Add to ORKGWe determined the forward rate constant (K+) for the Fe2+\u2013Mg order\u2013disorder between the M2 and M1 sites of orthopyroxene (OPx), which is described by the homogeneous reaction Fe2+ (M2) + Mg(M1) M Mg(M2) + Fe2+ (M1), by both ordering and disordering experiments at isothermal condition and also by continuous cooling experiments. The rate constant was determined as a function of temperature in the range of 550\u2013750C, oxygen fugacity between quartz\u2013fayalite\u2013 iron and Ni\u2013NiO buffers, and at compositions of 16 and 50 mol% ferrosilite component. The K+ value derived from disordering experiment was found to be larger than that derived from ordering experiment at 550C, while at T>580C, these two values are essentially th...
Orthopyroxene from the Johnstown diogenite contains exsolution products. It shows anomalous kinetics...
The cooling rates of meteorites provide important constraints on the size of their parent bodies, an...
Master of Science (MS)GeologyUniversity of Michiganhttp://deepblue.lib.umich.edu/bitstream/2027.42/1...
We determined the forward rate constant (K+) for the Fe2+–Mg order–disorder between the M2 and M1 ...
The thermodynamic and the kinetics of the Fe-Mg order-disorder process in orthopyroxene were studied...
Kinetic rates of Fe2+-Mg disordering in three orthopyroxenes (mean value of XFe = Fe2+/(Fe2++Mg) = 0...
Single-crystal X-ray techniques were used to study isothermal Fe2+-Mg disordering in two orthopyroxe...
A brief review of the theory and data on the Fe²⁺-Mg order-disorder in orthopyroxene and the relatio...
A brief review of the theory and data on the Fe²⁺-Mg order-disorder in orthopyroxene and the relatio...
The iron-magnesium exchange between M1 and M2 sites in orthopyroxene is a reversible reaction that r...
The iron-magnesium exchange between M1 and M2 sites in orthopyroxene is a reversible reaction that r...
The equilibrium intracrystalline distribution coefficient, k*(D), of Fe* (i.e. Fe2+ + Mn) and Mg bet...
Orthopyroxene crystals in a number of meteorites exhibit compositional zoning of Fe and Mg, which pr...
The kinetics of the disordering process in Ca-rich orthopyroxenes was studied. The substitution of C...
The kinetics of the disordering process in Ca-rich orthopyroxenes was studied. The substitution of C...
Orthopyroxene from the Johnstown diogenite contains exsolution products. It shows anomalous kinetics...
The cooling rates of meteorites provide important constraints on the size of their parent bodies, an...
Master of Science (MS)GeologyUniversity of Michiganhttp://deepblue.lib.umich.edu/bitstream/2027.42/1...
We determined the forward rate constant (K+) for the Fe2+–Mg order–disorder between the M2 and M1 ...
The thermodynamic and the kinetics of the Fe-Mg order-disorder process in orthopyroxene were studied...
Kinetic rates of Fe2+-Mg disordering in three orthopyroxenes (mean value of XFe = Fe2+/(Fe2++Mg) = 0...
Single-crystal X-ray techniques were used to study isothermal Fe2+-Mg disordering in two orthopyroxe...
A brief review of the theory and data on the Fe²⁺-Mg order-disorder in orthopyroxene and the relatio...
A brief review of the theory and data on the Fe²⁺-Mg order-disorder in orthopyroxene and the relatio...
The iron-magnesium exchange between M1 and M2 sites in orthopyroxene is a reversible reaction that r...
The iron-magnesium exchange between M1 and M2 sites in orthopyroxene is a reversible reaction that r...
The equilibrium intracrystalline distribution coefficient, k*(D), of Fe* (i.e. Fe2+ + Mn) and Mg bet...
Orthopyroxene crystals in a number of meteorites exhibit compositional zoning of Fe and Mg, which pr...
The kinetics of the disordering process in Ca-rich orthopyroxenes was studied. The substitution of C...
The kinetics of the disordering process in Ca-rich orthopyroxenes was studied. The substitution of C...
Orthopyroxene from the Johnstown diogenite contains exsolution products. It shows anomalous kinetics...
The cooling rates of meteorites provide important constraints on the size of their parent bodies, an...
Master of Science (MS)GeologyUniversity of Michiganhttp://deepblue.lib.umich.edu/bitstream/2027.42/1...