Two kinds of semi-solid samples of AZ80−0.2Y−0.15Ca(wt.%)(AZ80M)magnesium alloy were prepared by semi-solid isothermal heat treatment of materials with and without equal channel angular pressing(ECAP)process.The micro...Two kinds of semi-solid samples of AZ80−0.2Y−0.15Ca(wt.%)(AZ80M)magnesium alloy were prepared by semi-solid isothermal heat treatment of materials with and without equal channel angular pressing(ECAP)process.The microstructures of initial and semi-solid treated samples were compared and analyzed.The results showed a significant difference in the liquid phase distribution between three-pass ECAP processed(3P)and as-received samples during the isothermal heating process.The semi-solid 3P sample showed a more uniform liquid distribution due to its smaller dihedral angle.Besides,the coarsening processes of solid grains of as-received and 3P samples were dominated by the coalescence and Ostwald ripening mechanism,respectively.The difference of coarsening processes was mainly related to the proportion of the high-angle grain boundaries in materials,which further affected the evolution behavior of the liquid pools.展开更多
A multireference configuration interaction (MRCI) study has been carried out on the LiCl molecule. The potential energy has been calculated over a wide range of internuclear separation for the 21 low-lying electroni...A multireference configuration interaction (MRCI) study has been carried out on the LiCl molecule. The potential energy has been calculated over a wide range of internuclear separation for the 21 low-lying electronic states of the LiCl molecule dissociating into Li (^2S, ^2p, ^3S)+Cl (^2p). The (4)^1∑^+, (3)∏, 1-3^3∑^+, 1-3^3∏, 1,3Δ, ^1,3∑^-, (5)^1∑^+,(4)^3∑^+, (4)^3∏, (4)^3∏ excited states are studied for the first time in theory. Molecular spectroscopic constants .(Re, De,ωe, ωeΧe,Be and αe) have been derived for the 9 bound states (X^1∑^+, (3)^1∑^+, (2)^3∑^+, ^1,3Δ, ^1,3∑^-, (4)^∏, (4)^3∏) with a regular shape, and the spectroscopic constants of ground states X^1 ∑^+ are in good agreement with available experimental and theoretical values. The relative differences between experimental values and our values for Re, De, ωe, ωeΧe, Be and α3 are 1.02%, 0.60%, 1.72%, 9.46%, 2.0%, and 0.75%, respectively. Moreover, vibrational levels of 9 bound states, which have not been investigated experimentally, are computed.展开更多
The singlet rigid Be--O dissociation potential energy curves correlating to the first four molecular limits of (BeH2O)^2+ com- plex were calculated using the multi-reference single and double excitation configurati...The singlet rigid Be--O dissociation potential energy curves correlating to the first four molecular limits of (BeH2O)^2+ com- plex were calculated using the multi-reference single and double excitation configuration interaction theory. The radial cou- plings of three low-lying IAl states were calculated and combined with adiabatic potential energy curves to investigate and charge- transfer collision dynamics by using quantum-mechanical molecular orbital close-coupling methods. It is found that the total charge-transfer cross sections are dominated by the Be^+(^2S)+H2O+(A^2A1) channel. The rate coefficients in the range of 10^-17 - 10^-12 cm^3/s are very sensitive to temperature below 1000 K. The complexation energy without charge-transfer was determined to be 143.6 kcal/mol, including zero-point vibration energy corrections. This is in good agreement with the previous results.展开更多
基金supported by Key Development Project of Sichuan Province(Grant No.2017GZ0399)。
文摘Two kinds of semi-solid samples of AZ80−0.2Y−0.15Ca(wt.%)(AZ80M)magnesium alloy were prepared by semi-solid isothermal heat treatment of materials with and without equal channel angular pressing(ECAP)process.The microstructures of initial and semi-solid treated samples were compared and analyzed.The results showed a significant difference in the liquid phase distribution between three-pass ECAP processed(3P)and as-received samples during the isothermal heating process.The semi-solid 3P sample showed a more uniform liquid distribution due to its smaller dihedral angle.Besides,the coarsening processes of solid grains of as-received and 3P samples were dominated by the coalescence and Ostwald ripening mechanism,respectively.The difference of coarsening processes was mainly related to the proportion of the high-angle grain boundaries in materials,which further affected the evolution behavior of the liquid pools.
文摘A multireference configuration interaction (MRCI) study has been carried out on the LiCl molecule. The potential energy has been calculated over a wide range of internuclear separation for the 21 low-lying electronic states of the LiCl molecule dissociating into Li (^2S, ^2p, ^3S)+Cl (^2p). The (4)^1∑^+, (3)∏, 1-3^3∑^+, 1-3^3∏, 1,3Δ, ^1,3∑^-, (5)^1∑^+,(4)^3∑^+, (4)^3∏, (4)^3∏ excited states are studied for the first time in theory. Molecular spectroscopic constants .(Re, De,ωe, ωeΧe,Be and αe) have been derived for the 9 bound states (X^1∑^+, (3)^1∑^+, (2)^3∑^+, ^1,3Δ, ^1,3∑^-, (4)^∏, (4)^3∏) with a regular shape, and the spectroscopic constants of ground states X^1 ∑^+ are in good agreement with available experimental and theoretical values. The relative differences between experimental values and our values for Re, De, ωe, ωeΧe, Be and α3 are 1.02%, 0.60%, 1.72%, 9.46%, 2.0%, and 0.75%, respectively. Moreover, vibrational levels of 9 bound states, which have not been investigated experimentally, are computed.
文摘The singlet rigid Be--O dissociation potential energy curves correlating to the first four molecular limits of (BeH2O)^2+ com- plex were calculated using the multi-reference single and double excitation configuration interaction theory. The radial cou- plings of three low-lying IAl states were calculated and combined with adiabatic potential energy curves to investigate and charge- transfer collision dynamics by using quantum-mechanical molecular orbital close-coupling methods. It is found that the total charge-transfer cross sections are dominated by the Be^+(^2S)+H2O+(A^2A1) channel. The rate coefficients in the range of 10^-17 - 10^-12 cm^3/s are very sensitive to temperature below 1000 K. The complexation energy without charge-transfer was determined to be 143.6 kcal/mol, including zero-point vibration energy corrections. This is in good agreement with the previous results.
