DOCSLIB.ORG

Mine Name ; -Iw~~~~~~~~~ Location

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Mine Name ; -Iw~~~~~~~~~ Location CONTACT INFORMATION Mining Records Curator Arizona Geological Survey 1520 West Adams St. Phoenix, AZ 85007 602-771-1601 http://www.azgs.az.gov [email protected] The following file is part of the Arizona Department of Mines and Mineral Resources Mining Collection ACCESS STATEMENT These digitized collections are accessible for purposes of education and research. We have indicated what we know about copyright and rights of privacy, publicity, or trademark. Due to the nature of archival collections, we are not always able to identify this information. We are eager to hear from any rights owners, so that we may obtain accurate information. Upon request, we will remove material from public view while we address a rights issue. CONSTRAINTS STATEMENT The Arizona Geological Survey does not claim to control all rights for all materials in its collection. These rights include, but are not limited to: copyright, privacy rights, and cultural protection rights. The User hereby assumes all responsibility for obtaining any rights to use the material in excess of “fair use.” The Survey makes no intellectual property claims to the products created by individual authors in the manuscript collections, except when the author deeded those rights to the Survey or when those authors were employed by the State of Arizona and created intellectual products as a function of their official duties. The Survey does maintain property rights to the physical and digital representations of the works. QUALITY STATEMENT The Arizona Geological Survey is not responsible for the accuracy of the records, information, or opinions that may be contained in the files. The Survey collects, catalogs, and archives data on mineral properties regardless of its views of the veracity or accuracy of those data. , I ' I " PRINTED: 09/05/2002 ARIZONA DEPARTMENT OF MINES AND MINERAL RESOURCES AlMILS DATA PRIMARY NAME: TUNGSTITE ALTERNATE NAMES: TUNGSTENITE MOHAVE COUNTY MILS NUMBER: 507A LOCATION: TOWNSHIP 18 N RANGE 15 W SECTION 8 QUARTER NW LATITUDE: N 34DEG 57MIN 06SEC LONGITUDE: W 113DEG 53MIN 31SEC TOPO MAP NAME: WABAYUMA PEAK - 7.5 MIN CURRENT STATUS: PAST PRODUCER COMMODITY: TUNGSTEN BIBLIOGRAPHY: ADMMR TUNGSTENITE MINE FILE ADMMR MOHAVE CUSTOM MILL PROJECT BLM UNIT RESOURCE ANALYSIS STEP 3 & 4, HUALAP AI UNIT DALE. V.B. "TUNSTEN DPSTS OF GILA. YAVAPAI, & MOHAVE CO. Al" USBM IC 8078 P 87-88; 1961 CONFLICTING LOC. INFO: ADMMR FILE - SEC. 7 10/07/85 ARIZONA DEPARTMENT OF MINES AND MINERAL RESOURCES FILE DATA PRIMARY NAME: TUNGSTITE ALTERNATE NAMES: TUNGSTENITE MOHAVE COUNTY MILS NUMBER: 507A LOCATION: TOWNSHIP 18 N RANGE 15 W SECTION 8 QTR. NW LATITUDE:N 34DEG 57MIN 06SEC LONGITUDE:W 113DEG 53MIN 31SEC TOPO MAP NAME: WABAYUMA PEAK - 7.5 MIN CURRENT STATUS: PAST PRODUCER COMMODITY: TUNGSTEN-(M)W03 CONTENT-PRIM. BIBLIOGRAPHY: ADMMR TUNGSTENITE MINE FILE ADMMR MOHAVE CUSTOM MILL PROJECT BLM UNIT RESOURCE ANALYSIS STEP 3 & 4, HUALAP AI UNIT DALE, V.B. "TUNSTEN DPSTS OF GILA, YAVAPAI, & MOHAVE CO. AZ" USBM IC 8078 P 87-88; 1961 CONFLICTING LOC. INFO: ADMMR FILE - SEC. 7 +, Name of Mi ne or Pros ' ", Townsl Range Section Priority Tungstite Group l8N l5W 7 A Principal Minerals: 1:250,000 Quad "7 . 5 I - 15 I Qua d Scheelite, Wolframite Williams Wabayuma Peak Associated Minerals: District Principal Product Quartz Mavnard Tungsten-Molybden~ Type of Operation: County State Type of Deposit Underground: Shaft, Adits Mohave Ar. Vein Ownership or Controlling Interest: J.F. Moore, P.o. Box 2, Yucca, Ar. (1961)1 Access: From Yucca, Ar., proceed 17 miles east on McKenzie Wash Road. Bear right at ......::= the Boriana Mine and continue 0.5 miles. Turn right on jeep trail and travel 2 miles . ~ Mine is not shown on topographic quadrangle. ·Sc- :: -o Structural Control or Geological Association: U "Tungsten mineralization appears to be closely associated with numerous quartz stringers in green ledge. The 'green ledge' is composed of fine to coarse-grained green amphibole. It is 4 to 6 feet wide and is traceable by intermittent outcrops for several hundred feet. At the prospect workings the ledge strikes N100E and dips about 800S. Tungsten is present as scattered fine-grained scheelite and as one of the wolframite group minerals. The green ledge referred to previously is in an altered schist and gneiss near a granite outcrop."l Age of Mineralization: Production History Geochemical Analyse~ Located claims (1948) Assayl 4.08% to 5.39% W03 . :::. ~.. =o ~ References 1) Dale (1961) p. 87-88. I i 5-27-57 - This properity idle. MARK GEMMILL see TUNGSTITE GROUP - I.C. 8078, p. 87 9/3/71 - Met Mr. J. F. Moore of Yucca who has 17 unpatented tungsten claims, some of which adjoin the Boriana property. He is in­ terested in getting them patented. Will send him the information on patent application. G. W/ Weekly report. NINE NJu'fE: -' . LOCATION: _l!LQ:lL4~~~L~~(}_l~_~~-t.-~~ -~ OHNER AND lOR LEASEE~ . ADDHJLSS: ~ .c Ibs COPfER ~~f~~;..;u; """",;, ,,,,,~ .,..... .~ J . ...~ ZINC «()!iHl~~~i) ~ i.t~L,'" l.t} <1't, Yf.~·: ' If you have qi'~f~~to I!rl;ne Pl$~rri!i ' ~t·v~ :V(iiir ~i>ti,liW,£e 1)£ t.11 i!i Amount or ~tal (nam f{~ each meta.l) that yo:u -eoutcl' pfbdu);~f}'J ;,h one year (a.i~ter al~U:)'li\f1.n g 60 daijts to g~~t $tar' t~d)i.fthere . w.~re pr~nJ1iWJ1B , a ·R~y.epl.)e .$e.nt :X4~~J~keti ,prit:eso Wattle ' .amount, v·r1tb a l<)w premiuln, and a.l101.trl'b:(~t :.'~ · lti·]>gri ' lY!:tiilfrrit~1~r :$uoh~r$' ~ COP I::H~l· at 22~¢ pIt/. s' ~)¢ prfJmjAntlo." ~ ''''' :i(~ ~~' co' ~ " ''' ' + ' $ . ~oocr;ooo Lb~1 ~ ('"i,.,.o· ·.I'\' h". ~"II\. a+ -:''l?~11~' 'p'·.'.n..· ;"...". In·/, l: "t' :'~ ~ 'f~..\l : hn\ · . !1 ·l:::C)·';·i {"Of)' 1"~, t" 'V t .. t'f£....... IJ' ~.........,~~ ;...v. •. ,. .. ~.6 ·1 r _:.-i-...;;o t;"J!U... ...l;l:rl' .a .\;; ~ ~ ' 1:\: " .,. , " · ~·~f ~ .. J : V",V ·"l ...i~ £'k~:"J~·.Q (A) Doyouth1nk a l~ea. -sot~!~bl~ de~~:eJ~ ~ptii~t~t ,. 'lilpg: !~~tanl'Witt7.tJ"d ptQdu(Ji$ So justif:i,ed tonnage t,:t~ (~Olii~11~r 'eial ore a,t above;tlfi:ini.;~{? ~~~~~~~~~~"",",,' ~~~.,;;-.;. (B) Wii~h a. 'p~em:tum prfo .~ J~~f:~~~ ~~i~'mi~~d:" t:01; . 6ti~·: i~n:q·)p~\l~ld · you car14Y out $ueh a d$Vf;iloptrltH'ld~. Pt'4;Jgi~;am jf¢*i4:riJ;161!'?' Whs.t p.ramiwn.? How about, a. Stage 1: .-.;" stage 2~ If rem.llta of (b'illir~ (ol<t·': ~~drithoui~ fh111ing) just:tfy u~1~~,n~g;ro~1(t·", developmi)nt and/or' 'p::r'Qd'ueti6n erII"d.plnent!! SaXIl1€l t~o b~ ~'btain~ble ; vi~~ a mort.gage loan Oll i')r.ope~.. tu" SUGGESTIONS: DA1fn: r·'··'·........ ---·---- --- ' ;,~ " ......... -···:··.: .. · ·' ··· -'-~·.:.· : · .:.: .. ,_. · ··· ·- · ·- ' ···- ·~- ... t . ! , ~: ;~? '; . [/! ; i':l f,: ~ :I .,1 , L l'" . \ DEPARTMENT OF MINERAL RESOURC~S ! / " .1 State of Arizona MINE OWNER'S REPORT d ;~f\ ! 25 ~ . .. Date J~::'·-~:J..:~~:t:9;;~ I. Mine ~i' ...........f~ .....~.=-" _ .. • 2. LocatlOn. s;c Z~1 .T:p~3 RangeI~tf!:~e~ ~wi:~~~.A A R1;Z o Distance O( .D/~ DirectiO~q ........ RO~d Condition ... LJ,Af.. ...~~'Y' .. \\" ...... v. Mining District & County:_ _____ .. ____ _ _:- -----_QvL .... ___ .. ____ .... __ ~~..... " !~t--- - -~- (-- --- - -:----- - ------ - : :::::~a~~u .Of u~'~~. n;;Q£:::::~~:i:lI5 : ... ·.: ... ·: .. · Address: ____ _.. ________ __~~~~-I----/~~ --- -.- ----- -/------- --- . ~~~----~~~-~-cJ -- -- ---- ............. ___ .. _______ ._____ ._____ ____ ______ _ 6, Operator: __ __ ______ ______ __ __. _________ . ______ . ___ . ___ . ____________________________ .. _. __ _____________________ .---.---.-----.------- ---- .--- --- -- -------- ----- ---- .. ----------------.---. A.ddress: ________________ c ______ ____ . _______ _________ _ --.-- __ __ ] ___ .. ----------------()_~. II-- . - .----' -- ----- ----- --- -- -------- -------- ---- ---- .. -- -----------------:-... ------ --- ---.-- -- I ' , ! ~ " 7. Principal Minerals: __ ______ . __ ___ . _______~./c.--- -- ~~/~: - ----------- ---------:------------~--.---- ... --- .---- --- ...... ------ .. _._. __ .. _____ . ______ _ 8. ::t::t:~ .~f .. ~I~l.~S.:·.·. ··.. .< .~ .:· .· ..·.··.·.··L., .. ;J~::et~~t~~.·.t-k1J..-----. :~:~- ··2~. I~.ce.:::: .. :: ........ :.:::::.:: ... :.:::. e;-- " , '--- ----~ ~ 9 . Type Of. Su.rround. ing Terrain: ____ .1" ... -- --------j---_" -.j-... - ------ _ ____ _ . .------<il. _~_ \\_, ""' ! ~-~' ~-- ----- - ---- :~ . - -- -----~~ •. ' · ' , ) 'l. " ____ _:f!2. ._____ }~. - ~~-~~l?'!"-- ~~~--- -- - - --- /-J"ihte:.d-- -'1~:':"~L~ .- -- --- C~ - _____ :____ __./ -144~~. _ ..__ ._______ _ T " - ~q. t '<l .(!i~-e,<~4'. :. .•~ . /~ .. ~ . ~l~~.cd.: ........ (/ t7 d --- ---- ---- ---.--.-,-- -'--------------------------------- --------·----------M---·--i ·--- ·::- -;-- ·----- -·---- ·-·----- ---.---'-- -.-----.M[-:ti-·.. --- ---- --- ---- - -,----- -. --.~----.------------. -- -- ---- .. .. -- .. ---.-- ... ., - ..' 'th::t \\:.""" ,n 10. ,... G.. e, 0. 10.9y .& Mmera,hza. " .... ~10: . :·c-\ · ·tJ.. ......<l. .- ~~I , i . --~----p-.-~, - .--'~" . ~ ,-- ----.-~--- _: - . -. , -. - - -- -.\'.~ . - ~'~:~. '-- -.- --- .. --- ""'" ~~- I ' , iJ=. ' .' U ){.: ...[;,.-::t~":. ,f{-~~'!":!b",~ .•-t1-- , ---~~~~-- ;- . ·-~· ?~W.~~ . ~ ............ .~ , --.---e · - -. ---- ~~--}1:1.~ ~ t fI ' 0'. ~ ~ t1 ~ ;;:fj._/l ;::.:j ?7 . dV~,,£- . .............................................. Z;'~ . .......... ~...... .... .. .... .... ................... .... .. ..... .................................................................................. ' ............................................................................................................................................ Oo .. .. _ ' Oo ~ ...............
Load more

Recommended publications
  • Washington State Minerals Checklist
    Division of Geology and Earth Resources MS 47007; Olympia, WA 98504-7007 Washington State 360-902-1450; 360-902-1785 fax E-mail: [email protected] Website: http://www.dnr.wa.gov/geology Minerals Checklist Note: Mineral names in parentheses are the preferred species names. Compiled by Raymond Lasmanis o Acanthite o Arsenopalladinite o Bustamite o Clinohumite o Enstatite o Harmotome o Actinolite o Arsenopyrite o Bytownite o Clinoptilolite o Epidesmine (Stilbite) o Hastingsite o Adularia o Arsenosulvanite (Plagioclase) o Clinozoisite o Epidote o Hausmannite (Orthoclase) o Arsenpolybasite o Cairngorm (Quartz) o Cobaltite o Epistilbite o Hedenbergite o Aegirine o Astrophyllite o Calamine o Cochromite o Epsomite o Hedleyite o Aenigmatite o Atacamite (Hemimorphite) o Coffinite o Erionite o Hematite o Aeschynite o Atokite o Calaverite o Columbite o Erythrite o Hemimorphite o Agardite-Y o Augite o Calciohilairite (Ferrocolumbite) o Euchroite o Hercynite o Agate (Quartz) o Aurostibite o Calcite, see also o Conichalcite o Euxenite o Hessite o Aguilarite o Austinite Manganocalcite o Connellite o Euxenite-Y o Heulandite o Aktashite o Onyx o Copiapite o o Autunite o Fairchildite Hexahydrite o Alabandite o Caledonite o Copper o o Awaruite o Famatinite Hibschite o Albite o Cancrinite o Copper-zinc o o Axinite group o Fayalite Hillebrandite o Algodonite o Carnelian (Quartz) o Coquandite o o Azurite o Feldspar group Hisingerite o Allanite o Cassiterite o Cordierite o o Barite o Ferberite Hongshiite o Allanite-Ce o Catapleiite o Corrensite o o Bastnäsite
    [Show full text]
  • Ne of Portugal)
    GEOCHEMISTRY OF MINERALS, WATERS AND WEATHERING FROM THE FONTE SANTA MINE AREA (NE OF PORTUGAL) 1 2 3 1 4 M. E.P. Gomes , I.M.H.R. Antunes , A.M.R. Neiva , F.A.L. Pacheco , P.B. Silva 1Dep. of Geology, University of Trás-os-Montes e Alto Douro (UTAD), Portugal 2 Polytechnic Institute of Castelo Branco, Portugal 3 Department of Earth Sciences, University of Coimbra, Portugal 4 National Laboratory of Energy and Geology (LNEG, S. Mamede de Infesta), Portugal Abstract The quartz veins containing scheelite from Fonte Santa mine area were exploited for W between 1942 and 1982. At the end of November 2006, a flood event damaged the dam land of Fonte Santa mine and metal content of water increased. Fonte Santa mine area cuts the quartzites close to the Fonte Santa muscovite granite. The granite contains quartz, microcline, albite, muscovite, chlorite, columbite-tantalite, volframite, W-ixiolite and ilmenite. The quartz veins contain muscovite, chlorite, tourmaline, scheelite, pyrrhotite, pyrite, sphalerite, chalcopyrite, galena, arsenopyrite, magnetite, jarosite, phosphates of Pb, Fe and Al. The waters related to the Fonte Santa mine are poorly mineralized, with electrical conductivity < 965 µS / cm, of - 2- mixed type or HCO3 and SO4 types. These waters have Fe and Mn contents that forbid to use that for human consumption and agriculture. Sodium, Mg and K water contents are associated with the alteration of albite, chlorite and muscovite of country rock, while Ca is related to the W-bearing quartz veins. Key-words: mineralizations, scheelite, waters, contamination Resumo Os filões de quartzo contendo scheelite da mina de Fonte Santa foram explorados para W entre 1942 e 1982.
    [Show full text]
  • Newsletter June 2006
    w NEWSLETTER INTERNATIONAL TUNGSTEN INDUSTRY ASSOCIATION Rue Père Eudore Devroye 245, 1150 Brussels, Belgium Tel: +32 2 770 8878 Fax: + 32 2 770 8898 E-mail: [email protected] Web: www.itia.info The programme will begin on Tuesday Toxicologic Assessment for the Production and 19th evening with a Reception in the hotel jointly Mechanical Processing of Materials containing hosted by Tiberon Minerals and ITIA. Tungsten Heavy Metal. Not least will be an introduction to the formation of a Consortium to deal Working sessions will be held on Wednesday Annual with the implications of REACH on behalf of the and Thursday mornings and papers will tungsten industry, both legal and financial. include: General Readers will recall that REACH will place an obligation ▼ HSE work programme on individual companies to submit a technical dossier and register any chemical substance Meeting ▼ Ganzhou’s Tungsten Industry and Its Progress manufactured or imported into the EU in quantities ▼ Geostatistics in the mid and long-term planning for of more than 1 tonne. the Panasqueira deposit (Nuno Alves, Beralt Tin Tuesday 26 to and Wolfram) In order to assist companies with the registration process, the Commission recommends the creation ▼ Thursday 28 Paper by Zhuzhou Cemented Carbide of industry Consortia. These Consortia will enable the ▼ Update on Tiberon’s Development of Tungsten joint development, submission and sharing of September 2006 Mining in Vietnam information with the aim of reducing the compliance burden on individual companies and preventing ▼ Update on China’s Tungsten Industry Hyatt Regency Hotel, unnecessary additional animal testing. ▼ Update on US Tungsten Market (Dean Schiller, Boston, USA OsramSylvania Products) Both members and non-members will be equally ▼ Review of Trends in 2006 (Nigel Tunna, Metal-Pages) welcome to join the Consortium, saving themselves considerable amounts of money and time by so doing.
    [Show full text]
  • Tungsten Minerals and Deposits
    DEPARTMENT OF THE INTERIOR FRANKLIN K. LANE, Secretary UNITED STATES GEOLOGICAL SURVEY GEORGE OTIS SMITH, Director Bulletin 652 4"^ TUNGSTEN MINERALS AND DEPOSITS BY FRANK L. HESS WASHINGTON GOVERNMENT PRINTING OFFICE 1917 ADDITIONAL COPIES OF THIS PUBLICATION MAY BE PROCURED FROM THE SUPERINTENDENT OF DOCUMENTS GOVERNMENT PRINTING OFFICE WASHINGTON, D. C. AT 25 CENTS PER COPY CONTENTS. Page. Introduction.............................................................. , 7 Inquiries concerning tungsten......................................... 7 Survey publications on tungsten........................................ 7 Scope of this report.................................................... 9 Technical terms...................................................... 9 Tungsten................................................................. H Characteristics and properties........................................... n Uses................................................................. 15 Forms in which tungsten is found...................................... 18 Tungsten minerals........................................................ 19 Chemical and physical features......................................... 19 The wolframites...................................................... 21 Composition...................................................... 21 Ferberite......................................................... 22 Physical features.............................................. 22 Minerals of similar appearance.................................
    [Show full text]
  • A Specific Gravity Index for Minerats
    A SPECIFICGRAVITY INDEX FOR MINERATS c. A. MURSKyI ern R. M. THOMPSON, Un'fuersityof Bri.ti,sh Col,umb,in,Voncouver, Canad,a This work was undertaken in order to provide a practical, and as far as possible,a complete list of specific gravities of minerals. An accurate speciflc cravity determination can usually be made quickly and this information when combined with other physical properties commonly leads to rapid mineral identification. Early complete but now outdated specific gravity lists are those of Miers given in his mineralogy textbook (1902),and Spencer(M,i,n. Mag.,2!, pp. 382-865,I}ZZ). A more recent list by Hurlbut (Dana's Manuatr of M,i,neral,ogy,LgE2) is incomplete and others are limited to rock forming minerals,Trdger (Tabel,l,enntr-optischen Best'i,mmungd,er geste,i,nsb.ildend,en M,ineral,e, 1952) and Morey (Encycto- ped,iaof Cherni,cal,Technol,ogy, Vol. 12, 19b4). In his mineral identification tables, smith (rd,entifi,cati,onand. qual,itatioe cherai,cal,anal,ys'i,s of mineral,s,second edition, New york, 19bB) groups minerals on the basis of specificgravity but in each of the twelve groups the minerals are listed in order of decreasinghardness. The present work should not be regarded as an index of all known minerals as the specificgravities of many minerals are unknown or known only approximately and are omitted from the current list. The list, in order of increasing specific gravity, includes all minerals without regard to other physical properties or to chemical composition. The designation I or II after the name indicates that the mineral falls in the classesof minerals describedin Dana Systemof M'ineralogyEdition 7, volume I (Native elements, sulphides, oxides, etc.) or II (Halides, carbonates, etc.) (L944 and 1951).
    [Show full text]
  • Tungstite WO3 • H2O C 2001-2005 Mineral Data Publishing, Version 1
    Tungstite WO3 • H2O c 2001-2005 Mineral Data Publishing, version 1 Crystal Data: Orthorhombic. Point Group: 2/m 2/m 2/m. As platy crystals with rhombic outline, to 75 µm, in radiating aggregates; commonly earthy to pulverulent, massive. Physical Properties: Cleavage: {001}, perfect; {110}, imperfect. Hardness = 2.5 D(meas.) = 5.517 D(calc.) = 5.78 Optical Properties: Transparent. Color: Bright yellow, golden yellow, dark yellow-orange, yellowish green; yellow in transmitted light. Luster: Resinous, pearly on cleavages. Optical Class: Biaxial (–). Pleochroism: X = colorless; Y = Z = deep yellow. Orientation: X = c; Y = b. Dispersion: r< v,rather strong. Absorption: Strong; Z < Y < X or X > Y > Z. α = 2.09(2) β = 2.24(2) γ = 2.26(2) 2V(meas.) = 26◦–27◦ Cell Data: Space Group: P mnb. a = 5.249(2) b = 10.711(5) c = 5.133(2) Z = 4 X-ray Powder Pattern: Kootenay Belle mine, Canada. 3.463 (100), 5.36 (80), 2.556 (50), 1.731 (45), 2.616 (40), 1.851 (40), 1.634 (40) Chemistry: (1) (2) (3) WO3 86.20 91.30 92.79 SiO2 0.96 Fe2O3 4.14 0.18 FeO 1.21 CaO 0.54 H2O 7.72 7.46 7.21 Total 99.81 99.90 100.00 • (1) Kootenay Belle mine, Canada. (2) Calacalani mine, Bolivia. (3) WO3 H2O. Occurrence: An alteration product of tungsten minerals, especially wolframite and ferberite, in hydrothermal tungsten-bearing deposits. Association: Hydrotungstite, ferritungstite, wolframite, ferberite, scheelite. Distribution: In the USA, from Lane’s bismuth mine, Monroe, north of Trumbull, Fairfield Co., Connecticut; in the Boriana mine, Mohave Co., and the Black Pearl mine, Camp Wood district, Yavapai Co., Arizona.
    [Show full text]
  • DOGAMI Short Paper 22, Preliminary Report on Tungsten in Oregon
    STATE OF OREGON DEPARTMENT OF GEOLOGY AND MINERAL INDUSTRIES 702 Woodlark Buildinu Portland 5, Oregon G,W.I. SHORt PAPER � PRELIMINARY R!PORT ON TUNGSTEN IN OREGON l.ly Harold j), Wolfe Geologist and David J. Whito Geologist •. / 1951 Stato GoverninG Board Niol n. Allen, Chairman Grants Pcus H. E. Hondryx • . • . • Baker )laso·n L. Hingham • • • • Portland F. 1'1. Libbey !)1rootor Prico :35 Cents FOREWORD Saall iaolated ooou��enoea ot aohetl1tt (oaloiua tungatate ) have been known in o�egon to� •any yea�•. They att�aoted little attention beoauae they aee•ed too ••all to be wo�th explo�ing. In 1949 soheel1te was round in two aepa�ate plaoea near Ashland in deposita ot poaaible eoonoaio int•�••t and with geolog1oal asaooiat1ona that could be dupli• oated in other pa�t• ot aouthweste�n O�egon. Late�, aoheelite waa tound, o� at leaat exa•ined, in othe� plaoea where the saae typical geological oonditiona obtain. Although the�e are exceptions, •ost ot the ooour�enoea follow the sa•e general geologioal pattern - that is, they ooour along with typioal oontaot •inerala in oontaot &ones between oaloareoua and intruaive �ooka. Tbere a�e extena1ve a�eaa ot auoh oontaot �ooka in aouthern Oregon and it 11 reasonable to aaauae that exploration in theae areal will reveal additional deposits. This report ia deaigned aa a guide to tungsten prospeetiD& in tht State. To thie end known dtpel1ta are desoribed and the areas where geologloal oond1t1ona appear favorable are pointed out. The Governing Board or the Depart••nt deo1ded that a report on tungsten would be espeo1ally ti•ely beoauae or the Korean wa� wh1oh out ott to Aaerioan industry one ot the principal aourcea ot tungaten eupply, thereby oreating a ehortage ot thil vital •ator1al, It wae telt that every ettort ahould be aade to tooua attention on potential doaeetic 1Mppl1es sino• in a or1ais 1t •1ght be neoeaaary to depend on auoh auppl1•• tor aurv1val.
    [Show full text]
  • Study on Pre-Concentration Efficiency of Wolframite from Tungsten Ore Using Gravity and Magnetic Separations
    Physicochemical Problems Physicochem. Probl. Miner. Process. 52(2), 2016, 718−728 of Mineral Processing ISSN 1643-1049 (print) www.minproc.pwr.wroc.pl/journal/ ISSN 2084-4735 (online) Received May 4, 2015; reviewed; accepted: October 16, 2015 STUDY ON PRE-CONCENTRATION EFFICIENCY OF WOLFRAMITE FROM TUNGSTEN ORE USING GRAVITY AND MAGNETIC SEPARATIONS Dongfang LU, Yuhua WANG, Tao JIANG, Wei SUN, Yuehua HU School of Minerals Processing and Bioengineering, Central South University, Changsha, China, [email protected] Abstract: Pre-concentration is effectively applied in recovering wolframite from tungsten ore, due to its benefits of further upgrading tungsten ore and improving separation efficiency. The most important pre- concentration techniques for tungsten ore include gravity separation and magnetic separation, based on the fact that there are appreciable differences, between the desired wolframite and the gangue minerals, in density and magnetic susceptibility. This study investigated the separation efficiency of gravity pre- concentration (Falcon Concentrator) and high-gradient magnetic pre-concentration (SLon VPHGMS) for the beneficiation of a Canada tungsten ore. It is a low-grade type of ore with high silica and arsenic content, and an average content of WO3 is about 0.45%. The optimum conditions for different operational parameters of two pre-concentration separators were studied on this low-grade material. The results presented in this paper suggested that although both pre-concentration techniques were effective for producing pre-concentrates containing high WO3, magnetic pre-concentration showed significantly better separation efficiency. Over 90% of the feed was rejected as the final tailings, meanwhile, over 85% of arsenic minerals were removed with tailings, while the WO3 loss was less than 15%.
    [Show full text]
  • NEVADA's COMMON MINERALS (Including a Preliminary List of Minerals Found in the State)
    UNIVERSITY OF NEVADA BULLETIN -- --- - - -- - -- ---- - -- -- - VOL.XXXV SEPTEMBER 15,1941 No. 6 -- - --- -- - GEOLOGY AND MINING SERIES No. 36 NEVADA'S COMMON MINERALS (Including a Preliminary List of Minerals Found in the State) By VIXCENTP. GIANELLA Department of Geology, Mackay School of Mines University of Nevada PRICE 50 CENTS PUBLICATTONOF THE NEVADASTATE BUREAU OF MINES AND THE MACKAYSCHOOL OF MINES JAY A. CARPENTER,Di~ector 374 CONTENTS PAGE Preface......................................................................................................... 5 PART I Introduction. .................................................................................................. 7 Selected bibliography . 8 Origin, .occurrence, . and association. of minerals .................................... 10 Prlncspal. modes. of origsn .................................................................. 10 Crystallization of minerals.......................... .... ............................ 10 From fusion ................................................................................. 10 From solution .............................................................................. 11 From vapor .................................. .... ............. 11 Minerals of metamorphic. rocks............... ........................................ 11 Contact metamorphic minerals........................................................ 12 Pegmatites ............................................................................................ 12 Veins ....................................................................................................
    [Show full text]
  • AM29 192.Pdf
    HYDROTUNGSTITE, A NEW MINERAL FROM ORURO, BOLIVIA Paur, F. Knnn anl Fonn YouNc, Columbia University, IVew York, N. Y. Alsrnecr A survey of the literature on hydrous tungstic oxide reveals that only one form, tung- stite (HzWOr) has been established as a naturally-occurring mineral. A second hydrous oxide has been encountered in a study of material from Calacalani, Department of Oruro, Bolivia. It has the composition HzWOr HrO and has been named hyd.rotungstite to show its relationship to tungstite. It occurs in minute green tabular crystals as an alteration product of ferberite. The physical and optical properties of hydrotungstite are described and chemical and r-ray data are given. Artificial H2WO4.HrO has been prepared which corresponds to the natural mineral in structural and optical constants. Dehydration data indicate that the second molecule of water is held in a difierent manner from the first. It is believed, as a result, that the formula of tungstite may be best expressedas HzWOr and that of hydrotungstite as HzWOr HsO. PnBvrous Wonr The first mention of the occurrence of tungstic ocher in nature was ((massive made by Silliman (1822). He recorded the discovery of a yellow oxid of tungsten" at Lane's Mine, near Huntington, Connecticut.This material was assumedto have the composition WOr and was so described in the literature for a number of years. Following Silliman's discovery, the mineral was noted by others in various tungsten deposits.By 1858, such namesas wolframochre(Hausmann-1847), scheelsaure(Naumann -1852) and wolframine (Greg and Lettsom-1858) had been applied to what was apparently the same material.
    [Show full text]
  • FLOTATION SEPARATION of SCHEELITE from FLUORITE and CALCITE X Qiu1, X Zhou1, H Hu1 and G Q Fu1
    Paper No. 145 FLOTATION SEPARATION OF SCHEELITE FROM FLUORITE AND CALCITE X Qiu1, X Zhou1, H Hu1 and G Q Fu1 ABSTRACT Ca-containing gangue minerals such as Fluorite, Calcite have same surface activity point--calcium ions and approximate floatability with scheelite, it is difficult to achieve good dressing index of rough concentrate of scheelite. Mono-mineral experiments and ore tests indicate that, according to mineral composition, gangue minerals can be inhibited selectively by adopting suitable regulators, then the separation of scheelite from gangue minerals can be realized effectively. Mechanism analysis was taken by zeta potentials measurements and FTIR tests. Good dressing indexes are also obtained in practical ore tests and industrial tests. Keywords: scheelite, fluorite, calcite, regulator, flotation separation INTRODUCTION In scheelite flotation, gangue minerals such as Fluorite and Calcite have the same surface-active cation (Ca2+ ) with scheelite minerals and strong binding capacity with the fatty acid collectors. So the floatability of scheelite is close with that of Fluorite and Calcite and it is difficult to get good scheelite rough concentrate indexes. It is necessary to research regulators with high selectivity to achieve good indexes for scheelite concentrate. THE FLOATABILITY TESTS AND DISCUSSION Preparation of samples and conditions The mono minerals were taken respectively from the rich ore of scheelite, Fluorite and Calcite by crushing, grinding and purification. The content of scheelite in the mono mineral is 91.45%, the content of fluorite is 99.90% and the content of calcite 99.90%. Finally, one part of the pure samples was treated to -0.074 mm by grinding and another part was treated to -0.002mm for zeta potentials measurements and FTIR tests.
    [Show full text]
  • Fingerprinting Wolframite: an Atomic/Crystallographic, Chemical and Spectroscopic Study Along the Os Lid Solution Series" (2017)
    University of Vermont ScholarWorks @ UVM Graduate College Dissertations and Theses Dissertations and Theses 2017 Fingerprinting Wolframite: An Atomic/ crystallographic, Chemical And Spectroscopic Study Along The olidS Solution Series Gina Marie Accorsi University of Vermont Follow this and additional works at: https://scholarworks.uvm.edu/graddis Part of the Earth Sciences Commons Recommended Citation Accorsi, Gina Marie, "Fingerprinting Wolframite: An Atomic/crystallographic, Chemical And Spectroscopic Study Along The oS lid Solution Series" (2017). Graduate College Dissertations and Theses. 710. https://scholarworks.uvm.edu/graddis/710 This Thesis is brought to you for free and open access by the Dissertations and Theses at ScholarWorks @ UVM. It has been accepted for inclusion in Graduate College Dissertations and Theses by an authorized administrator of ScholarWorks @ UVM. For more information, please contact [email protected]. FINGERPRINTING WOLFRAMITE: AN ATOMIC/CRYSTALLOGRAPHIC, CHEMICAL AND SPECTROSCOPIC STUDY ALONG THE SOLID SOLUTION SERIES A Thesis Presented by Gina Accorsi to The Faculty of the Graduate College of The University of Vermont In Partial Fulfillment of the Requirements for the Degree of Master of Science Specializing in Geology May, 2017 Defense Date: March 20, 2017 Thesis Examination Committee: John M. Hughes, Ph.D., Advisor Robert V. Bartlett, Ph.D., Chairperson Laura E. Webb, Ph.D. Cynthia J. Forehand, Ph.D., Dean of the Graduate College ABSTRACT In accordance with the 2010 Dodd-Frank Act, conflict minerals refer to gold, tantalum, tin, and tungsten bearing minerals sourced from the Democratic Republic of Congo (DRC) that have been mined illegally and used to funnel funds to rebel forces. In response to an increasing demand for these metals used in cellphones, computers, and other popular technologies, Dodd-Frank mandates that industrial consumers demonstrate due diligence and assure that the materials they use have been extracted legally.
    [Show full text]