Hercules Metals Intersects 480 Meters of 0.47% Cu, 82 Ppm Mo, Including 55 Meters of 1.5% Cu
Hercules Metals Intersects 480 Meters of 0.47% Cu, 82 Ppm Mo, Including 55 Meters of 1.5% Cu
Toronto, Ontario--(Newsfile Corp. - October 10, 2024) - Hercules Metals Corp. (TSXV: BIG) (OTCQB: BADEF) (FSE: C0X) ("Hercules Metals" or the "Company") is pleased to announce multiple broad copper intercepts from its Phase III drilling program on the newly discovered Leviathan porphyry copper system in western Idaho ("Hercules" or the "Property").
Toronto,安大略(新闻简报社 - 2024年10月10日) - 大力金属公司(TSXV:BIG)(OTCQB:BADEF)(FSE:C0X)("大力金属"或"公司")高兴地宣布,在爱达荷州西部新发现的利维坦斑岩铜系统的第三阶段钻探项目中发现了多个广泛的铜截获。
Highlights
亮点
- 140-meter step-out delivers similar hypogene enrichment to discovery hole HER-23-05, including 55 m of 1.5% Cu, within a broader intercept of 480 meters of 0.47% Cu, 82 ppm Mo, representing the longest intercept reported to date.
- 140米的外推钻孔提供了类似于发现孔HER-23-05的高原酸成矿富集,包括1.5%的5500万铜,覆盖了0.47%铜,82 ppm钼,是迄今为止报道的最长截获。
- Additional step-out holes planned to test its potential northeast-southwest trend extending towards HER-24-12, as well as down-plunge to the southeast (Fig. 1).
- 计划进行额外的外推钻孔,以测试其向东北 - 西南延伸至HER-24-12的潜力,以及向东南沿倾的测试(图1)。
- Large step-out drilling outlines a 1.6 km x 1.1 km oval-shaped enrichment blanket which remains open.
- 大范围的外推钻孔勾勒出一个长1.6公里,宽1.1公里的椭圆形富集带,仍然未封闭。
- Drilling continues to vector toward the potassic core of the system and test for additional centers to the east within a large untested soil anomaly.
- 钻探继续朝向系统的钾核心方向指引,并在尚未开展大规模的土壤异常内向东测试其他中心。
- Legacy Drilling has successfully completed the first RC hole to significant depth in challenging ground, demonstrating the potential to increase drilling production and lower the overall costs.
- Legacy Drilling成功完成了第一个在具有挑战性地质条件下钻探到重要深度的回转钻孔,展示了增加钻井产量和降低总成本的潜力。
- Drilling progresses with two diamond core rigs and one RC rig and remains financed through to the end of 2025.
- 钻探进展顺利,使用两台金刚石岩心钻机和一台回转钻机,资金持续到2025年底。
Chris Paul, CEO and Director of the Company, noted: "We are pleased with the grade and continuity returned over broad intervals in the system. The phyllic cap and hypogene enrichment blanket have expanded now to 1.6 km x 1.1 km, leading to new interpretations of the potential geometry and scale of the system. We've been able to work through drilling challenges faced at the start of the season and are now seeing strong production with the addition of Legacy's RC rig. As production increases, it continues to generate new targets and vector us toward the core of the system.
公司的CEO和董事Chris Paul指出:“我们对该系统中广泛间隙返回的品位和连续性感到满意。具腐蚀性盖层和次生浓缩蚀变毯的规模已扩大至1.6公里x 1.1公里,这导致了对该系统潜在几何形态和规模的新解读。我们已经成功克服了季节初面临的钻井挑战,并随着Legacy的RC钻机的加入而开始看到产量强劲增长。随着产量的增加,系统持续产生新目标,并将我们引向系统的核心部位。
As drilling moves into new target areas, we're able to further test extensions of the widespread hypogene enrichment blanket. Hypogene enrichment is a rare phenomenon that only occurs in a small number of systems globally, but can often significantly upgrade the overall metal endowment. It remains to be seen if it extends into an as yet undiscovered high-grade potassic core."
随着钻探进入新的目标区,我们能够进一步测试广泛的次生浓缩蚀变毯的延伸。次生浓缩蚀变是一种罕见现象,全球仅发生在少数几个系统中,但往往可以显著升级整体金属含量。目前尚不清楚它是否延伸至尚未发现的高品位钾质核心。”
Table 1: Significant Intercepts1
表1:重要截获1
Hole ID | From (m) | To (m) | Interval (m) | Cu (%) | Ag (g/t) | Mo (ppm) |
HER-24-01 | 256.37 | 411.24 | 154.87 | 0.44 | 10.87 | 64 |
including | 256.37 | 339.85 | 83.48 | 0.67 | 18.88 | 67 |
including | 256.37 | 286.51 | 30.14 | 1.11 | 48.48 | 32 |
HER-24-02 | 297.91 | 327.66 | 29.75 | 0.18 | 0.46 | 14 |
HER-24-03 | 207.9 | 224.52 | 16.62 | 0.47 | 0.67 | 6 |
HER-24-04 | 266.49 | 484.33 | 217.84 | 0.33 | 2.10 | 59 |
including | 266.49 | 323.55 | 57.06 | 0.55 | 2.68 | 64 |
HER-24-06 | 471.53 | 509.32 | 37.79 | 0.53 | 17.9 | 97 |
AND | 588.26 | 637.58 | 49.32 | 0.46 | 3.26 | 93 |
HER-24-08 | 242.32 | 721.77 | 479.55 | 0.47 | 0.67 | 82 |
including | 242.32 | 388.62 | 146.3 | 0.84 | 0.77 | 61 |
including | 242.32 | 296.88 | 54.56 | 1.47 | 0.95 | 39 |
孔ID | 从(m) | 到(m) | 间隔(米)。 | 铜(%) | Ag(g/t) | Mo(ppm) |
HER-24-01 | 256.37 | 411.24 | 154.87 | 0.44 | 10.87 | 64 |
包括 | 256.37 | 339.85 | 83.48 | 0.67 | 18.88 | 67 |
包括 | 256.37 | 286.51 | 30.14 | 1.11 | 48.48 | 32 |
HER-24-02 | 297.91 | 327.66 | 29.75 | 0.18 | 0.46 | 14 |
HER-24-03 | 207.9 | 224.52 | 16.62 | 0.47 | 0.67 | 6 |
HER-24-04 | 266.49 | 484.33 | 217.84 | 0.33 | 2.10 | 59 |
包括 | 266.49 | 323.55 | 57.06 | 0.55 | 2.68 | 64 |
HER-24-06 | 471.53 | 509.32 | 37.79 | 0.53 | 17.9 | 97 |
和 | 588.26 | 637.58 | 49.32 | 0.46 | 3.26 | 93 |
HER-24-08 | 242.32 | 721.77 | 479.55 | 0.47 | 0.67 | 82 |
包括 | 242.32 | 388.62 | 146.3 | 0.84 | 0.77 | 61 |
包括 | 242.32 | 296.88 | 54.56 | 1.47 | 0.95 | 39 |
Figure 1: Drill Plan with grade bars for copper (orange) and molybdenum (blue) for holes with assays received. Approximate surface projection of enrichment blanket shown in orange. System remains open. Potential planned holes shown in white collars.
图1:钻探计划,显示已获得化验结果的铜(橙色)和钼(蓝色)品位条形图。橙色表示富集覆盖层的大致地表投影。系统仍然开放。潜在计划钻孔显示为白色套管。
Figure 2: 1:6500 scale view of drill holes in Figure 1, showing section lines for Figures 3 and 4.
图2:按1:6500比例查看图1中的钻孔,显示用于图3和图4的剖面线。
Figure 3: Cross-section A - A' showing southwest dipping cover, erosional surface, leach cap and parallel enrichment blanket. The late porphyry dykes dip out of the page to the southeast, but have an apparent parallel dip as shown due to the orientation of the cross section.
图3:A - A'剖面显示向西南倾斜的覆盖层、侵蚀表面、浸出帽和平行富集毯。晚期斑岩岩脉向东南方向褶出页面,但由于剖面的取向,呈现出明显平行倾角。
Figure 4: Cross-section B - B' showing southwest-dipping unconformity. The thickest leach cap observed lies below 23-21, but pinches out by 24-06. The late porphyry thickens below 23-21 and dips out of the page to the southeast. The thickest bornite ever intercepted at Hercules occurs as a wedge of enrichment and possible relict potassic alteration above the late porphyry in 23-21. It was affected by leaching from above and therefore copper grades were not as high as other holes. It was then truncated by the late porphyry below. Planned holes will now test if the bornite wedge thickens down plunge to the southeast, as it departs from the thick leach cap and the top of the late porphyry dips deeper.
图4:b - B'剖面显示向西南倾斜的不整合面。观察到的最厚浸出岩帽位于23-21下方,但到24-06处消失。晚期斑岩在23-21下方变厚并向东南方向褶出页面。在Hercules观察到的最厚辉铜在23-21形成一块富集和可能是残留钾质蚀变的楔形物,位于晚期斑岩上方。受到上方淋滤的影响,铜品位不如其他孔。然后在下方被晚期斑岩切断。计划的孔将测试这块辉铜楔形是否向东南方向加厚,因为它背离了厚浸出岩帽和晚期斑岩顶部变得更深的距离。
Spectral and Veining
光谱和脉石化
Spectral readings taken throughout the porphyry system show a discernible pattern of increasing alteration temperature to the south and southeast. Drill holes HER-24-01 through -03, and 24-15 intersected low temperature phyllic and minor advanced argillic alteration, typical of the shallowest parts of a porphyry system. Veining in these holes is characterized by intense "D" vein stockworks, also typical of the margins of the system. Holes drilled to the south and southeast however intersect progressively higher temperature phyllic, and even observable relict potassic alteration. Densities of early quartz veins also increase in direct association with the increasing alteration temperatures. This pattern suggests that the Leviathan porphyry system has been tilted to the northwest.
在整个斑岩系统中进行的光谱读数显示了一个明显的增温南部和东南部的模式。钻孔HER-24-01到-03和24-15相交低温邻岩和轻微前进变质,典型的斑岩系统浅部。这些孔中的脉石以紧凑的“D”脉石网状为特征,也是系统边缘的典型特征。然而,向南和东南方向钻井的孔温度逐渐升高,甚至可观察到残留的钾质蚀变。早期石英脉的密度也随着增温温度的上升而增加。这种模式表明,利维坦斑岩系统已向西北方向倾斜。
Porphyry Intrusions
斑岩侵入体
A quartz porphyry intrusion, interpreted to be a late phase of the porphyry system, is intersected in a number of drill holes. Preliminary modeling suggests a southeast plunging geometry, consistent with the interpretation that the system is tilted to the northwest. It also appears to pinch out to the northwest in a series of finger-like dykes. The late quartz porphyry is slightly grade dilutive relative to the volcanic wall rock, and drilling aims to target near its margins, or in its hanging wall, as it plunges off to the southeast. It should be noted that drilling has not yet identified the earliest porphyry intrusion, which is typically the highest grade and introduces the bulk of copper mineralization early in porphyry systems.
多个钻孔中都切入了被解释为斑岩系统的晚期阶段的石英斑岩侵入体。初步建模表明它具有向东南倾斜的几何形态,与系统向西北倾斜的解释一致。它似乎也在向西北方向以一系列指状岩脉的方式消失。晚期石英斑岩相较于火山墙岩略微稀释品位,并且钻孔的目标是瞄准其边缘或在向东南深入时的壁石段。值得注意的是,钻孔尚未确定最早的斑岩侵入体,这通常是斑岩系统早期最高品级和引入大部分铜矿化的侵入体。
Drill Hole Summaries
钻孔摘要
HER-24-08 intersected strong mineralization in a 140-meter step-out northeast from 23-05. A trend of prospective mineralization has been noted from other holes drilled to the northeast, including HER-24-12. Additional drilling is warranted to test if the trend continues northeast of 24-12. Three core holes, HER-07, HER-24-09 and 24-09b, were lost in Jurassic cover, with HER-24-09 testing a step-out to the southwest of 23-05. Legacy's RC drill will use the same pad to test the southwest extension of the trend. HER-24-12 did not intersect late quartz porphyry, which adds to the targets prospectivity.
HER-24-08从23-05东北方向增加140米距离后,遇到强矿化。注意到其他朝东北方向钻探的钻孔中存在有前景矿化趋势,包括HER-24-12。需要进一步钻探以测试该趋势是否继续延伸至24-12东北方向。三个岩心钻孔HER-07、HER-24-09和240-90亿,在侏罗纪覆盖层中丢失,其中HER-24-09测试了与23-05西南方向的增距钻探。Legacy的旋转钻将使用相同的基座测试该趋势的西南延伸。HER-24-12未遇到晚期石英斑岩,这增加了目标的前景性。
HER-24-01 was drilled into a low temperature halo of D veining to the northwest, but also overlapped the margin of the enrichment blanket and graded 155m of 0.44% Cu and 11 g/t Ag, including 30m of 1.11% Cu and 48 g/t Ag.
HER-24-01钻入D脉低温围岩,向西北方向,但也与富集薄层边缘重叠,评定为15500万的0.44%铜和11克/吨银,包括3000万的1.11%铜和48克/吨银。
HER-24-04 intersected late quartz porphyry, grading 0.33% Cu over 218m, including 57m of 0.54% Cu within the enrichment blanket.
HER-24-04遇到晚期石英斑岩,评定为21800万的0.33%铜,其中包括5700万的0.54%铜在富集薄层内。
HER-24-05 was drilled into a circular chargeability low and intersected a low-grade plug of late quartz porphyry, with trace copper sulfide. High barren quartz vein densities in the plug suggest a potential deep core may have been faulted in here.
HER-24-05钻入圆形可充电性低区,遇到晚期石英斑岩的低品位堵塞,含微量硫化铜化合物。堵塞中高空虚的石英脉密度表明这里可能断裂了潜在的深部岩芯。
HER-24-06 tested a chargeability high outside of HER-24-05 and encountered hypogene enrichment followed by a short interval of late porphyry. Copper grade increases after exiting late porphyry into biotite altered volcanics. A badly damaged post-mineral fault zone forced the hole to be terminated in 0.6% Cu.
HER-24-06测试了HER-24-05外部的高可充电性区域,遇到次生富集,然后是短暂的晚期斑岩。从晚期斑岩过渡到变质的黑云母火山岩后,铜品位增加。受严重损坏的矿后断层带迫使该钻孔在0.6%的铜处终止。
Silver-Lead-Zinc in Jurassic Cover Sequence
侏罗纪覆盖层序中的银铅锌
Broad zones of disseminated silver-lead-zinc occur within the Hercules Rhyolite, an important unit of the Jurassic cover sequence. Although no longer the primary target, with commodities prices on the rise, the near surface silver mineralization may play an important role in potential future development scenarios.
在Hercules流纹岩中发现了广泛的分散银铅锌,这是侏罗纪覆盖层序的重要单元。虽然不再是主要目标,但随着商品价格上涨,近地表的银矿化可能在潜在未来的发展场景中发挥重要作用。
Table 2: Silver-Lead-Zinc in Cover Sequence
表2:盖层序列中的白银-铅-锌
Hole ID | From (m) | To (m) | Interval (m) | Ag (g/t) | Pb (%) | Zn (%) | Pb+Zn (%) |
HER-24-01 | 72.76 | 258.59 | 185.83 | 28.78 | .09 | .28 | 0.37 |
including | 72.76 | 131.37 | 58.61 | 67.89 | .28 | .86 | 1.14 |
including | 78.85 | 89.52 | 10.67 | 205.04 | 0.40 | 0.48 | 0.88 |
HER-24-04 | 118.45 | 133.65 | 15.20 | 24.40 | 0.21 | 1.29 | 1.50 |
HER-24-05 | 312.88 | 317.91 | 5.03 | 93.01 | - | - | - |
HER-24-08 | 3.02 | 96.68 | 93.66 | 9.88 | 0.19 | 0.17 | 0.36 |
including | 42.4 | 96.7 | 54.30 | 13.04 | 0.25 | 0.13 | 0.38 |
孔ID | 从(m) | 到(m) | 间隔(米)。 | Ag(g/t) | 铅(%) | 锌(%) | 市净率+锌(%) |
HER-24-01 | 72.76 | 258.59 | 185.83 | 28.78 | .09 | 0.28 | 0.37 |
包括 | 72.76 | 131.37 | 57.33 | 67.89 | 0.28 | 0.86 | 1.14 |
包括 | 78.85 | 89.52 | 10.67 | 205.04 | 0.40 | 0.48 | 0.88 |
HER-24-04 | 118.45 | 133.65 | 15.20 | 24.40 | 0.21 | 1.29 | 1.50 |
HER-24-05 | 312.88 | 317.91 | 5.03 | 93.01 | - | - | - |
HER-24-08 | 3.02 | 96.68 | 93.66 | 9.88 | 0.19 | 0.17 | 0.36 |
包括 | 42.4 | 96.7 | 54.30 | 13.04 | 0.25 | 0.13 | 0.38 |
Table 3: Reported Drill Hole Locations
表3:报告的钻孔位置
Hole ID | Easting | Northing | Elevation | Depth (m) | Azimuth | Dip |
HER-24-01 | 511023 | 4956683 | 1288 | 411.2 | 114.9 | -69.7 |
HER-24-02 | 511283 | 4956956 | 1354 | 411.5 | 115.4 | -70.2 |
HER-24-03 | 511132 | 4956841 | 1277 | 516.3 | 115.12 | -69.8 |
HER-24-04 | 511203 | 4956466 | 1359 | 484.3 | 90.17 | -68.4 |
HER-24-05 | 511237 | 4955710 | 1255 | 601.0 | 59.6 | -75.3 |
HER-24-06 | 511206 | 4956076 | 1361 | 637.6 | 239.36 | -75.6 |
HER-24-08 | 511289 | 4956754 | 1364 | 721.8 | 81.5 | -70.2 |
孔ID | 504 | 北纬(m) | 海拔高度(masl) | 深度(米) | 方位角(度) | 倾角 |
HER-24-01 | 511023 | 4956683 | 1288 | 411.2 | 114.9 | -69.7 |
HER-24-02 | 511283 | 4956956 | 1354 | 411.5 | 115.4 | -70.2 |
HER-24-03 | 511132 | 4956841 | 1277 | 516.3 | 115.12 | -69.8 |
HER-24-04 | 511203 | 4956466 | 1359 | 484.3 | 90.17 | -68.4 |
HER-24-05 | 511237 | 4955710 | 1255 | 601.0 | 59.6 | -75.3 |
HER-24-06 | 511206 | 4956076 | 1361 | 637.6 | 239.36 | -75.6 |
HER-24-08 | 511289 | 4956754 | 1364 | 721.8 | 81.5 | -70.2 |
Sample Analysis and QAQC
样本分析和质量控制
All drill core samples were prepped and analyzed at MSA Labs in Langley, British Columbia, an ISO 17025 and ISO 9001 certified laboratory. Samples were dried and crushed to 2mm, from which a 250g sub-sample split was then pulverized to 85% passing a 75 micron sieve. Following preparation, assays were determined by the IMS-230 method. A 0.25g aliquot of the prepared pulp was digested in a 4-acid solution consisting of hydrochloric, nitric, perchloric and hydrofluoric acids. 4-acid is a near total digest and only the most highly resistant minerals are not dissolved. The resulting solution was analyzed via ICP-MS and ICP-ES for 48 elements and was corrected for inter-element spectral interferences. Lower detection limits for this procedure are 0.01 ppm for silver, 0.5 ppm for lead, 2 ppm for zinc, and 0.2 ppm for copper. Mercury is not reported due to volatilization in reaction with hydrofluoric acid and gold is not reported due to the small, 0.25g aliquot size being insufficient to overcome the nugget effect.
所有钻孔岩芯样品在位于不列颠哥伦比亚省兰利的MSA实验室进行预处理和分析,该实验室是ISO 17025和ISO 9001认证实验室。样品被干燥并粉碎至2mm,然后取250g亚样本分裂,并粉碎至85%经过75微米筛网。在准备完成后,通过IMS-230方法确定化验。准备好的浆样中取0.25g,用盐酸、硝酸、高氯酸和氢氟酸组成的4酸溶液消解。4酸是近乎完全消解,只有最抗蚀矿物不溶解。然后用ICP-MS和ICP-ES分析结果溶液中的48个元素,并进行元素间的光谱干扰修正。该过程的最低检出限为0.01 ppm的银,0.5 ppm的铅,2 ppm的锌和0.2 ppm的铜。由于汞在与氢氟酸反应中挥发,金由于0.25g的样本量太小,无法克服金块效应而未报告。
Gold was analyzed by FAS-111, a 30-gram fire assay fusion with AAS finish. No significant results were reported.
黄金通过FAS-111进行分析,这是一个30克的火试金法熔合并AAS表面完成。未报告出现重要结果。
Samples with initial results beyond the upper detection limit of the IMS-230 method were analyzed by procedures ICF-6Ag, ICF-6Cu, ICF-6Pb and ICF-6Zn. The thresholds are 100 ppm for silver, and >1% for copper, lead and zinc.
初步结果超过IMS-230方法的上限检测限的样品将通过ICF-6Ag,ICF-6Cu,ICF-6Pb和ICF-6Zn程序进行分析。银的阈值为100 ppm,铜、铅和锌的阈值为>1%。
MSA Labs employs internal quality control standards, duplicates and blank samples at set frequencies.
MSA实验室采用内部质量控制标准,在设定频率下进行重复和空白样品。
Blind certified reference materials (CRMs) and blank samples were systematically inserted by the Company into the sample stream and analyzed as part of the Company's quality assurance/quality control protocol.
公司将盲目认证参考材料(CRMs)和空白样品系统地插入样品流程中,并作为公司质量保证/质量控制协议的一部分进行分析。
Qualified Person
资格人员
The scientific and technical information in this news release has been reviewed and approved for disclosure by Christopher Longton BS, CPG, Hercules' Vice President, Exploration. Mr. Longton is a "Qualified Person" for Hercules Metals within the meaning of National Instrument 43-101 - Standards of Disclosure for Mineral Projects.
本新闻资讯的科学和技术信息已由Hercules Metals的副总裁勘探Christopher Longton BS、CPG审核并批准披露。 Longton先生是符合43-101号国家规定矿产项目披露标准的“合格人员” 。
About Hercules Metals Corp.
关于Hercules Metals corp.
Hercules Metals Corp. (TSXV: BIG) (OTCQB: BADEF) (FSE: C0X) is an exploration Company focused on developing Idaho's newest copper and silver district.
Hercules Metals Corp. (创业公司: BIG) (OTCQB: BADEF) (FSE: C0X) 是一家专注于开发爱达荷州最新铜和白银地区的勘探公司。
The 100% owned Hercules Project located northwest of Cambridge, hosts the newly discovered Leviathan porphyry copper system, one of the most important discoveries in the region to date. The Company is well positioned for growth through continued drilling, supported by extensive historical and current exploration and a strategic investment by Barrick Gold.
位于剑桥西北部的Hercules项目是公司100%拥有的,其中包含新发现的Leviathan斑岩铜系统,是该地区迄今为止最重要的发现之一。公司通过持续的钻探和广泛的历史和现有勘探以及巴里克黄金的战略投资,为增长做好了充分的准备。
With the potential for significant scale, the Company's management and board of directors aims to build on its proven track record which includes the discovery and development of numerous precious metals projects worldwide.
凭借潜在的显著特点,该公司的管理层和董事会旨在继续构建其已证实的轨迹,包括全球众多贵金属项目的发现和开发。
For further information please contact:
要了解更多信息,请联系:
Nisha Hasan
Investor Relations
Telephone +1 (604) 425-1408
Email: nisha@herculesmetals.com
Nisha Hasan
投资者关系
电话+1(604)425-1408
电子邮件:nisha@herculesmetals.com
Chris Paul
CEO & Director
Telephone +1 (604) 670-5527
Email: chris@herculesmetals.com
Chris Paul
CEO&董事
电话+1(604)670-5527
电子邮件:chris@herculesmetals.com
This news release does not constitute an offer to sell or a solicitation of an offer to buy any of the securities in the United States. Any securities referred to herein have not and will not be registered under the United States Securities Act of 1933, as amended (the "U.S. Securities Act") or any state securities laws and may not be offered or sold within the United States or to U.S. Persons unless registered under the U.S. Securities Act and applicable state securities laws of an exemption from such registration is available.
本新闻稿并不构成出售或要约购买任何证券的提议。本页所述的任何证券均未且不会在根据美国证券法(1933年版)或任何州证券法的规定进行登记,也不得在美国境内或向美国人出售或销售,除非在美国证券法和适用州证券法下进行了登记或免登记的豁免。
Disclaimer for Forward-Looking Information
关于前瞻性信息的免责声明本新闻稿可能含有前瞻性声明。这些声明包括涉及公司的管理团队和董事会,Sanoukou Gold Project,Tilemi磷酸盐项目以及公司未来计划和目标的影响。这些声明基于目前的预期和假设,面临着风险和不确定性。实际结果可能因为在我们的中期和最近的年度财务报告的管理讨论和分析部分或其他报告和文件及TSX Venture Exchange和适用的加拿大证券法规中所讨论的因素而有所不同。我们不承担任何更新前瞻性声明的义务,除非法律规定。
This news release contains certain information that may be deemed "forward-looking information" with respect to the Company within the meaning of applicable securities laws. Such forward-looking information involves known and unknown risks, uncertainties and other factors that may cause the Company's actual results, performance or achievements, or developments in the industry to differ materially from the anticipated results, performance or achievements expressed or implied by such forward-looking information. Forward-looking information includes statements that are not historical facts and are generally, but not always, identified by the words "expects," "plans," "anticipates," "believes," "intends," "estimates," "projects," "potential" and similar expressions, or that events or conditions "will," "would," "may," "could" or "should" occur. Forward-looking information contained in this press release may include, without limitation, the expected execution of future exploration programs on the Property; assay results of future drill holes; results of operations, and the expected financial performance of the Company.
本新闻发布可能包含与公司有关的“前瞻性信息”,该信息根据适用的证券法意义而言涉及已知和未知的风险、不确定性和其他因素,这些因素可能导致公司的实际结果、绩效或成就或行业发展与预期结果、绩效或成就有所不同。前瞻性信息包括非历史事实的陈述,通常但不总是以“预计”、“计划”、“预测”、“相信”、“意图”、“估计”、“项目”、“潜在”和类似表达方式进行标识,或事件或条件“将”、“会”、“可能”、“可能”或“应该”发生。本新闻发布中的前瞻性信息可能包括但不限于,关于该财产未来勘探项目的预期执行情况、未来钻探孔的化验结果、经营业绩和公司的预期财务表现。
Although the Company believes the forward-looking information contained in this news release is reasonable based on information available on the date hereof, by its nature, forward-looking information involves assumptions and known and unknown risks, uncertainties and other factors which may cause our actual results, level of activity, performance or achievements, or other future events, to be materially different from any future results, performance or achievements expressed or implied by such forward-looking information.
尽管公司认为本新闻稿中包含的前瞻性信息基于今天的信息是合理的,但前瞻性信息的本质是涉及假设、已知和未知的风险、不确定性和其他因素,这可能会导致我们的实际结果、活动水平、业绩或成就或其他未来事件与任何未来结果、业绩或成就明显不同,这些结果、业绩或成就是前瞻性信息所表述或暗示的。
Examples of such assumptions, risks and uncertainties include, without limitation, assumptions, risks and uncertainties associated with general economic conditions; the Covid-19 pandemic; adverse industry events; the receipt of required regulatory approvals and the timing of such approvals; that the Company maintains good relationships with the communities in which it operates or proposes to operate, future legislative and regulatory developments in the mining sector; the Company's ability to access sufficient capital from internal and external sources, and/or inability to access sufficient capital on favorable terms; mining industry and markets in Canada and generally; the ability of the Company to implement its business strategies; competition; the risk that any of the assumptions prove not to be valid or reliable, which could result in delays, or cessation in planned work, risks associated with the interpretation of data, the geology, grade and continuity of mineral deposits, the possibility that results will not be consistent with the Company's expectations, as well as other assumptions risks and uncertainties applicable to mineral exploration and development activities and to the Company, including as set forth in the Company's public disclosure documents filed on the SEDAR+ website at .
此类假设、风险和不确定性的例子包括但不限于与一般经济状况、COVID-19大流行、不利行业事件、获得所需监管批准及其时间、公司与其运营所在或拟在运营的社区保持良好关系、采矿业部门未来的立法和监管发展、公司从内部和外部渠道获得足够的资本或无法以优惠条件获得足够的资本; 加拿大和全球的采矿业和市场;公司实施其业务策略的能力; 立场决定无效或不可靠的风险,这可能会导致计划工作推迟或停止,与数据解释相关的风险,矿物质储量地质学、等级和连续性的可能性,结果可能与公司的预期不一致,以及适用于矿物勘探和开发活动以及公司的其他假设风险和不确定性,包括在公司在SEDAR+网站上提交的公开披露文件中所载明的内容。
THE FORWARD-LOOKING INFORMATION CONTAINED IN THIS PRESS RELEASE REPRESENTS THE EXPECTATIONS OF HERCULES METALS AS OF THE DATE OF THIS PRESS RELEASE AND, ACCORDINGLY, IS SUBJECT TO CHANGE AFTER SUCH DATE. READERS SHOULD NOT PLACE UNDUE IMPORTANCE ON FORWARD-LOOKING INFORMATION AND SHOULD NOT RELY UPON THIS INFORMATION AS OF ANY OTHER DATE. WHILE HERCULES METALS MAY ELECT TO, IT DOES NOT UNDERTAKE TO UPDATE THIS INFORMATION AT ANY PARTICULAR TIME EXCEPT AS REQUIRED IN ACCORDANCE WITH APPLICABLE LAWS.
此新闻稿中包含的前瞻性信息代表Hercules Metals截至本新闻稿日发布的预期,因此可能随之发生变化。读者不应太重视前瞻性信息,并不应将此信息视为任何其他日期的信息。虽然Hercules Metals可能会选择,在符合适用法律规定的情况下更新此信息,但在任何特定时间都没有此义务。
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 adequacy or accuracy of this press release.
TSX Venture Exchange及其监管服务提供商(如TSX Venture Exchange政策中所定义)对本新闻稿的充分性或准确性不承担责任。
_________________________
1 Drill hole HER-24-07 was lost in Jurassic cover. HER-24-05 returned no significant results.
_________________________
1号钻孔HER-24-07在侏罗纪盖层中丢失。HER-24-05未返回任何显著结果。