Locality type: | Mine |
Classification |
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Species: | Waylandite |
Formula: | BiAl3(PO4)2(OH)6 |
Confirmation |
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Validity: | Believed Valid |
Data |
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Mineral Data: | Click here to view Waylandite data |
Locality Data: | Click here to view Kinkei mine, Chino City, Nagano Prefecture, Japan |
Data Identifiers |
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Mindat Occurrence Record ID: | 1106529 |
Long-form Identifier: | 1:3:1106529:8 |
GUID (UUID V4): | af18e3d4-1eb4-4389-91a0-c7e7af6dda3a |
References |
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Harada, Akira, Takashi Yamada, Satoshi Matsubara, Ritsuro Miyawaki, Masako Shigeoka, Hiroshi Miyajima, and Hiroshi Sakurai. (2012) "Dukeite from the Kinkei mine, Chino City, Nagano Prefecture, Japan." Bull. Natl. Mus. Nat. Sci., Ser. C, 38, pp. 1–5, December 22, 2012 |
Reference Search (possible matching items) |
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| | Journal (article/letter/editorial) | pro lokalitu Cetoraz u Pacova (Česká republika) Waylandite and petitjeanite, two new phosphates for locality...abundant supergene phosphate is waylandite, which occurs in two types. Waylandite I is Bi and Fe depleted and...07[(PO4)2.07(SiO4)0.02(WO4)0.01]∑2.10(OH)4.88F0.21. Waylandite II is closer to ideal formula with average composition...04[(PO4)1.87(SiO4)0.08(SO4)0.01]∑1.96(OH)6,23. Waylandite is accompanied by the less abundant petitjeanite...wolframite-apatite-bismuth-scheelite mineralization. Key words: waylandite, petitjeanite, chemical composition, greisen |
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