Expressing the excess partial molar free energies and integral excess free energy as poly- nome of the composition,then the parameters in the expression of excess partial molar free energy of C were evaluated based on...Expressing the excess partial molar free energies and integral excess free energy as poly- nome of the composition,then the parameters in the expression of excess partial molar free energy of C were evaluated based on:the excess partial free energy of C in C-Fe bi- nary alloy:the integral excess free energy of Fe-X binary alloy:the C saturation curve and the iso-activity curve of C (α_c=0.025) in the ternary system.Then the activity coefficient of X was evaluated with the so-called “I-D” method,by which the component activities of every element in the whole molten ternary alloy can be evaluated,and the results are in good agreement with literature data based on experiment.展开更多
Diamond single crystals grown from Fe-Ni-C system at high temperature-high pressure (HPHT) usually contain inclusions related to the metallic catalyst. During the diamond growth, the metallic inclusions are trapped by...Diamond single crystals grown from Fe-Ni-C system at high temperature-high pressure (HPHT) usually contain inclusions related to the metallic catalyst. During the diamond growth, the metallic inclusions are trapped by the growth front or are formed through reaction between the contaminants trapped in the diamond. In the present paper, the metallic inclusions related to the catalyst were systematically examined by transmission electron microscopy (TEM). The chemical composition and crystal structure of the metallic inclusions were for the first time determined by selected area electron diffraction pattern (SADP) combined with energy dispersive X-ray spectrometry (EDS). It is shown that the inclusions are mainly composed of orthorhombic FeSi2, fcc (FeNi)23C6, and orthorhombic Fe3C, hexagonal Ni3C.展开更多
文摘Expressing the excess partial molar free energies and integral excess free energy as poly- nome of the composition,then the parameters in the expression of excess partial molar free energy of C were evaluated based on:the excess partial free energy of C in C-Fe bi- nary alloy:the integral excess free energy of Fe-X binary alloy:the C saturation curve and the iso-activity curve of C (α_c=0.025) in the ternary system.Then the activity coefficient of X was evaluated with the so-called “I-D” method,by which the component activities of every element in the whole molten ternary alloy can be evaluated,and the results are in good agreement with literature data based on experiment.
文摘Diamond single crystals grown from Fe-Ni-C system at high temperature-high pressure (HPHT) usually contain inclusions related to the metallic catalyst. During the diamond growth, the metallic inclusions are trapped by the growth front or are formed through reaction between the contaminants trapped in the diamond. In the present paper, the metallic inclusions related to the catalyst were systematically examined by transmission electron microscopy (TEM). The chemical composition and crystal structure of the metallic inclusions were for the first time determined by selected area electron diffraction pattern (SADP) combined with energy dispersive X-ray spectrometry (EDS). It is shown that the inclusions are mainly composed of orthorhombic FeSi2, fcc (FeNi)23C6, and orthorhombic Fe3C, hexagonal Ni3C.