The Hg-Pd-Te system: phase relations involving temagamite and a new ternary phase

IF 1.1 4区地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS

Journal of Geosciences Pub Date : 2021-12-29 DOI:10.3190/jgeosci.332

M. Drábek, A. Vymazalová, F. Laufek, M. Tuhý

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Abstract

Phase relations in the Hg–Pd–Te system were studied at 350 °C using the silica glass tube method. The following binary phases were confirmed to be stable at 350 °C: PdHg (potarite), HgTe (coloradoite), Pd13Te3, Pd20Te7 (keithconnite), Pd7Te3, Pd9Te4 (telluropalladinite), Pd3Te2, PdTe (kotulskite), and PdTe2 (merenskyite). Kotulskite (PdTe) dissolves up to 8 at. % Hg at 350 °C. Other palladium tellurides do not dissolve Hg. Two ternary phases were proved to be stable in the system at 350 °C: Pd3HgTe3 (temagamite) and a new phase Pd4HgTe3. The Pd4HgTe3 phase is orthorhombic, Pnma space group with unit-cell parameters a = 13.1520(2), b = 11.6879(2), c = 4.25758(5) Å, V = 654.480(5) Å3 and Z = 4. The Pd4HgTe3 phase can be viewed as a ternary ordered variant of the Hg-bearing kotulskite. Synthetic temagamite forms stable assemblages with several phases representing minerals merenskyite and coloradoite, coloradoite and potarite, merenskyite and kotulskite, phase Pd4HgTe3 and kotulskite s.s., and phase Pd4HgTe3 and potarite. The occurrence of temagamite and its associations indicate the formation of mineralization below 570 °C. The new phase Pd4HgTe3 forms stable associations with synthetic analogs of temagamite and potarite, potarite and telluropalladinite, telluropalladinite and kotulskite s.s., temagamite and kotulskite s.s. The phase Pd4HgTe3 can be expected to be found in such associations under natural conditions.

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Hg-Pd-Te体系：temagamite和一种新的三元相的相关系

使用硅玻璃管法在350°C下研究了Hg–Pd–Te系统中的相关系。以下二元相在350°C下被证实是稳定的：PdHg（钾铁矿）、HgTe（coloradoite）、Pd13Te3、Pd20Te7（keithconnite）、Pd7Te3、Pd9Te4（碲二锑矿）、Pd3Te2、PdTe（kotulsite）和PdTe2（merenskyite）。Kotulsite（PdTe）在350°C下可溶解8 at.%Hg。其他碲化钯不溶解汞。两个三元相在350°C下被证明是稳定的：Pd3HgTe3（temagamite）和一个新相Pd4HgTe3。Pd4HgTe3相是正交的Pnma空间群，晶胞参数a=13.1520（2），b=11.6879（2）、c=4.25758（5）Å、V=654.480（5）å3和Z=4。Pd4HgTe3相可以被视为含汞钾钛铁矿的三元有序变体。合成temagamite与几个相形成稳定的组合，这些相代表矿物merenskyite和coloradoite、coloradoite和potarite、Merenskyte和Kotulsite、Pd4HgTe3和KotuLSite s.s.以及Pd4Hg Te3和Potariter。temagamite的出现及其组合表明在570°C以下形成了矿化。新相Pd4HgTe3与temagamite和potarite、potarite和telluropaladinite、telluropalidinite和kotulskite s.s、temagamitte和kotulkite s.s的合成类似物形成稳定的缔合物。预计在自然条件下可以在这种缔合物中发现相Pd4HgTe3。

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来源期刊

Journal of Geosciences GEOSCIENCES, MULTIDISCIPLINARY-MINERALOGY

CiteScore

2.30

自引率

7.10%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Geosciences is an international peer-reviewed journal published by the Czech Geological Society with support from the Czech Geological Survey. It accepts high-quality original research or review papers dealing with all aspects of the nature and origin of igneous and metamorphic rocks. The Journal focuses, mainly but not exclusively, on: -Process-oriented regional studies of igneous and metamorphic complexes- Research in structural geology and tectonics- Igneous and metamorphic petrology- Mineral chemistry and mineralogy- Major- and trace-element geochemistry, isotope geochemistry- Dating igneous activity and metamorphic events- Experimental petrology and mineralogy- Theoretical models of igneous and metamorphic processes- Mineralizing processes and mineral deposits. All the papers are written in English, even though they may be accompanied by an additional Czech abstract. Each contribution is a subject to peer review by at least two independent reviewers, typically at least one from abroad. The Journal appears 2 to 4 times a year. Formally it is divided in annual volumes, each of them including 4 issues.