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F3 Intersects Radioactivity Across Multiple Zones

F3 Intersects Radioactivity Across Multiple Zones

F3 在多个区域与放射性相交
newsfile ·  04/16 16:25

Uncovers Significant and Favorable Reverse Faulting at B1

在 B1 发现重大且有利的反向故障

Kelowna, British Columbia--(Newsfile Corp. - April 16, 2024) - F3 Uranium Corp (TSV: FUU) (OTCQB: FUUFF) ("F3" or "the Company") is pleased to announce the completion of the first 30 drill holes (totaling 12,100 meters) of its 2024 winter drill program. JR Zone has continued to yield high grade intercepts, such as PLN23-137 which intersected mineralization within a 18.5m interval including 1.25m of composite off-scale mineralization (>65,535 cps), while the Company's focus has expanded to the discovery of additional mineralized zones along the A1 and B1 structures, with numerous radioactive intercepts along both shears, generating additional drill targets.

不列颠哥伦比亚省基洛纳--(Newsfile Corp.-2024 年 4 月 16 日)- F3 铀公司 (TSV: FUU) (OTCQB: FUFF) (”F3“或”该公司“)很高兴地宣布,其2024年冬季钻探计划的前30个钻孔(总长12,100米)已完成。JR Zone 继续产生高品位截距,例如 PLN23-137,它在 18.5 米的间隔内与矿化区相交,包括 1.25m 的复合离层矿化 (>65,535 个百分点), 而该公司的重点已扩展到在A1和B1结构沿线发现其他矿化带, 大量的放射性截获 沿着两条剪刀,生成额外的钻探目标。

Ray Ashley, President, commented: "We are very pleased with the results from this winter's drill program, and the number of new targets generated along both the A1 and B1 systems. The scale of reverse faulting in conjunction with related massive graphitic fault structures at B1 was unexpected and supports our theory that the majority of B1 drilling south of line 2850 may have been in the footwall of this fault, where intense alteration and frequent radioactive intercepts suggest the presence of a nearby source. At A1, considerable undrilled gaps remain open for exploration, such as the 800m gap where hole PLN24-140 was drilled, returning over 11,000 cps on the gamma probe within the shear. With a large-scale gravity survey underway, in addition to a joint inversion of ground EM and resistivity geophysics, we continue to develop new targets for the drill program slated to resume in May after a short pause for seasonal breakup."

总裁雷·阿什利评论说:“我们对今年冬天钻探计划的结果以及A1和B1系统生成的新目标数量感到非常满意。地下1层的反向断层以及相关的巨大石墨岩断层结构的规模是出乎意料的,这支持了我们的理论,即2850号线以南的B1钻探的大部分可能都在该断层的脚下,那里的剧烈变化和频繁的放射性截获表明附近存在着来源。在 A1,仍有大量未钻探的间隙可供勘探,例如钻孔 PLN24-140 时的 800 米间隙,剪切层内的伽玛探针返回超过 11,000 cps。随着大规模重力调查的进行,除了联合反演地面电磁和电阻率地球物理学之外,我们还继续为钻探计划制定新的目标,该计划将在因季节性分裂而短暂停顿后于5月恢复。”

A1 Shear Zone

A1 剪切区

A1, which is host to the high-grade JR Zone, contains several significant undrilled sections: PLN24-140 was collared on line 2325S, within a 800m long area along the A1 with no previous drilling, and intersected up to 560 cps on the handheld spectrometer, and up to 11,000 cps on the QL40 GRA gamma probe. Prior to PLN24-140, gamma probe readings greater than 10,000 cps had not been encountered outside of the JR Zone, resulting in a priority target for the program resumption in May.

A1 是高级 JR 区域的所在地,包含几个重要的未钻探路段:PLN24-140 在 2325S 号线上,在 A1 沿线 800 米长的区域内进行钻探,在手持式光谱仪上相交的距离高达 560 cps,在 QL40 GRA 伽玛探测器上相交的距离高达 11,000 cps。在 PLN24-140 之前,在 JR 区域以外没有遇到超过 10,000 cps 的伽玛探测器读数,因此该计划的优先目标是在 5 月恢复。

B1 Shear Zone

B1 剪切区

At B1, a total of nine drill holes targeted the intense alteration and structure intersected during the 2023 drill campaign, as these features often occur in close proximity to high grade uranium mineralization. Five drill holes intersected anomalous radiation over a total strike length of 600m. Drill hole PLN24-133 targeted an area near the northern end of the B1 shear zone where a significant change in Athabasca Sandstone depth was expected and encountered a basement wedge in excess of 120m downhole thickness within the sandstone exhibiting strong alteration and deformation (see Cross Section for line 2850S below). Figure 1 shows the lower structural Athabasca Unconformity at a depth of 291.2m, with significantly structurally disturbed sandstone beneath. An extremely graphitic structure was intersected within this wedge (see Figure 2), and in all follow up drilling on section and along strike. Drilling on line 2850S with PLN24-138 and PLN24-142 and step out drilling on line 2820S with PLN24-144 confirmed that the strike of this very significant offsetting reverse structure appears to be discordant to the B1 main shear, and likely related to the Harrison fault, a significant regional structure which played an important role in the development of the Athabasca basin.

在B1,共有九个钻孔瞄准了2023年钻探活动中相交的强烈变化和结构,因为这些特征通常发生在高品位铀矿化附近。五个钻孔在总冲击长度为 600 米的范围内与异常辐射相交。PLN24-133 钻孔瞄准了 B1 剪切带北端附近的区域,预计那里的阿萨巴斯卡砂岩深度将发生重大变化,在砂岩中遇到了一个井下厚度超过 120 米的地下楔子,表现出强烈的变化和变形(参见下文 2850S 线的横截面)。图 1 显示了深度为 291.2 米处的下部结构不整合,下方的砂岩结构受到严重干扰。该楔块内有一种极其石墨化的结构(参见图 2),总而言之,在截面和沿走向上都进行了后续钻探。使用 PLN24-138 和 PLN24-142 在 2850S 线上钻探,使用 PLN24-144 在 2820S 号线上进行分段钻探,证实了这个非常重要的抵消反向结构的撞击似乎与 B1 主切变不一致,可能与哈里森断层有关,哈里森断层是一个重要的区域结构,在阿萨巴斯卡盆地的开发中发挥了重要作用。

This magnitude of displacement along wide and strongly graphitic basement faults is highly favorable, and structurally comparable to what is seen at some of the largest uranium deposits in the basin. This now provides a number of drill targets for high grade uranium mineralization including the unconformity contacts, as well as the basement "nose" at the terminus of the wedge within the sandstone, with a focus on where the A1 and B1 structures intercept this offsetting reverse fault.

这种沿着宽而坚固的石墨基底断层的位移量非常有利,并且在结构上与盆地中一些最大的铀矿床的位移量相当。现在,这为高品位铀矿化提供了许多钻探目标,包括不整合接触点,以及砂岩内楔形末端的基底 “鼻子”,重点是A1和B1结构在何处拦截这种抵消性反向断层。

Drilling Highlights

钻探亮点

PLN24-137 (line 040S): JR Zone

PLN24-137 (040S 线):JR 区域

  • 18.5m interval with mineralization from 201.0m - 219.5m, including
    • 1.25m composite off-scale radioactivity (> 65,535 cps) between 214.5m and 216.0m
  • 18.5 米 矿化间隔从 201.0 米到 219.5 米,包括
    • 1.25m 复合离标放射性(> 65,535 cps) 在 214.5m 和 216.0m 之间

A1 Radioactive Drilling Intercepts:

A1 放射性钻探截获物:

PLN24-117 (line 000): JR Zone

PLN24-117 (000 号线):JR 区域

  • 8.0m mineralized interval from 261.0m - 269.0m
  • 8.0 米 从 261.0m 到 269.0m 的矿化间隔

PLN24-119 (line 045S): JR Zone

PLN24-119 (045S 线):JR 区域

  • 3.5m mineralized interval from 256.0m - 259.5m, and
  • 4.0m mineralized interval from 265.0m - 269.0m
  • 3.5 米 矿化间隔从 256.0 米到 259.5 米,
  • 4.0 米 从 265.0 米到 269.0 米的矿化间隔

PLN24-128 (line 030S): JR Zone

PLN24-128 (030S 线):JR 区域

  • 1.5m mineralized interval from 216.0m - 217.5m, and
  • 0.5m mineralized interval from 271.5m - 272.0m
  • 1.5 米 从 216.0m 到 217.5m 的矿化间隔,
  • 0.5m 矿化间隔从 271.5 米到 272.0 米

PLN24-129 (line 015S): JR Zone

PLN24-129 (015S 线):JR 区域

  • 0.5m mineralized interval from 208.0m - 208.5m, and
  • 5.5m mineralized interval from 215.0m - 220.5m
  • 0.5 米 从 208.0m 到 208.5m 的矿化间隔,
  • 5.5 米 从 215.0 米到 220.5 米的矿化间隔

PLN24-131 (line 795S): A1 Exploration

PLN24-131 (第 795S 行):A1 探索

  • 0.5m mineralized interval from 252.5m - 253.0m
  • 0.5 米 矿化间隔从 252.5 米到 253.0 米

PLN24-139 (line 795S): A1 Exploration

PLN24-139 (第 795S 行):A1 探索

  • 0.5m mineralized interval from 143.0m - 143.5m, and
  • 0.5m mineralized interval from 191.0m - 191.5m
  • 0.5 米 矿化间隔从 143.0 米到 143.5 米,
  • 0.5 米 从 191.0m 到 191.5m 的矿化间隔

PLN24-140 (line 2325S): A1 Exploration

PLN24-140 (第 2325S 行):A1 探索

  • 0.5m mineralized interval from 175.5m - 176.0m, and
  • 0.5m mineralized interval from 216.5m - 217.0m
  • 0.5 米 矿化间隔从 175.5m 到 176.0m,
  • 0.5 米 矿化间隔从 216.5m 到 217.0m

B1 Radioactive Drilling Intercepts:

B1 放射性钻探截获物:

PLN24-122 (line 3450S): B1 Exploration

PLN24-122(第 3450S 行): B1 探索

  • 0.5m mineralized interval from 596.5m - 597.0m
  • 0.5 米 矿化间隔从 596.5m 到 597.0m

PLN24-135 (line 3240S): B1 Exploration

PLN24-135(第 3240S 行): B1 探索

  • 0.5m mineralized interval from 380.5m - 381.0m, and
  • 2.5m mineralized interval from 387.0m - 389.5m, and
  • 0.5m mineralized interval from 642.0m - 642.5m
  • 0.5 米 矿化间隔从 380.5m 到 381.0m,
  • 2.5 米 矿化间隔从 387.0 米到 389.5 米,
  • 0.5 米 从 642.0m 到 642.5m 的矿化间隔

PLN24-138 (line 2850S): B1 Exploration

PLN24-138(第 2850S 行): B1 探索

  • 0.5m mineralized interval from 473.0m - 473.5m, and
  • 2.0m mineralized interval from 533.5m - 535.5m
  • 0.5 米 矿化间隔从 473.0m 到 473.5m,
  • 2.0 米 矿化间隔从 533.5m 到 535.5m

PLN24-141 (line 3240S): B1 Exploration

PLN24-141(第 3240S 行): B1 探索

  • 0.5m mineralized interval from 464.0m - 464.5m, and
  • 0.5m mineralized interval from 546.0m - 546.5m
  • 0.5 米 从 464.0 米到 464.5 米的矿化间隔,以及
  • 0.5 米 矿化间隔从 546.0m 到 546.5m

PLN24-142 (line 2850S): B1 Exploration

PLN24-142(第 2850S 行): B1 探索

  • 0.5m mineralized interval from 319.0m - 391.5m
  • 0.5 米 从 319.0m 到 391.5m 的矿化间隔

Natural gamma radiation in the drill core that is reported in this news release was measured in counts per second (cps) using a handheld Radiation Solutions RS-125 scintillometer. The Company considers greater than 300 cps on the handheld spectrometer as anomalous, >10,000 cps as high grade and greater than 65,535 cps as off-scale. The reader is cautioned that scintillometer readings are not directly or uniformly related to uranium grades of the rock sample measured and should be used only as a preliminary indication of the presence of radioactive materials. Samples from the drill core are split in half on site and are standardized at 0.5m lengths. One half of the split sample will be submitted to SRC Geoanalytical Laboratories (an SCC ISO/IEC 17025: 2005 Accredited Facility) in Saskatoon, SK. for lithogeochemical analysis using their "Uranium Package."

本新闻稿中报道的钻芯中的自然伽玛辐射是使用手持式 Radiation Solutions RS-125 闪烁仪以每秒计数 (cps) 测量的。该公司认为,手持式光谱仪上超过300cps是异常的,超过10,000cps是高等级,超过65,535cps是超标的。请读者注意,闪烁仪读数与所测岩石样品的铀等级没有直接或统一的关系,只能作为放射性物质存在的初步指示。钻芯样品在现场分成两半,标准化长度为 0.5m。一半的拆分样本将提交给位于堪萨斯卡通的SRC地质分析实验室(SCC ISO/IEC 17025:2005认证设施),使用他们的 “铀包装” 进行岩石地球化学分析。

All depth measurements reported are down-hole and true thicknesses are yet to be determined.

报告的所有深度测量值均为井下测量,真实厚度尚未确定。

Table 1. Drill Hole Summary and Handheld Spectrometer Results

表 1.钻孔摘要和手持式光谱仪结果

Collar Information * Hand-held Spectrometer Results On Mineralized Drillcore (>300 cps / >0.5m minimum) Athabasca Unconformity Depth (m) Total Drillhole Depth (m)
Hole ID Section Line Easting Northing Elevation Az Dip From
(m)
To
(m)
Interval
(m)
Max CPS
PLN24-117 000 587655.7 6410710.8 544.7 54.1 -54.4 261.00 261.50 0.50 310 221.7 329.0
261.50 262.50 1.00 <300
262.50 263.00 0.50 410
263.00 263.50 0.50 450
263.50 264.00 0.50 570
264.00 264.50 0.50 1000
264.50 265.00 0.50 1900
265.00 265.50 0.50 320
265.50 266.00 0.50 310
266.00 266.50 0.50 <300
266.50 267.00 0.50 3100
267.00 267.50 0.50 810
267.50 268.00 0.50 470
268.00 268.50 0.50 <300
268.50 269.00 0.50 320
PLN24-118 3240S 589686.9 6408181.3 534.7 54.0 -70.7 B1 MSZ Exploration; no radioactivity >300 cps 351.9 632.0
PLN24-119 045S 587688.1 6410678.8 545.3 54.2 -62.1 256.00 256.50 0.50 370 n.a. 326.0
256.50 257.00 0.50 1300
257.00 257.50 0.50 670
257.50 258.00 0.50 720
258.00 258.50 0.50 <300
258.50 259.00 0.50 480
259.00 259.50 0.50 380
265.00 265.50 0.50 750
265.50 266.00 0.50 950
266.00 268.00 2.00 <300
268.00 268.50 0.50 320
268.50 269.00 0.50 480
PLN24-120 150S 587778.3 6410614.7 545.6 53.9 -59.8 A1 MSZ exploration; no radioactivity >300 cps n.a. 302.0
PLN24-121 090N 587651.1 6410818.9 545.4 52.4 -60.2 A1 MSZ exploration; no radioactivity >300 cps 203.2 317.0
PLN24-122 3450S 589879.7 6408062.4 538.4 55.2 -66.0 596.50 597.00 0.50 470 341.8 683.0
PLN24-123 015N 587736.6 6410788.7 545.6 54.9 -65.5 A1 MSZ exploration; no radioactivity >300 cps n.a. 305.0
PLN24-124 240S 587846.9 6410598.5 546.0 78.6 -66.7 A1 MSZ exploration; no radioactivity >300 cps 158.2 326.0
PLN24-125 090N 587634.3 6410806.6 545.2 51.9 -60.2 A1 MSZ exploration; no radioactivity >300 cps 203.9 359.0
PLN24-126 3555S 589878.4 6407928.7 532.2 55.2 -61.3 B1 MSZ Exploration; no radioactivity >300 cps 353.2 558.5
PLN24-127 045S 587794.4 6410756.0 545.7 54.8 -60.5 A1 MSZ exploration; no radioactivity >300 cps 199.0 302.0
PLN24-128 030S 587749.6 6410742.4 545.7 53.5 -60.4 216.00 216.50 0.50 490 202.0 290.0
216.50 217.00 0.50 2000
217.00 217.50 0.50 3000
271.50 272.00 0.50 300
PLN24-129 015S 587747.0 6410758.9 545.7 54.2 -61.5 208.00 208.50 0.50 300 200.5 322.0
215.00 215.50 0.50 1400
215.50 216.00 0.50 5200
216.00 216.50 0.50 7600
216.50 216.65 0.15 4200
216.65 217.00 0.35 16500
217.00 217.50 0.50 5600
217.50 217.65 0.15 3600
217.65 218.00 0.35 15100
218.00 218.50 0.50 2900
218.50 219.00 0.50 <300
219.00 219.50 0.50 480
219.50 220.00 0.50 490
220.00 220.50 0.50 470
PLN24-130 1005S 589527.1 6410832.3 539.1 55.1 -65.0 PNG-6A MSZ Exploration; no radioactivity >300 cps n.a. 392.0
PLN24-131 795S 588288.1 6410188.1 532.5 55.0 -65.1 252.50 253.00 0.50 410 123.8 374.0
PLN24-132 090S 587708.0 6410637.5 545.6 55.0 -58.1 A1 MSZ exploration; no radioactivity >300 cps n.a. 335.0
PLN24-133 2850S 589506.9 6408515.5 529.3 55.0 -71.7 B1 MSZ Exploration; no radioactivity >300 cps 164.1, 290.0,313.3 503.0
PLN24-134 435S 587868.1 6410326.1 530.7 53.6 -64.6 A1 MSZ exploration; no radioactivity >300 cps n.a. 440.0
PLN24-135 3240S 589630.4 6408142.8 535.4 52.1 -70.3 380.50 381.00 0.50 370 351.2 647.0
387.00 387.50 0.50 850
387.50 388.00 0.50 720
388.00 388.50 0.50 520
388.50 389.00 0.50 1100
389.00 389.50 0.50 730
642.00 642.50 0.50 560
PLN24-136 630S 588165.6 6410302.3 536.3 54.4 -58.7 A1 MSZ exploration; no radioactivity >300 cps n.a. 323.0
PLN24-137 040S 587780.2 6410753.3 545.6 55.4 -75.0 201.00 201.50 0.50 330 184.4 305.0
201.50 202.00 0.50 580
202.00 202.50 0.50 380
202.50 203.00 0.50 1000
203.00 203.50 0.50 1000
203.50 204.00 0.50 2200
204.00 204.50 0.50 820
204.50 205.00 0.50 680
205.00 205.50 0.50 940
205.50 206.00 0.50 1500
206.00 206.50 0.50 3300
206.50 207.00 0.50 860
207.00 207.50 0.50 1400
207.50 208.00 0.50 1400
208.00 208.50 0.50 1100
208.50 209.00 0.50 990
209.00 209.50 0.50 760
209.50 210.00 0.50 520
210.00 210.50 0.50 570
210.50 211.00 0.50 390
211.00 211.50 0.50 330
211.50 212.00 0.50 310
212.00 212.50 0.50 360
212.50 213.00 0.50 <300
213.00 213.50 0.50 580
213.50 214.00 0.50 540
214.00 214.50 0.50 8000
214.50 215.00 0.50 65535
215.00 215.25 0.25 63200
215.25 215.50 0.25 65535
215.50 216.00 0.50 65535
216.00 216.20 0.20 14700
216.20 216.50 0.30 4800
216.50 217.00 0.50 520
217.00 217.50 0.50 1700
217.50 219.00 1.50 <300
219.00 219.50 0.50 310
PLN24-138 2850S 589493.8 6408505.0 530.1 51.8 -75.6 473.00 473.50 0.50 380 165.3, 273.9, 313.0 563.0
533.50 534.00 0.50 300
534.00 534.50 0.50 620
534.50 535.00 0.50 320
535.00 535.50 0.50 430
PLN24-139 795S 588289.3 6410186.5 532.6 54.0 -58.9 143.00 143.50 0.50 320 134.6 296.0
191.00 191.50 0.50 330
PLN24-140 2325S 589060.2 6408857.6 543.9 55.7 -60.2 175.50 176.00 0.50 330 n.a. 275.0
216.50 217.00 0.50 560
PLN24-141 3240S 589622.4 6408136.8 535.5 -72.9 57.7 464.00 464.50 0.50 350 350.9 665.0
546.00 546.50 0.50 410
PLN24-142 2850S 589560.6 6408554.7 530.5 -76.3 53.5 391.00 391.50 0.50 1200 162.6 517.5
PLN24-143 2325S 589059.0 6408856.8 543.9 -67.4 54.7 A1 MSZ exploration; no radioactivity >300 cps n.a. 326.0
PLN24-144 2820S 589485.3 6408554.4 529.6 54.1 -74.8 B1 MSZ exploration; no radioactivity >300 cps 149.5, 304.0, 304.6 479.0
PLN24-145 2325S 589095.3 6408883.2 543.9 52.9 -65.6 A1 MSZ exploration; no radioactivity >300 cps n.a. 299.0
项圈信息 * 矿化钻芯上的手持式光谱仪结果(>300 cps/>0.5m 最低) 阿萨巴斯卡不合格深度 (m) 钻孔总深度 (m)
洞 ID 分区线 向东 北方 海拔 Az 来自
(m)

(m)
间隔
(m)
最大CPS
PLN24-117 000 587655.7 6410710.8 544.7 54.1 -54.4 261.00 261.50 0.50 310 221.7 329.0
261.50 262.50 1.00
262.50 263.00 0.50 410
263.00 263.50 0.50 450
263.50 264.00 0.50 570
264.00 264.50 0.50 1000
264.50 265.00 0.50 1900
265.00 265.50 0.50 320
265.50 266.00 0.50 310
266.00 266.50 0.50
266.50 267.00 0.50 3100
267.00 267.50 0.50 810
267.50 268.00 0.50 470
268.00 268.50 0.50
268.50 269.00 0.50 320
PLN24-118 3240 589686.9 6408181.3 534.7 54.0 -70.7 B1 MSZ 探索;无放射性 >300 cps 351.9 632.0
PLN24-119 045S 587688.1 6410678.8 545.3 54.2 -62.1 256.00 256.50 0.50 370 不是。 326.0
256.50 257.00 0.50 1300
257.00 257.50 0.50 670
257.50 258.00 0.50 720
258.00 258.50 0.50
258.50 259.00 0.50 480
259.00 259.50 0.50 380
265.00 265.50 0.50 750
265.50 266.00 0.50 950
266.00 268.00 2.00
268.00 268.50 0.50 320
268.50 269.00 0.50 480
PLN24-120 150 587778.3 6410614.7 545.6 53.9 -59.8 A1 MSZ 探索;无放射性 >300 cps 不是。 302.0
PLN24-121 090N 587651.1 6410818.9 545.4 52.4 -60.2 A1 MSZ 探索;无放射性 >300 cps 203.2 317.0
PLN24-122 3450 589879.7 6408062.4 538.4 55.2 -66.0 596.50 597.00 0.50 470 341.8 683.0
PLN24-123 015N 587736.6 6410788.7 545.6 54.9 -65.5 A1 MSZ 探索;无放射性 >300 cps 不是。 305.0
PLN24-124 240 秒 587846.9 6410598.5 546.0 78.6 -66.7 A1 MSZ 探索;无放射性 >300 cps 158.2 326.0
PLN24-125 090N 587634.3 6410806.6 545.2 51.9 -60.2 A1 MSZ 探索;无放射性 >300 cps 203.9 359.0
PLN24-126 3555 589878.4 6407928.7 532.2 55.2 -61.3 B1 MSZ 探索;无放射性 >300 cps 353.2 558.5
PLN24-127 045S 587794.4 6410756.0 545.7 54.8 -60.5 A1 MSZ 探索;无放射性 >300 cps 199.0 302.0
PLN24-128 030S 587749.6 6410742.4 545.7 53.5 -60.4 216.00 216.50 0.50 490 202.0 290.0
216.50 217.00 0.50 2000
217.00 217.50 0.50 3000
271.50 272.00 0.50 300
PLN24-129 015S 587747.0 6410758.9 545.7 54.2 -61.5 208.00 208.50 0.50 300 200.5 322.0
215.00 215.50 0.50 1400
215.50 216.00 0.50 5200
216.00 216.50 0.50 7600
216.50 216.65 0.15 4200
216.65 217.00 0.35 16500
217.00 217.50 0.50 5600
217.50 217.65 0.15 3600
217.65 218.00 0.35 15100
218.00 218.50 0.50 2900
218.50 219.00 0.50
219.00 219.50 0.50 480
219.50 220.00 0.50 490
220.00 220.50 0.50 470
PLN24-130 1005 589527.1 6410832.3 539.1 55.1 -65.0 PNG-6A MSZ 探索;无放射性 >300 cps 不是。 392.0
PLN24-131 795 588288.1 6410188.1 532.5 55.0 -65.1 252.50 253.00 0.50 410 123.8 374.0
PLN24-132 090S 587708.0 6410637.5 545.6 55.0 -58.1 A1 MSZ 探索;无放射性 >300 cps 不是。 335.0
PLN24-133 2850S 589506.9 6408515.5 529.3 55.0 -71.7 B1 MSZ 探索;无放射性 >300 cps 164.1、290.0、313.3 503.0
PLN24-134 435 587868.1 6410326.1 530.7 53.6 -64.6 A1 MSZ 探索;无放射性 >300 cps 不是。 440.0
PLN24-135 3240 589630.4 6408142.8 535.4 52.1 -70.3 380.50 381.00 0.50 370 351.2 647.0
387.00 387.50 0.50 850
387.50 388.00 0.50 720
388.00 388.50 0.50 520
388.50 389.00 0.50 1100
389.00 389.50 0.50 730
642.00 642.50 0.50 560
PLN24-136 630S 588165.6 6410302.3 536.3 54.4 -58.7 A1 MSZ 探索;无放射性 >300 cps 不是。 323.0
PLN24-137 040S 587780.2 6410753.3 545.6 55.4 -75.0 201.00 201.50 0.50 330 184.4 305.0
201.50 202.00 0.50 580
202.00 202.50 0.50 380
202.50 203.00 0.50 1000
203.00 203.50 0.50 1000
203.50 204.00 0.50 2200
204.00 204.50 0.50 820
204.50 205.00 0.50 680
205.00 205.50 0.50 940
205.50 206.00 0.50 1500
206.00 206.50 0.50 3300
206.50 207.00 0.50 860
207.00 207.50 0.50 1400
207.50 208.00 0.50 1400
208.00 208.50 0.50 1100
208.50 209.00 0.50 990
209.00 209.50 0.50 760
209.50 210.00 0.50 520
210.00 210.50 0.50 570
210.50 211.00 0.50 390
211.00 211.50 0.50 330
211.50 212.00 0.50 310
212.00 212.50 0.50 360
212.50 213.00 0.50
213.00 213.50 0.50 580
213.50 214.00 0.50 540
214.00 214.50 0.50 8000
214.50 215.00 0.50 65535
215.00 215.25 0.25 63200
215.25 215.50 0.25 65535
215.50 216.00 0.50 65535
216.00 216.20 0.20 14700
216.20 216.50 0.30 4800
216.50 217.00 0.50 520
217.00 217.50 0.50 1700
217.50 219.00 1.50
219.00 219.50 0.50 310
PLN24-138 2850S 589493.8 6408505.0 530.1 51.8 -75.6 473.00 473.50 0.50 380 165.3、273.9、313.0 563.0
533.50 534.00 0.50 300
534.00 534.50 0.50 620
534.50 535.00 0.50 320
535.00 535.50 0.50 430
PLN24-139 795 588289.3 6410186.5 532.6 54.0 -58.9 143.00 143.50 0.50 320 134.6 296.0
191.00 191.50 0.50 330
PLN24-140 2325 589060.2 6408857.6 543.9 55.7 -60.2 175.50 176.00 0.50 330 不是。 275.0
216.50 217.00 0.50 560
PLN24-141 3240 589622.4 6408136.8 535.5 -72.9 57.7 464.00 464.50 0.50 350 350.9 665.0
546.00 546.50 0.50 410
PLN24-142 2850S 589560.6 6408554.7 530.5 -76.3 53.5 391.00 391.50 0.50 1200 162.6 517.5
PLN24-143 2325 589059.0 6408856.8 543.9 -67.4 54.7 A1 MSZ 探索;无放射性 >300 cps 不是。 326.0
PLN24-144 2820 589485.3 6408554.4 529.6 54.1 -74.8 B1 MSZ 探索;无放射性 >300 cps 149.5、304.0、304.6 479.0
PLN24-145 2325 589095.3 6408883.2 543.9 52.9 -65.6 A1 MSZ 探索;无放射性 >300 cps 不是。 299.0

Figure 1: PLN24-133 (line 2850S): Lower Structural Athabasca Unconformity

图 1:PLN24-133(第 2850S 行):下部结构阿萨巴斯卡不符合度

Figure 2: PLN24-144 (line 2820S): Basement wedge hosted graphitic fault

图 2:PLN24-144(第 2820S 行):地下室楔形托管的石墨故障

The Company contracted Patterson Geophysics Inc. ("Patterson") to complete 65 line-km of fixed loop SQUID electromagnetic survey coverage (FL-SQUID-EM) over the B1 target area, to measure the induced electromagnetic ("EM") fields associated with sandstone alteration effects as well as the response to dipping basement conductors. A trace of this conductor model projected to surface is shown on Map 1, and notably deviated in strike from the original B1 conductor model. The data collected by Patterson was used to target and successfully drill the large graphitic structure associated with the basement wedge intersected in PLN24-133.

该公司与帕特森地球物理公司签订了合同(”帕特森“) 在 B1 目标区域完成 65 行千米的固定回路 SQUID 电磁勘测覆盖范围 (FL-SQUID-EM),测量感应电磁 (”EM“) 与砂岩蚀变效应以及对基底导体浸入的反应相关的场地。该导体模型投射到表面的轨迹如图 1 所示,其走向与最初的 B1 导体模型明显偏差。帕特森收集的数据被用来瞄准并成功钻探与 PLN24-133 中相交的基底楔形相关的大型石墨结构。

Dias Geophysical Ltd. completed the 3D DC resistivity and induced polarization (DCIP) over the northern A1 area hosting the JR Zone, and the B1 area, using their DIAS32 system. F3 has engaged a contractor to process and perform 3D inversion modeling of resistivity and EM geophysical data jointly and in conjunction with all the drilling data to better resolve thin basement hosted conductors.

迪亚斯地球物理有限公司使用其 DIAS32 系统完成了 JR 区域北部 A1 区域和 B1 区域的三维直流电阻率和感应极化 (DCIP)。F3已聘请承包商共同处理和执行电阻率和电磁地球物理数据的三维反演建模,并结合所有钻探数据,以更好地解析薄的基底托管导体。

Initial Exploration Services Inc. has been contracted to conduct a ground gravity survey over the southwest section of the PLN and Broach properties. The survey is currently focusing on surveying the lakes and waterbodies using ice cover, with the remainder of the survey area to be infilled in late spring, and F3 aims to disclose those results once all the data has been collected and interpreted.

Initial Exploration Services Inc.已签订合同,对PLN和Broach地产的西南部分进行地面重力测量。该调查目前的重点是利用冰盖对湖泊和水体进行调查,剩余的调查区域将在春末填充,而F3的目标是在收集和解释了所有数据后披露这些结果。

About Patterson Lake North:

关于北帕特森湖:

The Company's 4,078-hectare 100% owned Patterson Lake North property (PLN) is located just within the south-western edge of the Athabasca Basin in proximity to Fission Uranium's Triple R and NexGen Energy's Arrow high-grade world class uranium deposits which is poised to become the next major area of development for new uranium operations in northern Saskatchewan. PLN is accessed by Provincial Highway 955, which transects the property, and the new JR Zone uranium discovery is located 23km northwest of Fission Uranium's Triple R deposit. The PLN property is part of the PLN Project which also includes the Minto and Broach properties.

该公司占地4,078公顷的100%持股的北帕特森湖地产(PLN)位于阿萨巴斯卡盆地的西南边缘,靠近裂变铀公司的Triple R和NexGen Energy的Arrow高品位世界级铀矿床,这些矿床有望成为萨斯喀彻温省北部新铀业务的下一个主要开发领域。PLN可通过横穿该物业的955号省道进入,新的JR区域铀矿发现位于裂变铀的三R矿床西北23公里处。PLN房产是PLN项目的一部分,该项目还包括明托和布罗奇的房产。

Qualified Person

合格人员

The technical information in this news release has been prepared in accordance with the Canadian regulatory requirements set out in National Instrument 43-101 and approved on behalf of the company by Raymond Ashley, P.Geo., President & COO of F3 Uranium Corp, a Qualified Person. Mr. Ashley has verified the data disclosed.

本新闻稿中的技术信息是根据National Instrument 43-101中规定的加拿大监管要求编制的,并由合格人员F3铀公司总裁兼首席运营官雷蒙德·阿什利代表公司批准。阿什利先生已经证实了披露的数据。

About F3 Uranium Corp.

关于 F3 铀公司

F3 Uranium is a uranium project generator and exploration company, focusing on projects in the Athabasca Basin, home to some of the world's largest high grade uranium discovery. F3 Uranium currently has 18 projects in the Athabasca Basin. Several of F3's projects are near large uranium discoveries including Triple R, Arrow and Hurricane.

F3 Uranium是一家铀项目发电商和勘探公司,专注于阿萨巴斯卡盆地的项目,该盆地是世界上一些最大的高品位铀发现地。F3 Uranium目前在阿萨巴斯卡盆地有18个项目。F3的几个项目接近大型铀的发现,包括Triple R、Arrow和Hurricane。

Forward Looking Statements

前瞻性陈述

This news release contains certain forward-looking statements within the meaning of applicable securities laws. All statements that are not historical facts, including without limitation, statements regarding future estimates, plans, programs, forecasts, projections, objectives, assumptions, expectations or beliefs of future performance, including statements regarding the suitability of the Properties for mining exploration, future payments, issuance of shares and work commitment funds, entry into of a definitive option agreement respecting the Properties, are "forward-looking statements." These forward-looking statements reflect the expectations or beliefs of management of the Company based on information currently available to it. Forward-looking statements are subject to a number of risks and uncertainties, including those detailed from time to time in filings made by the Company with securities regulatory authorities, which may cause actual outcomes to differ materially from those discussed in the forward-looking statements. These factors should be considered carefully and readers are cautioned not to place undue reliance on such forward-looking statements. The forward-looking statements and information contained in this news release are made as of the date hereof and the Company undertakes no obligation to update publicly or revise any forward-looking statements or information, whether as a result of new information, future events or otherwise, unless so required by applicable securities laws.

本新闻稿包含适用证券法所指的某些前瞻性陈述。所有非历史事实的陈述,包括但不限于关于未来估计、计划、预测、预测、目标、假设、预期或对未来业绩的看法的陈述,包括关于该物业是否适合采矿勘探、未来付款、发行股票和工作承诺资金、签订有关房产的最终期权协议的陈述,均为 “前瞻性陈述”。根据公司目前掌握的信息,这些前瞻性陈述反映了公司管理层的期望或信念。前瞻性陈述存在许多风险和不确定性,包括公司不时向证券监管机构提交的文件中详细说明的风险和不确定性,这可能会导致实际结果与前瞻性陈述中讨论的结果存在重大差异。应仔细考虑这些因素,并提醒读者不要过分依赖此类前瞻性陈述。本新闻稿中包含的前瞻性陈述和信息自发布之日起作出,除非适用的证券法有要求,否则公司没有义务公开更新或修改任何前瞻性陈述或信息,无论是由于新信息、未来事件还是其他原因。

The TSX Venture Exchange and the Canadian Securities Exchange have not reviewed, approved or disapproved the contents of this press release, and do not accept responsibility for the adequacy or accuracy of this release.

多伦多证券交易所风险交易所和加拿大证券交易所尚未审查、批准或不批准本新闻稿的内容,也不对本新闻稿的充分性或准确性承担任何责任。

F3 Uranium Corp.
750-1620 Dickson Avenue
Kelowna, BC V1Y9Y2
Contact Information
Investor Relations
Telephone: 778 484 8030
Email: ir@f3uranium.com

F3 铀公司
750-1620 迪克森大道
不列颠哥伦比亚省基洛纳 V1Y9Y2
联系信息
投资者关系
电话:778 484 8030
电子邮件:ir@f3uranium.com

ON BEHALF OF THE BOARD
"Dev Randhawa"
Dev Randhawa, CEO

代表董事会
“Dev Randhawa”
首席执行官 Dev Randhawa

See 2 plan maps and B1 cross section showing basement wedge below.

参见下面的 2 张平面图和显示地下室楔形的 B1 横截面。

See drill cross sections at PLN Project|F3 Uranium Corp.

在以下位置查看钻孔横截面 PLN 项目|F3 铀公司

Map 1: PLN Winter 2024 Drill Program - Update: Scintillometer Results

地图 1:PLN 2024 年冬季钻探计划-更新:闪烁仪结果

Cross Section B1 - Line 2850S Showing Large Scale Basement Wedge

横截面 B1-显示大型地下室楔形的 2850S 线

Map 2: PLN 2024 Winter Drill Program - JR Zone Scintillometer Results

地图 2:2024 年 PLN 冬季演习计划-JR 区域闪烁仪结果

译文内容由第三方软件翻译。


以上内容仅用作资讯或教育之目的,不构成与富途相关的任何投资建议。富途竭力但不能保证上述全部内容的真实性、准确性和原创性。
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