莱河矿稳定性的热力学分析

作     者：王声远 

出 版 物：《地球化学》 (Geochimica)

年 卷 期：1980年第9卷第1期

页      面：31-42页

学科分类：0709[理学-地质学] 07[理学] 070901[理学-矿物学、岩石学、矿床学] 

主　　题：矿床稳定性 热力学分析 莱河矿 硅酸盐矿物 

摘      要：Laihunite, a mineral of ferric and ferrous iron silicate discovered in China in recent years, occurs in high grade metamorphic BIF coexisting with magnetite, quartz,fayaiite, ferrosilite and almandine. Complete nets based on Sehreinemakers bundles and partial nets with maximum closure after the method described by H. W. Day have been constructed by taking into account the existance of this minertl in order to illustrate phase relations for the (n+3) multisystem in the system of Fe2O3-FeO-SiO2. Judging from Lindsley s experimental data on ferrosilits, laihunite is expected to be stable at pressures probably higher than 15 Kb. Two-pyroxene and olivine-clinopyroxene geothermometere give temperatures of formation between 600--700℃. Free energy of laihunite calcultted according to the method of Chert and estimated values of heat capacity allow oxygen fugacity to be plotted against temperature at different total pressures with respect to a number of univariant reactions in which lailunite is involved. The log fo2 -T diagram demonstrates that to a first approximation the stability flels of laihunite overlaps the upper part of the magnetite field, but its upper limit is a little beyond the hematite-magnetite equilibrium. The three major requirements for laihunite stability, i.e., an unusual high pressure, a temperature in the order of 600--700℃ and a relatively higher oxygen fugacity are mutually, exclusive in common geological environment, which may probably account for the rare occurrence of this mineral in nature. For the BIF in which laihunite occurs, the pressure caused by the weight of overlying strata is not high enough to give rise to its formation even in the extreme case of geothermal gradient.So it is suggested that additional tectonic pressure in response to plate activity might have been involved.