镍铝矿，理想的是NiAl4(SO4)(OH)12(H2O)3，一种来自吉尔吉斯斯坦卡拉-唐吉铀矿床的新老矿物

IF 1.4 4区地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS

Mineralogy and Petrology Pub Date : 2023-06-02 DOI:10.1007/s00710-023-00832-3

Vladimir Yu. Karpenko, Atali A. Agakhanov, Leonid A. Pautov, Galiya K. Bekenova, Yulia A. Uvarova, Elena Sokolova, Tamara V. Dikaya, Frank C. Hawthorne

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引用次数: 0

摘要

镍铝矿，理想情况下是NiAl4(SO4)(OH)12(H2O)3，是吉尔吉斯斯坦巴肯地区新批准的矿物，存在于卡拉- tangi和卡拉- chagyr铀矿床中。它形成于含铀碳质硅质片岩热液蚀变带，伴生有石英、方解石、铝水方解石、铁矾、辉长石、吉氏石、辉长石和一种未知的al - oh矿物。它以无色至开心果绿色辐射片状晶体的聚集体形式出现，长0.05至0.50毫米。它是玻璃状或透明的薄片，有白色条纹，在长波或短波紫外线下不显示荧光。解理完全平行于{001}，未观察到分型。莫氏硬度为2，易碎，呈碎裂状断裂。计算得到的质量密度为2.231 g cm-3。在透射平面偏振光下，镍铝石呈非多色双轴状，α = 1.542(2)， γ = 1.533(2)， β由于薄片厚度几乎可以忽略而无法测量。EPMA化学分析Al2O3为39.94,SiO2为0.17,SO3为15.20,V2O3为0.29,FeO为0.15,NiO为8.00,ZnO为6.21，(H2O)calc。通过晶体结构分析确定了31.87，总重量为101.83 wt%， H2O，经验公式为:(Ni0.55Zn0.39V0.02Fe0.01)Σ0.97(Al3.99Si0.01)Σ4.00 (SO4)(OH)12(H2O)3。Zn、Cu、Fe和V3+取代Ni和V5+取代S6+的变化很大。镍铝石为单斜晶型，P21/n, a = 10.2567(5)， b = 8.8815(4)， c = 17.0989(8) Å， β = 95.548(1)°，V = 1550.3(2) Å3, Z = 4。镍铝酸盐的晶体结构细化到R1指数为5.66%，由{(SO4)2(H2O)3}层插入的[NiAl4(OH)12]片层组成;镍铝矿是硫铝矿的一种。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Nickelalumite, ideally NiAl4(SO4)(OH)12(H2O)3, a new-old mineral from the Kara-Tangi uranium deposit, Kyrgyzstan

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Nickelalumite, ideally NiAl4(SO4)(OH)12(H2O)3, a new-old mineral from the Kara-Tangi uranium deposit, Kyrgyzstan

Nickelalumite, ideally NiAl₄(SO₄)(OH)₁₂(H₂O)₃, is a newly approved mineral from the Batken region, Kyrgyzstan, where it occurs in the Kara-Tangi and Kara-Chagyr uranium deposits. It formed in a zone of hydrothermal alteration of U–V-bearing carbonaceous siliceous schists, in association with quartz, calcite, alumohydrocalcite, allophane, crandallite, kyrgyzstanite, ankinovichite and an unknown Al–OH-mineral. It occurs as aggregates of colourless to pistachio-green radiating bladed crystals from 0.05 to 0.50 mm long. It is vitreous to transparent in thin flakes, has a white streak, and shows no fluorescence under long-wave or short-wave ultraviolet light. Cleavage is perfect parallel to {001} and no parting was observed. Mohs hardness is 2, it is brittle and has a splintery fracture. The calculated mass density is 2.231 g cm^–3. In transmitted plane-polarized white light, nickelalumite is non-pleochroic, biaxial, α = 1.542(2), γ = 1.533(2), β could not be measured due to the almost negligible thickness of the flakes. EPMA chemical analysis gave Al₂O₃ 39.94, SiO₂ 0.17, SO₃ 15.20, V₂O₃ 0.29, FeO 0.15, NiO 8.00, ZnO 6.21, (H₂O)_calc. 31.87, total 101.83 wt%, H₂O was determined by crystal-structure analysis, and the empirical formula is as follows: (Ni_0.55Zn_0.39V_0.02Fe_0.01)_Σ0.97(Al_3.99Si_0.01)_Σ4.00 (SO₄)(OH)₁₂(H₂O)₃ based on 4 (Al + Si) cations. There is considerable variation in substitution of Zn, Cu, Fe and V³⁺ for Ni and V⁵⁺ for S⁶⁺. Nickelalumite is monoclinic, P2₁/n, a = 10.2567(5), b = 8.8815(4), c = 17.0989(8) Å, β = 95.548(1)°, V = 1550.3(2) Å³, Z = 4. The crystal structure of nickelalumite was refined to an R₁ index of 5.66% and consists of interrupted [NiAl₄(OH)₁₂] sheets intercalated with layers of {(SO₄)₂(H₂O)₃}; nickelalumite is a member of the chalcoalumite group.

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来源期刊

Mineralogy and Petrology 地学-地球化学与地球物理

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： Mineralogy and Petrology welcomes manuscripts from the classical fields of mineralogy, igneous and metamorphic petrology, geochemistry, crystallography, as well as their applications in academic experimentation and research, materials science and engineering, for technology, industry, environment, or society. The journal strongly promotes cross-fertilization among Earth-scientific and applied materials-oriented disciplines. Purely descriptive manuscripts on regional topics will not be considered. Mineralogy and Petrology was founded in 1872 by Gustav Tschermak as "Mineralogische und Petrographische Mittheilungen". It is one of Europe''s oldest geoscience journals. Former editors include outstanding names such as Gustav Tschermak, Friedrich Becke, Felix Machatschki, Josef Zemann, and Eugen F. Stumpfl.