation (RC) drill holes are being reported.
  • Collar details have been provided in Appendix 1.
  • For earlier released results, see previous announcements by Gascoyne Resources (ASX: GCY) and Spartan Resources (ASX: SPR).
Data aggregation methods
  • No material information has been excluded.
  • Low Grade: A nominal 0.3 ppm Au lower cut off has been applied to with no internal dilution length applied.
  • High grade: A nominal 0.8 ppm Au lower cut off has been applied to with no internal dilution length applied.
  • Higher grade Au intervals lying within broader zones of Au mineralisation are reported as included intervals.
  • No top cuts have been applied to reported intercepts.
  • No metal equivalent values have been used.
  • All reported assays have been length weighted if appropriate.
  • Some drill holes reported in this announcement were previously disclosed based on partial assay results. Completion of outstanding assays has resulted in updated intercepts now being reported.
Relationship between mineralisation widths and intercept lengths
  • Drilling is generally oriented perpendicular to the interpreted strike of mineralisation, and intercepts are reported as downhole lengths unless otherwise stated.
  • To improve understanding of true widths, a subset of holes in this program were drilled from the opposite azimuth to previous drilling to test structural geometry. Ongoing drilling and geological modelling are required to confirm the true orientation and extent of mineralised lenses.
Diagrams
  • Relevant diagrams are included in the report.
Balanced reporting
  • All meaningful data relating to the Exploration program has been included and reported to the market as assays are received.
Other substantive exploration data
  • See body of announcement.
Further work
  • Assays for the remainder of the programme will be reported once received and validated.
  • Ongoing drilling across the Glenburgh camp to extend mineralisation along strike and at depth.

 

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