The effects of heat treatment and strontium(Sr) addition on the microstructure and mechanical properties of ADC1_(2) alloys were investigated,and two-stage solution treatment was introduced.The results indicated that ...The effects of heat treatment and strontium(Sr) addition on the microstructure and mechanical properties of ADC1_(2) alloys were investigated,and two-stage solution treatment was introduced.The results indicated that the addition of Sr obviously refined the microstructure of ADC12 alloys.When 0.05 wt%Sr was added into the alloy,the eutectic Si phase was fully modified into fine fibrous structure;a-A1 andβ-A1_(5)FeSi phases were best refined;and the eutectic AlzCu phase was modified into block-like AlzCu phase that continuously distributed at the grain boundary.The ultimate tensile strength(UTS)(270.63 MPa)and elongation(3.19%)were increased by 51.2%and 73.4%respectively compared with unmodified alloys.After the two-stage solution treatment(500℃,6 h+520℃,4 h),for 0.05 wt%Sr modified ADC12 alloys,the Si phases transformed into fine particle structure and Al_(2)Cu phases were fully dissolved.The peak hardness value of the alloys processed by the two-stage solution treatment was increased by 8.3%and 6.8%respectively compared to solution treatment at 500℃and 520℃.After the aging treatment(175℃,7 h),the hardness and UTS were increased by 38.73%and 13.96%respectively when compared with the unmodified alloy.展开更多
Based on the microscopic phase-field dynamic model and the microelasticity theory,the coarsening behavior of L12 and DO22 phases in Ni75CrxAl25-x alloy was simulated.The results show that the initial irregular shaped,...Based on the microscopic phase-field dynamic model and the microelasticity theory,the coarsening behavior of L12 and DO22 phases in Ni75CrxAl25-x alloy was simulated.The results show that the initial irregular shaped,randomly distributed L12 and DO22 phases are gradually transformed into cuboidal shape with round corner,regularly aligned along directions[100]and[001],and highly preferential selected microstructure is formed during the later stage of precipitation.The elastic field produced by the lattice mismatch between the coherent precipitates and the matrix has a strong influence on the coarsening kinetics,and there is no linear relationship between the cube of the average size of precipitates and the aging time,which does not agree with the results predicted by the classical Lifshitz-Slyozov-Wagner.The coarsening processes of L12 and DO22 phases are retarded in elastically constrained system.In the concurrent system of L12 and DO22 phases,there are two types of coarsening modes:the migration of antiphase domain boundaries and the interphase Ostwald ripening.展开更多
基金Project(51364035)supported by the National Natural Science Foundation of ChinaProject(20133601110001)supported by the Ministry of Education Tied up with the Special Research Fund for the Doctoral Program for Higher School,China+1 种基金Project(KJLD14003)supported by the Loading Program of Science and Technology of College of Jiangxi Province,ChinaProject(2012-CYH-DW-XCL-002)supported by the Production and Teaching and Research Cooperation Plan of Naaachaaag Non-party Experts and Doctor,China
文摘The effects of heat treatment and strontium(Sr) addition on the microstructure and mechanical properties of ADC1_(2) alloys were investigated,and two-stage solution treatment was introduced.The results indicated that the addition of Sr obviously refined the microstructure of ADC12 alloys.When 0.05 wt%Sr was added into the alloy,the eutectic Si phase was fully modified into fine fibrous structure;a-A1 andβ-A1_(5)FeSi phases were best refined;and the eutectic AlzCu phase was modified into block-like AlzCu phase that continuously distributed at the grain boundary.The ultimate tensile strength(UTS)(270.63 MPa)and elongation(3.19%)were increased by 51.2%and 73.4%respectively compared with unmodified alloys.After the two-stage solution treatment(500℃,6 h+520℃,4 h),for 0.05 wt%Sr modified ADC12 alloys,the Si phases transformed into fine particle structure and Al_(2)Cu phases were fully dissolved.The peak hardness value of the alloys processed by the two-stage solution treatment was increased by 8.3%and 6.8%respectively compared to solution treatment at 500℃and 520℃.After the aging treatment(175℃,7 h),the hardness and UTS were increased by 38.73%and 13.96%respectively when compared with the unmodified alloy.
基金Project(50671084)supported by the National Natural Science Foundation of ChinaProject(20070420218)supported by ChinaPostdoctoral Science Foundation
文摘Based on the microscopic phase-field dynamic model and the microelasticity theory,the coarsening behavior of L12 and DO22 phases in Ni75CrxAl25-x alloy was simulated.The results show that the initial irregular shaped,randomly distributed L12 and DO22 phases are gradually transformed into cuboidal shape with round corner,regularly aligned along directions[100]and[001],and highly preferential selected microstructure is formed during the later stage of precipitation.The elastic field produced by the lattice mismatch between the coherent precipitates and the matrix has a strong influence on the coarsening kinetics,and there is no linear relationship between the cube of the average size of precipitates and the aging time,which does not agree with the results predicted by the classical Lifshitz-Slyozov-Wagner.The coarsening processes of L12 and DO22 phases are retarded in elastically constrained system.In the concurrent system of L12 and DO22 phases,there are two types of coarsening modes:the migration of antiphase domain boundaries and the interphase Ostwald ripening.
