- Published: 05 September 2017
- Written by Editor
Silvercorp Reports High-Grade Mineralization Discovery beneath Current Production Levels within Major Vein Structures at HZG, HPG and LMW Mines, Ying Mining District, China
The first half of 2017 drilling programs at HZG, HPG and LMW mines are briefly summarized in the following table:
Major Target Veins |
Meters Drilled |
Holes Completed |
Samples Collected |
Holes with |
Holes |
Holes |
LMW Mine |
||||||
LM12, LM13, LM14, LM19, LM19W1, LM19W2, LM30W |
9,622 |
28 |
515 |
35 |
35 |
19 |
HPG Mine |
||||||
H12, H21, H29 |
7,310 |
23 |
245 |
23 |
23 |
12 |
HZG Mine |
||||||
HZ10, HZ11, HZ20, HZ22 |
4,743 |
15 |
255 |
18 |
18 |
7 |
*Including holes drilled in late 2016. |
The 2017 exploration tunneling, comprising drifting, crosscutting and raising, was driven along and across major mineralized vein structures to upgrade drill defined mineral resources and test for new parallel and splay structures.
The first half of 2017 tunneling programs at HZG, HPG and LMW mines are briefly summarized in the following table:
Major Target Veins |
Total Tunneling |
Channel |
Drift |
Total Mineralization Exposed by Drift Tunneling |
|||||
Length (m) |
Average |
Ag (g/t) |
Pb (%) |
Zn (%) |
Au |
||||
HPG Mine |
|||||||||
H5, H12E, H13, H15, H17 |
2,254 |
702 |
1,207 |
347 |
1.22 |
70 |
4.63 |
2.46 |
0.94 |
HZG Mine |
Cu |
||||||||
HZ20, HZ22, HZ22W, HZ23, HZ26, HZ27 |
1,956 |
686 |
995 |
473 |
0.73 |
681 |
1.47 |
0.36 |
1.12 |
LMW Mine |
|||||||||
LM7, LM8_4, LM12_1, LM14, LM14_2, LM16, LM17, LM19W1, LM19W2, LM31, T24, T27E |
3,779 |
1,059 |
2,232 |
415 |
0.70 |
296 |
4.61 |
0.32 |
Tables 1 and 2 below list assay results of some selected mineralized intersections in drill holes and mineralized zones exposed in drift tunnels in the first half of 2017 exploration programs.
Table 1: Selected drilling results from the 2017 drilling programs at HZG, HPG and LMW mines |
||||||||||||
Hole ID |
From |
To |
Elevation |
Interval |
True Width |
Ag |
Pb |
Zn |
Vein |
Remarks |
||
HZG Mine |
Cu (%) |
|||||||||||
ZK14902 |
56.83 |
57.24 |
595 |
0.41 |
0.16 |
95 |
3.07 |
0.32 |
0.11 |
HZ22E |
Test* |
|
ZK11905 |
181.46 |
181.98 |
762 |
0.53 |
0.30 |
144 |
0.26 |
0.13 |
0.16 |
HZ20Branch |
Test |
|
185.73 |
187.33 |
761 |
1.60 |
0.91 |
999 |
1.84 |
0.38 |
1.12 |
HZ20 |
Test |
||
ZK15108 |
280.84 |
282.08 |
370 |
1.24 |
0.67 |
372 |
0.44 |
0.13 |
0.16 |
HZ20 |
Test |
|
283.80 |
284.24 |
367 |
0.44 |
0.23 |
127 |
0.13 |
0.47 |
0.58 |
HZ20W-Branch |
Test |
||
ZK11702 |
258.85 |
259.15 |
739 |
0.31 |
0.23 |
437 |
0.30 |
0.12 |
0.66 |
HZ20 |
Test |
|
ZK11507 |
252.83 |
254.39 |
767 |
1.56 |
1.35 |
223 |
1.20 |
0.22 |
0.50 |
HZ20 |
Test |
|
ZK4309 |
254.19 |
254.86 |
505 |
0.67 |
0.64 |
72 |
1.07 |
0.53 |
0.54 |
HZ22E |
Test |
|
354.55 |
356.44 |
450 |
1.89 |
1.63 |
279 |
0.10 |
0.06 |
0.09 |
HZ26 |
Test |
||
HPG Mine |
Au (g/t) |
|||||||||||
ZK3106 |
178.33 |
179.09 |
516 |
0.76 |
0.46 |
20 |
8.43 |
2.45 |
0.05 |
H12W |
Test |
|
ZK2909 |
3.25 |
7.88 |
626 |
4.63 |
1.40 |
24 |
0.20 |
0.01 |
1.63 |
H12E |
Infill** |
|
10.31 |
10.71 |
621 |
0.40 |
0.22 |
40 |
2.95 |
0.16 |
1.19 |
H12E_Branch |
Test |
||
ZK1213 |
163.12 |
163.74 |
602 |
0.62 |
0.30 |
6 |
1.30 |
0.03 |
1.54 |
H18_1 |
Test |
|
ZK2709 |
122.72 |
123.12 |
528 |
0.40 |
0.24 |
51 |
6.05 |
0.09 |
0.03 |
H12E2 |
Test |
|
ZK3615 |
201.15 |
202.24 |
501 |
1.09 |
0.82 |
4 |
0.05 |
0.01 |
2.13 |
H21 |
Stepout*** |
|
ZK3107 |
3.08 |
4.99 |
626 |
1.91 |
0.67 |
6 |
0.06 |
0.01 |
2.04 |
H12E |
Infill |
|
ZK3107 |
224.15 |
228.30 |
445 |
4.15 |
2.20 |
22 |
4.30 |
0.28 |
0.05 |
H12 |
Stepout |
|
ZK4101 |
105.00 |
105.48 |
588 |
0.48 |
0.40 |
24 |
1.54 |
1.30 |
0.28 |
H12E1 |
Test |
|
231.22 |
231.56 |
537 |
0.34 |
0.31 |
52 |
1.75 |
0.92 |
0.99 |
H12E |
Test |
||
ZK4102 |
271.37 |
272.15 |
456 |
0.78 |
0.64 |
45 |
1.95 |
1.22 |
0.53 |
H12E |
Test |
|
ZK2530 |
303.72 |
305.13 |
444 |
1.41 |
0.94 |
17 |
0.14 |
0.12 |
1.92 |
H29 |
Test |
|
ZK3901 |
102.88 |
103.60 |
579 |
0.72 |
0.47 |
17 |
0.44 |
0.29 |
1.72 |
H12E1 |
Test |
|
251.28 |
251.76 |
511 |
0.48 |
0.36 |
139 |
8.31 |
0.72 |
0.13 |
H12E |
Test |
||
ZK3903 |
83.24 |
83.85 |
562 |
0.61 |
0.29 |
27 |
4.07 |
1.92 |
0.16 |
H12 |
Test |
|
LMW Mine |
||||||||||||
ZKX130W01 |
150.80 |
151.49 |
863 |
0.69 |
0.69 |
186 |
0.26 |
0.43 |
LM8_5 |
Test |
||
ZKX107N01 |
464.55 |
467.68 |
519 |
3.13 |
2.17 |
279 |
1.55 |
0.06 |
LM14 |
Stepout |
||
ZKX109N01 |
499.27 |
499.72 |
472 |
0.45 |
0.24 |
69 |
3.85 |
0.66 |
LM14 |
Stepout |
||
ZKX103N04 |
390.39 |
392.54 |
407 |
2.15 |
1.27 |
106 |
1.08 |
0.11 |
LM14 |
Test |
||
ZKX100N01 |
245.07 |
246.70 |
512 |
1.63 |
0.93 |
195 |
0.34 |
0.05 |
LM14 |
Test |
||
ZKX02Q00 |
244.05 |
248.27 |
823 |
4.22 |
3.67 |
146 |
3.93 |
0.14 |
LM17 |
Test |
||
ZKX13063 |
140.42 |
143.14 |
784 |
2.72 |
1.88 |
290 |
0.33 |
0.15 |
LM19 |
Test |
||
ZKX12261 |
183.45 |
183.71 |
803 |
0.26 |
0.18 |
96 |
2.17 |
0.18 |
LM19 |
Test |
||
ZKX107N01 |
117.73 |
119.58 |
726 |
1.85 |
1.18 |
225 |
0.31 |
0.09 |
LM19W3 |
Test |
||
ZKX11651 |
100.51 |
101.27 |
537 |
0.76 |
0.68 |
99 |
12.02 |
0.05 |
LM32E |
Test |
||
ZKX116F03 |
60.92 |
61.87 |
583 |
0.95 |
0.82 |
1,174 |
8.34 |
0.78 |
LM33 |
Test |
||
ZKX120F01 |
77.14 |
77.95 |
562 |
0.81 |
0.58 |
645 |
2.58 |
0.56 |
LM33 |
Test |
||
*Test: intersections in open areas without known mineralization for new resource delineation |
||||||||||||
**Infill: intersections within known resource blocks for resource upgrade |
||||||||||||
***Stepout: intersections adjacent to existing resource blocks for resource expansion |
Table 2: Selected mineralized zones exposed by drift tunneling at HZG, HPG and LMW mines |
||||||||
Tunnel ID |
Vein |
Level |
Length |
True |
Ag |
Pb |
Zn |
|
HZG Mine |
Cu (%) |
|||||||
PD820-HZ20-650-123-NYM |
HZ20 |
650 |
30 |
0.45 |
1,865 |
0.51 |
0.54 |
3.32 |
PD820-HZ20-600-133-SYM |
HZ20 |
600 |
66 |
1.21 |
1,389 |
0.40 |
0.67 |
2.78 |
PD820-HZ20-600-133-NYM |
HZ20 |
600 |
48 |
0.70 |
553 |
0.27 |
0.42 |
1.75 |
PD820-HZ20-550-133-SNYM |
HZ20 |
550 |
20 |
0.67 |
320 |
0.22 |
0.78 |
1.32 |
PD820-HZ22-770-N1-SNYM |
HZ22 |
770 |
25 |
0.81 |
873 |
0.60 |
0.23 |
0.62 |
PD810-HZ22-700-49-NYM |
HZ22 |
700 |
60 |
0.59 |
172 |
1.62 |
0.22 |
0.33 |
PD810-HZ22W-700-47A-SYM |
HZ22W |
700 |
20 |
0.33 |
95 |
6.28 |
0.11 |
0.12 |
PD820-HZ23-650-47A-SYM |
HZ23 |
650 |
95 |
0.91 |
474 |
2.86 |
0.14 |
0.21 |
PD810-HZ27-700-47A-NYM |
HZ27 |
700 |
30 |
0.50 |
390 |
1.40 |
0.24 |
0.20 |
HPG Mine |
Au (g/t) |
|||||||
PD2-H17-580-4NYM |
H17 |
580 |
55 |
0.91 |
31 |
4.35 |
0.04 |
0.26 |
PD3-H17-310-32NYM |
H17 |
310 |
24 |
2.27 |
162 |
10.79 |
3.02 |
1.40 |
PD3-H17-251-10NYM |
H17 |
251 |
61 |
1.53 |
66 |
5.44 |
2.59 |
1.13 |
PD3-H17-200-12NYM |
H17 |
200 |
50 |
0.82 |
63 |
3.42 |
0.33 |
0.58 |
PD3-H17-150-10NYM |
H17 |
150 |
102 |
1.55 |
48 |
2.90 |
3.77 |
0.94 |
LMW Mine |
||||||||
XPDS-LM17-770-26SYM |
LM17 |
770 |
50 |
0.78 |
115 |
1.97 |
0.18 |
|
XPDS-LM17-675-26SYM |
LM17 |
675 |
25 |
0.74 |
83 |
1.53 |
0.06 |
|
XPDN-LM19W1-700-3NYM |
LM19W1 |
700 |
80 |
1.01 |
514 |
3.22 |
0.86 |
|
SJ969-LM19W2-600-120NYM |
LM19W2 |
600 |
35 |
0.47 |
41 |
4.92 |
0.12 |
|
SJ969-LM19W2-500-114SYM |
LM19W2 |
500 |
20 |
1.05 |
369 |
3.71 |
0.29 |
|
PD969SJ-LM31-550-114SNYM |
LM31 |
550 |
20 |
0.36 |
291 |
6.92 |
0.21 |
|
PD969SJ-LM31-550-114NYM |
LM31 |
550 |
40 |
0.46 |
230 |
6.56 |
0.06 |
|
PD924-T27E-924-112SYM |
T27E |
924 |
45 |
0.84 |
194 |
4.48 |
0.38 |
Quality Control
Drill cores are NQ size. Drill core samples, limited by apparent mineralization contact or shear/alteration contact, were split into halves by saw cutting. The half cores are stored in the Company's core shacks for future reference and checking, and the other half core samples are shipped in security sealed bags to the Chengde Huakan 514 Geology and Minerals Test and Research Institute in Chengde, Hebei Province, China, 226 km northeast of Beijing, and the Zhenzhou Nonferrous Exploration Institute Lab in Zhengzhou, Henan Province, China, and both labs are ISO9000 certified analytical lab. For analysis the sample is dried and crushed to minus 1mm and then split to a 200-300g subsample which is further pulverized to minus 200 mesh. Two subsamples are prepared from the pulverized sample. One is digested with aqua regia for gold analysis with AAS, and the other is digested with two-acids for analysis of silver, lead, zinc and copper with AAS.
Channel samples are collected along sample lines perpendicular to the mineralized vein structure in exploration tunnels. Spacing between sampling lines is typically 5m along strike. Both the mineralized vein and the altered wall rocks are cut with continuous chisel chipping. Sample length ranges from 0.2m to more than 1m, depending on the width of the mineralized vein and the mineralization type. Channel samples are prepared and assayed with AAS at Silvercorp's mine laboratory (Ying Lab) located at the mill complex in Luoning County, Henan Province, China. The Ying lab is officially accredited by the Quality and Technology Monitoring Bureau of Henan Province and is qualified to provide analytical service. The channel samples are dried, crushed and pulverized. A 200g sample of minus 160 mesh is prepared for assay. A duplicate sample of minus 1mm is made and kept at the laboratory archives. Gold is analysed by fire assay with AAS finish, and silver, lead, zinc and copper are assayed by two-acid digestion with AAS finish.
A routine quality assurance/quality control (QA/QC) procedure is adopted to monitor the analytical quality at the lab. Certified reference materials (CRMs), pulp duplicates and blanks are inserted into each lab batch of samples. QA/QC data at the lab are attached to the assay certificates for each batch of samples.
The Company maintains its own comprehensive QA/QC program to ensure best practices in sample preparation and analysis of the exploration samples. Project geologists regularly insert CRM, field duplicates and blanks to each batch of core samples to monitor the sample preparation and analysis procedures at the labs. The analytical quality of the labs is further evaluated with external checks by sending about 3-5% of the pulp samples to higher level labs to check for lab bias.
Data from both the Company's and the labs' QA/QC programs are reviewed on a timely basis by project geologists.
Ruijin Jiang, P. Geo, reviewed the exploration data and prepared the scientific and technical information regarding exploration results contained herein. Alex Zhang, P. Geo, VP exploration of the Company, is the Qualified Person on the project as defined under National Instrument 43-101 and he has verified and approved the contents of this news release.
About Silvercorp
Silvercorp is a low-cost silver-producing Canadian mining company with multiple mines in China. The Company's vision is to deliver shareholder value by focusing on the acquisition of under developed projects with resource potential and the ability to grow organically. For more information, please visit our website at www.silvercorp.ca.
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Certain of the statements and information in this press release constitute "forward-looking statements" within the meaning of the United States Private Securities Litigation Reform Act of 1995 and "forward-looking information" within the meaning of applicable Canadian provincial securities laws. Any statements or information that express or involve discussions with respect to predictions, expectations, beliefs, plans, projections, objectives, assumptions or future events or performance (often, but not always, using words or phrases such as "expects", "is expected", "anticipates", "believes", "plans", "projects", "estimates", "assumes", "intends", "strategies", "targets", "goals", "forecasts", "objectives", "budgets", "schedules", "potential" or variations thereof or stating that certain actions, events or results "may", "could", "would", "might" or "will" be taken, occur or be achieved, or the negative of any of these terms and similar expressions) are not statements of historical fact and may be forward-looking statements or information. Forward-looking statements or information relate to, among other things: the price of silver and other metals; the accuracy of mineral resource and mineral reserve estimates at the Company's material properties; the sufficiency of the Company's capital to finance the Company's operations; estimates of the Company's revenues and capital expenditures; estimated production from the Company's mines in the Ying Mining District; timing of receipt of permits and regulatory approvals; availability of funds from production to finance the Company's operations; and access to and availability of funding for future construction, use of proceeds from any financing and development of the Company's properties.
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