Mineral Symbols

Crystallography of Luanshiweiite

General Appearance of Type Material:

Scaly aggregates or in monomineralic veinlents. Most individual grains of luanshiweiite are less than 1 mm2.

Place of Conservation of Type Material:

Geological Museum of China, Beijing, China, registration number M11797

Geological Setting of Type Material:

REE granitic pegmatite dike

Associated Minerals at Type Locality:

Albite	Bismutotantalite	Fluorcalciomicrolite	Montebrasite	Oxynatromicrolite
Pollucite	Polylithionite	Quartz	Spodumene	Tantalite
Tantalite-(Mn)	Tourmaline	Trilithionite

Reference:

Fan G., Li G., Shen G., Xu J., Dai J. (2013) Luanshiweiite: A New Member of Lepidolite Series.Acta Mineralogica Sinica, 33. 713-721

Synonyms of Luanshiweiite

Other Language Names for Luanshiweiite

Relationship of Luanshiweiite to other Species

Other Members of Lepidolite:

Fluorluanshiweiite	KLiAl1.5(Si3.5Al0.5)O10F2	Mon. 2/m :B2/m
Polylithionite	KLi2Al(Si4O10)(F,OH)2	Mon. 2/m :B2/b
Polylithionite-Trilithionite Series
Trilithionite	K(Li1.5Al1.5)(AlSi3O10)(F,OH)2	Mon. 2/m :B2/b

Related Minerals -Strunz-mindat GroupingTric.1 :P19.EC.BalestraiteKLi₂V⁵⁺Si₄O₁₂Mon. 2 :B29.EC.05TalcMg₃Si₄O₁₀(OH)₂Tric.1 :P19.EC.05MinnesotaiteFe²⁺₃Si₄O₁₀(OH)₂Tric.1 :P19.EC.05WillemseiteNi₃Si₄O₁₀(OH)₂Mon.9.EC.9.EC.VoloshiniteRb(LiAl_1.5◻_0.5)(Al_0.5Si_3.5)O₁₀F₂Mon. 2/m :B2/b9.EC.10FluorluanshiweiiteKLiAl_1.5(Si_3.5Al_0.5)O₁₀F₂Mon. 2/m :B2/m9.EC.10GarmiteCsLiMg₂(Si₄O₁₀)F₂Mon.9.EC.10GorbunoviteCsLi₂(Ti,Fe)Si₄O₁₀(F,OH,O)₂Mon.9.EC.10FerripyrophylliteFe³⁺Si₂O₅(OH)Mon. 2/m9.EC.10ManganiceladoniteK(MgMn³⁺◻)(Si₄O₁₀)(OH)₂Mon.9.EC.10PyrophylliteAl₂Si₄O₁₀(OH)₂Tric.19.EC.15ParagoniteNaAl₂(AlSi₃O₁₀)(OH)₂Mon.9.EC.15FerroaluminoceladoniteK(Fe²⁺Al◻)(Si₄O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.15NanpingiteCsAl₂(AlSi₃O₁₀)(OH,F)₂Mon. 2/m :B2/b9.EC.15FerroceladoniteK(Fe²⁺Fe³⁺◻)(Si₄O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.15Ganterite(Ba,Na,K)(Al,Mg)₂(AlSi₃O₁₀)(OH)₂Mon. 2/m :B2/b9.EC.15KreiteriteCsLi₂Fe³⁺(Si₄O₁₀)F₂Mon.9.EC.15RoscoeliteKV³⁺₂(AlSi₃O₁₀)(OH)₂Mon. 2/m :B2/b9.EC.15AluminoceladoniteK(MgAl◻)(Si₄O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.15Tobelite(NH₄)Al₂(AlSi₃O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.15TainioliteKLiMg₂(Si₄O₁₀)F₂Mon. 2/m :B2/m9.EC.15CeladoniteK(MgFe³⁺◻)(Si₄O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.15ChromceladoniteK(MgCr◻)(Si₄O₁₀)(OH)₂Mon. 2 :B29.EC.15MontdoriteKFe²⁺_1.5Mn²⁺_0.5Mg_0.5Si₄O₁₀(F,OH)₂Mon. 2/m :B2/m9.EC.15ChromphylliteKCr₂(AlSi₃O₁₀)(OH)₂Mon. 2/m :B2/b9.EC.15BoromuscoviteKAl₂(BSi₃O₁₀)(OH)₂Mon. 2/m9.EC.15UM1988-22-SiO:AlCaFFeHKLiMgKLiMgAl₂Si₃O₁₀F₂Mon.9.EC.15Chernykhite(Ba,Na)(V³⁺,Al,Mg)₂((Si,Al)₄O₁₀)(OH)₂Mon.9.EC.15MuscoviteKAl₂(AlSi₃O₁₀)(OH)₂Mon. 2/m :B2/b9.EC.20MasutomiliteK(LiAlMn²⁺)[AlSi₃O₁₀]F₂Mon. 2 :B29.EC.20OxyphlogopiteK(Mg,Ti,Fe)₃[(Si,Al)₄O₁₀](O,F)₂Mon. 2/m :B2/m9.EC.20Chloroferrokinoshitalite(Ba,K)(Fe²⁺,Mg)₃(Al₂Si₂O₁₀)(Cl,OH,F)₂9.EC.20SiderophylliteKFe²⁺₂Al(Al₂Si₂O₁₀)(OH)₂Mon.9.EC.20SokolovaiteCsLi₂Al(Si₄O₁₀)F₂Mon.9.EC.20HendricksiteKZn₃(Si₃Al)O₁₀(OH)₂Mon. 2/m :B2/m9.EC.20TetraferriphlogopiteKMg₃(Fe³⁺Si₃O₁₀)(OH,F)₂Mon. 2/m :B2/m9.EC.20FluoranniteKFe²⁺₃(Si₃Al)O₁₀F₂Mon. 2/m :B2/m9.EC.20AspidoliteNaMg₃(AlSi₃O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.20Suhailite(NH₄)Fe²⁺₃(AlSi₃O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.20EphesiteNaLiAl₂(Al₂Si₂O₁₀)(OH)₂Tric. 1 :P19.EC.20NorrishiteKLiMn³⁺₂(Si₄O₁₀)O₂Mon. 2/m :B2/m9.EC.20PhlogopiteKMg₃(AlSi₃O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.20YangzhumingiteKMg_2.5(Si₄O₁₀)F₂Mon. 2/m :B2/m9.EC.20OrloviteKLi₂Ti(Si₄O₁₀)OFMon. 2 :B29.EC.20TetraferrianniteKFe²⁺₃(Si₃Fe³⁺)O₁₀(OH)₂Mon. 2/m :B2/m9.EC.20ShirokshiniteK(NaMg₂)(Si₄O₁₀)F₂Mon. 2/m :B2/m9.EC.20TrilithioniteK(Li_1.5Al_1.5)(AlSi₃O₁₀)(F,OH)₂Mon. 2/m :B2/b9.EC.20PolylithioniteKLi₂Al(Si₄O₁₀)(F,OH)₂Mon. 2/m :B2/b9.EC.20ShirozuliteKMn²⁺₃(Si₃Al)O₁₀(OH)₂Mon. 2/m :B2/m9.EC.20PreiswerkiteNaMg₂Al(Al₂Si₂O₁₀)(OH)₂Mon. 2/m :B2/b9.EC.20FluorophlogopiteKMg₃(Si₃Al)O₁₀F₂Mon. 2/m :B2/m9.EC.20Wonesite(Na,K)(Mg,Fe,Al)₆((Al,Si)₄O₁₀)₂(OH,F)₄Mon. 2/m :B2/m9.EC.20UM2004-49-SiO:AlCsFHKLi(Cs,K)(Al,Li)_2.6((Si,Al)₄O₁₀)(F,OH)₂9.EC.20FluorotetraferriphlogopiteKMg₃(Fe³⁺Si₃O₁₀)F₂Mon. 2/m :B2/m9.EC.20AnniteKFe²⁺₃(AlSi₃O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.20EastoniteKMg₂Al(Al₂Si₂O₁₀)(OH)₂Mon.9.EC.22PimeliteNi₃Si₄O₁₀(OH)₂ · 4H₂OHex.9.EC.30MargariteCaAl₂(Al₂Si₂O₁₀)(OH)₂Mon. 2/m :B2/b9.EC.30Chlorophaeite(Ca,Mg,Fe)₂Fe₂Si₄O₁₃ · 10H₂O9.EC.35Kinoshitalite(Ba,K)(Mg,Mn²⁺,Al)₃(Al₂Si₂O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.35Ferrokinoshitalite(Ba,K)(Fe²⁺,Mg)₃(Al₂Si₂O₁₀)(OH,F)₂Mon. 2/m :B2/m9.EC.35ClintoniteCaAlMg₂(SiAl₃O₁₀)(OH)₂Mon. 2/m :B2/m9.EC.35Oxykinoshitalite(Ba,K)(Mg,Ti,Fe³⁺,Fe²⁺)₃((Si,Al)₄O₁₀)(O,OH,F)₂Mon. 2/m :B2/m9.EC.35FluorokinoshitaliteBaMg₃(Al₂Si₂O₁₀)F₂Mon. 2/m :B2/m9.EC.35BityiteCaLiAl₂(AlBeSi₂O₁₀)(OH)₂Mon. 2/m :B2/b9.EC.35Anandite(Ba,K)(Fe²⁺,Mg)₃((Si,Al,Fe)₄O₁₀)(S,OH)₂Mon. 2/m :B2/b9.EC.40Montmorillonite(Na,Ca)_0.33(Al,Mg)₂(Si₄O₁₀)(OH)₂ · nH₂OMon. 2/m :B2/m9.EC.40Beidellite(Na,Ca_0.5)_0.3Al₂((Si,Al)₄O₁₀)(OH)₂ · nH₂OMon. 2/m :B2/m9.EC.40VolkonskoiteCa_0.3(Cr,Mg,Fe)₂((Si,Al)₄O₁₀)(OH)₂ · 4H₂OMon.9.EC.40NontroniteNa_0.3Fe₂((Si,Al)₄O₁₀)(OH)₂ · nH₂OMon. 2/m :B2/m9.EC.40Kurumsakite(Zn,Ni,Cu)₈Al₈V⁵⁺₂Si₅O₃₅ · 27H₂O (?)Orth.9.EC.40Yakhontovite(Ca,Na)_0.5(Cu,Fe,Mg)₂(Si₄O₁₀)(OH)₂ · 3H₂OMon.9.EC.45SwineforditeLi(Al,Li,Mg)₃((Si,Al)₄O₁₀)₂(OH,F)₄ · nH₂OMon. 2/m :B2/m9.EC.45HectoriteNa_0.3(Mg,Li)₃(Si₄O₁₀)(F,OH)₂Mon. 2/m :B2/m9.EC.45ZincsiliteZn₃Si₄O₁₀(OH)₂ · 4H₂O (?)Mon.9.EC.45HanjiangiteBa₂CaV³⁺Al(H₂AlSi₃O₁₂)(CO₃)₂FMon. 2 :B29.EC.45SpadaiteMgSiO₂(OH)₂ · H₂O (?)9.EC.45FerrosaponiteCa_0.3(Fe²⁺,Mg,Fe³⁺)₃((Si,Al)₄O₁₀)(OH)₂ · 4H₂OMon.9.EC.45Stevensite(Ca,Na)_xMg_3-x(Si₄O₁₀)(OH)₂Mon.9.EC.45SaponiteCa_0.25(Mg,Fe)₃((Si,Al)₄O₁₀)(OH)₂ · nH₂OMon.9.EC.45SauconiteNa_0.3Zn₃((Si,Al)₄O₁₀)(OH)₂ · 4H₂OMon.9.EC.50VermiculiteMg_0.7(Mg,Fe,Al)₆(Si,Al)₈O₂₀(OH)₄ · 8H₂OMon. 2/m9.EC.52Tarasovitenear NaKAl₁₁Si₁₃O₄₀(OH)₉ · 3H₂O9.EC.55ClinochloreMg₅Al(AlSi₃O₁₀)(OH)₈Mon. 2/m :B2/m9.EC.55Borocookeite(LiAl₄◻)[BSi₃O₁₀](OH)₈Mon.m :Bb9.EC.55FranklinfurnaceiteCa₂Fe³⁺Mn²⁺₃Mn³⁺(Zn₂Si₂O₁₀)(OH)₈Mon. 2 :B29.EC.55PennantiteMn²⁺₅Al(AlSi₃O₁₀)(OH)₈Tric.9.EC.55VakhrushevaiteMg₅Cr(AlSi₃O₁₀)(OH)₈Tric.19.EC.55Nimite(Ni,Mg,Al)₆((Si,Al)₄O₁₀)(OH)₈Mon. 2/m :B2/m9.EC.55Cookeite(LiAl₄◻)[AlSi₃O₁₀](OH)₈Mon. 2/m9.EC.55Gonyerite(Mn²⁺,Mg)₅Fe³⁺(Fe³⁺Si₃O₁₀)(OH)₈Orth.9.EC.55Chamosite(Fe²⁺,Mg,Al,Fe³⁺)₆(Si,Al)₄O₁₀(OH,O)₈Mon. 2/m :B2/m9.EC.55Orthochamosite(Fe²⁺,Mg,Fe³⁺)₅Al(AlSi₃O₁₀)(OH,O)₈9.EC.55Baileychlore(Zn,Fe²⁺,Al,Mg)₆(Si,Al)₄O₁₀(OH)₈Tric.19.EC.55SudoiteMg₂Al₃(Si₃Al)O₁₀)(OH)₈Mon. 2/m :B2/m9.EC.55GlagoleviteNa(Mg,Al)₆(AlSi₃O₁₀)(OH,O)₈Tric. 1 :P19.EC.55DonbassiteAl_4.33(Si₃Al)O₁₀(OH)₈Mon. 2 :B29.EC.60DozyiteMg₇Al₂(Al₂Si₄O₁₅)(OH)₁₂Mon.9.EC.60Rectorite(Na,Ca)Al₄((Si,Al)₈O₂₀)(OH)₄ · 2H₂OMon.9.EC.60Corrensite(Mg,Fe)₉((Si,Al)₈O₂₀)(OH)₁₀ · nH₂OOrth.9.EC.60AliettiteCa_0.2Mg₆((Si,Al)₈O₂₀)(OH)₄ · 4H₂OMon.9.EC.60Karpinskite(Ni,Mg)₂Si₂O₅(OH)₂ (?)Mon.9.EC.60LunijianlaiteLi_0.7Al_6.2(AlSi₇O₂₀)(OH,O)₁₀Mon.9.EC.60TosuditeNa_0.5(Al,Mg)₆((Si,Al)₈O₁₈)(OH)₁₂ · 5H₂OMon. 2 :B29.EC.60HydrobiotiteK(Mg,Fe²⁺)₆((Si,Al)₈O₂₀)(OH)₄ · nH₂OMon. 2/m :B2/m9.EC.60Saliotite(Li,Na)Al₃(AlSi₃O₁₀)(OH)₅Mon. 2/m :B2/m9.EC.60KulkeiteMg₈Al(AlSi₇O₂₀)(OH)₁₀Mon.9.EC.60BrinrobertsiteNa_0.3Al₄(Si₄O₁₀)₂(OH)₄ · 3.5 H₂OMon.9.EC.65Macaulayite(Fe,Al)₂₄Si₄O₄₃(OH)₂Mon.9.EC.70BurckhardtitePb₂(Fe³⁺Te⁶⁺)[AlSi₃O₈]O₆Trig.3m(32/m) :P31m9.EC.75Niksergievite(Ba,Ca)₂Al₃(AlSi₃O₁₀)(CO₃)(OH)₆ · nH₂OMon.9.EC.75Ferrisurite(Pb,Ca)_2.4Fe³⁺₂(Si₄O₁₀)(CO₃)_1.7(OH)₃ · nH₂OMon.9.EC.75Surite(Pb,Ca)₃(Al,Fe²⁺,Mg)₂((Si,Al)₄O₁₀)(CO₃)₂(OH)₂Mon. 2 :P2₁9.EC.80KegelitePb₈Al₄(Si₈O₂₀)(SO₄)₂(CO₃)₄(OH)₈Mon.

Radioactivityshield). This calculation provides a 'worst-case' or 'maximum risk' estimate because it assumes the sample is a point source and entirely neglects any self-shielding where radiation is absorbed within the mineral itself, meaning actual doses will typically be lower. The resulting dose rate (D) is expressed in microsieverts per hour (μSv/h).

D = ((AU × ΓU) + (ATh × ΓTh) + (AK × ΓK)) / r2 × μshield

Other Information

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External Links:

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Raman and XRD data at RRUFF project

References and PDF downloads at RRUFF project

American Mineralogist Crystal Structure Database

Handbook of Mineralogy page PDF

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References for LuanshiweiiteⓘPegmatite vein no. 309 (TL)Williams et al. (2012)+2 other references

• ⓘNanyangshan pegmatite field

Qu et al. (2023)

• ⓘNanyangshan 703 deposit

Qu et al. (2020)+1 other reference

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