Add to ORKGIn this paper we map out the 13001C isothermal section in the Ti–In–C ternary system. Two ternary compounds exist: Ti2InCa and Ti3InCd. At 13001C TiCx is in equilibrium with all phases, Ti3InCd is in equilibrium with all the phases except C, and Ti2InC is in equilibrium with all phases except Ti and C. The range of d in Ti3InCd varies from 0.95 to 0.8. A correlation was found between d and the lattice parameters of this phase. The maximum solubilities of In and C in Ti are 14 and 4 at.%, re-spectively. Similarly, a in Ti2InCa varies from 0.85 to 1. The dissolution of B470.3 at. % In in TiCx reduces the C concen-tration to 24 at.%. In the In-rich corner, a liquid region exists. I
A simple methodology for identifying possible higher order M<sub>n+1</sub>AX<sub>n</sub> phases (n≥2...
Phase diagrams are used as an indicator to estimate the thermodynamic stabilities of the novel MAX p...
The ternary system Co-Ti-C has been investigated by means of quantitative electron probe microanalys...
Bulk samples of nearly single-phase Ti2GeC and T13GeC5 were fabricated using a synthesis process sim...
International audienceThe phase relations in the ternary U–Ti–Al system were established for the who...
International audienceThe phase relations in the ternary U–Ti–Al system were established for the who...
AbstractThe phase equilibria of the ternary system In–Ni–Sn were investigated experimentally at 700 ...
The phase equilibria of the ternary system In–Ni–Sn were investigated experimentally at 700 °C using...
The phase equilibria of the Co-Ti-Ta ternary system at 1000 °C, 1100 °C, and 1200 °C ...
Phase equilibria in the In–Pd–Sn system were investigated by a combination of key experiments and th...
Phase equilibria in the In–Pd–Sn system were investigated by a combination of key experiments and th...
Phase equilibria of the system Ti-A1-Sn at 900°C were investigated and are presented in form of an i...
Phase equilibria of the system Ti-A1-Sn at 900°C were investigated and are presented in form of an i...
The phase relationships of the In2O3-TiO2-CaO and In2O3-TiO2-SrO systems have been studied at 1350 d...
Ti2(Ti0.16Ni0.43Al0.41) 3 is a novel compound (labeled as \u3c46) in the Ti-rich region of the Ti-Ni...
A simple methodology for identifying possible higher order M<sub>n+1</sub>AX<sub>n</sub> phases (n≥2...
Phase diagrams are used as an indicator to estimate the thermodynamic stabilities of the novel MAX p...
The ternary system Co-Ti-C has been investigated by means of quantitative electron probe microanalys...
Bulk samples of nearly single-phase Ti2GeC and T13GeC5 were fabricated using a synthesis process sim...
International audienceThe phase relations in the ternary U–Ti–Al system were established for the who...
International audienceThe phase relations in the ternary U–Ti–Al system were established for the who...
AbstractThe phase equilibria of the ternary system In–Ni–Sn were investigated experimentally at 700 ...
The phase equilibria of the ternary system In–Ni–Sn were investigated experimentally at 700 °C using...
The phase equilibria of the Co-Ti-Ta ternary system at 1000 °C, 1100 °C, and 1200 °C ...
Phase equilibria in the In–Pd–Sn system were investigated by a combination of key experiments and th...
Phase equilibria in the In–Pd–Sn system were investigated by a combination of key experiments and th...
Phase equilibria of the system Ti-A1-Sn at 900°C were investigated and are presented in form of an i...
Phase equilibria of the system Ti-A1-Sn at 900°C were investigated and are presented in form of an i...
The phase relationships of the In2O3-TiO2-CaO and In2O3-TiO2-SrO systems have been studied at 1350 d...
Ti2(Ti0.16Ni0.43Al0.41) 3 is a novel compound (labeled as \u3c46) in the Ti-rich region of the Ti-Ni...
A simple methodology for identifying possible higher order M<sub>n+1</sub>AX<sub>n</sub> phases (n≥2...
Phase diagrams are used as an indicator to estimate the thermodynamic stabilities of the novel MAX p...
The ternary system Co-Ti-C has been investigated by means of quantitative electron probe microanalys...