Phase relations in the K2CO3-FeCO3 and MgCO3-FeCO3 systems at 6 GPa and 900-1700 degrees C

Anton Shatskiy, Konstantin D. Litasov, Eiji Ohtani, Yuri M. Borzdov, Aleksandr I. Khmelnikov, Yuri N. Palyanov

Research output: Contribution to journalArticlepeer-review

Abstract

The phase relations in the K2CO3 FeCO3 system were studied in multianvil experiments using graphite capsules at 6 GPa and 900-1400 degrees C. Subsolidus assemblages comprise the stability fields of K2CO3 + K2Fe(CO3)(2) and K2Fe(CO3)(2) + siderite with the transition boundary at X(K2CO3) = 50 mol%. The K2CO3-K2Fe(CO3)(2) and K2Fe(CO3)(2)-FeCO3 eutectics are established at 1100 degrees C and 65 mol% and at similar to 1150 degrees C and 46 mol% K2CO3, respectively. Siderite is a subliquidus phase at 1400 degrees C at X(K2CO3)

The siderite-magnesite system was studied at 6 GPa and 900-1700 degrees C. Complete solid solution is recorded between Fe0.94Mn0.06CO3 siderite and magnesite. At X(MgCO3) = 7 mol% and 1600 degrees C, the (Fe0.90Mn0.06Mg0.04)CO3 partial melt coexists with (Fe0.86Mn0.06Mg0.08)CO3 siderite, whereas at X(MgCO3) = 26 and 35 mol%, the (Fe0.71Mn0.06Mg0.23)CO3 partial melt coexists with (Fe0.51Mn0.06Mg0.43)CO3 siderite. Based on these data, Fe0.94Mn0.06CO3 siderite should melt slightly below 1600 degrees C, i.e. 300 degrees lower than magnesite. Development of bubbles in the quenched melt at X(MgCO3) = 7 mol% and 1700 degrees C suggests incongruent melting of siderite according to the reaction: siderite = liquid + CO2 fluid.

Original languageEnglish
Pages (from-to)487-499
Number of pages13
JournalEuropean Journal of Mineralogy
Volume27
Issue number4
DOIs
Publication statusPublished - 2015

Keywords

  • experimental petrology
  • phase relations
  • carbonates
  • high pressure
  • high temperature
  • carbonate melt
  • partial melting
  • potassium iron carbonate
  • siderite melting
  • HIGH-PRESSURE
  • CARBONATED ECLOGITE
  • K-CYMRITE
  • THERMODYNAMIC PROPERTIES
  • EXPERIMENTAL CONSTRAINTS
  • MELTING EXPERIMENTS
  • MINERAL INCLUSIONS
  • DIAMOND FORMATION
  • HIGH-TEMPERATURE
  • KIMBERLITE PIPE

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