Add to ORKGA method for quantitative stimation of magnesite in magnesite-rich rocks by differential thermal analysis, using magnesium hydroxide as internal standard, is presented. The effects of variations due to particle size and impurities are discussed. Earlier, Jehan et al. [1, 2] reported the quantitative stimation of kaolinite in clays and calcite in limestones by DTA. The present communication deals with the estimation of magnesite (MgCO3) in magnesite-rich rocks, magnesium hydr-oxide being used as internal standard. The effects of particle size, and impuritie
The investigation includes six bulk samples of magnesite from Salem, Mysore, Ajmer and Almora to rep...
ABSTRACT: Studies were conducted on the feasibility of using the Dupont 900 thermal analyser for qua...
Homogeneity is of utmost importance in some applications of light-burnt magnesia (LBM), such as shri...
Differential thermal analysis can be used as complementary method of mineralogical identification in...
The X-ray line broadening technique was used to calculate the grain size of MgO at 1023, 1123, 1223 ...
Thermal decomposition of magnesite is investigated by using a TG–MS. Different kinetic methods inclu...
Thermal decomposition kinetics of magnesite were investigated using non-isothermal TG-DSC technique ...
Vein and hydrothermal - sedimentary types of magnesite from eastern Iran probably originated from as...
The estimation of calcium and magnesium in a mineral or rock is frequently necessary and seems like ...
Investigations of the changes of structure, specific surface and true density of following high-magn...
Differential Thermal Analysis method has been used to indicate and estimate the amount of free quart...
The paper presents the selected results of the thermal decomposition of natural magnesite for prepar...
Different ancient mortar samples were analyzed to characterize their binder fraction. Thermal analys...
A mixed-mineralogy talc mine tailing (MT) fraction consisting of 80% ferroan magnesite (MgCO3) was s...
We have characterized the distribution of 25 trace elements in magnetite (Mg, Al, Si, P, Ca, Sc, Ti,...
The investigation includes six bulk samples of magnesite from Salem, Mysore, Ajmer and Almora to rep...
ABSTRACT: Studies were conducted on the feasibility of using the Dupont 900 thermal analyser for qua...
Homogeneity is of utmost importance in some applications of light-burnt magnesia (LBM), such as shri...
Differential thermal analysis can be used as complementary method of mineralogical identification in...
The X-ray line broadening technique was used to calculate the grain size of MgO at 1023, 1123, 1223 ...
Thermal decomposition of magnesite is investigated by using a TG–MS. Different kinetic methods inclu...
Thermal decomposition kinetics of magnesite were investigated using non-isothermal TG-DSC technique ...
Vein and hydrothermal - sedimentary types of magnesite from eastern Iran probably originated from as...
The estimation of calcium and magnesium in a mineral or rock is frequently necessary and seems like ...
Investigations of the changes of structure, specific surface and true density of following high-magn...
Differential Thermal Analysis method has been used to indicate and estimate the amount of free quart...
The paper presents the selected results of the thermal decomposition of natural magnesite for prepar...
Different ancient mortar samples were analyzed to characterize their binder fraction. Thermal analys...
A mixed-mineralogy talc mine tailing (MT) fraction consisting of 80% ferroan magnesite (MgCO3) was s...
We have characterized the distribution of 25 trace elements in magnetite (Mg, Al, Si, P, Ca, Sc, Ti,...
The investigation includes six bulk samples of magnesite from Salem, Mysore, Ajmer and Almora to rep...
ABSTRACT: Studies were conducted on the feasibility of using the Dupont 900 thermal analyser for qua...
Homogeneity is of utmost importance in some applications of light-burnt magnesia (LBM), such as shri...