引用本文:XU Qiu-xi,WANG Ke-lu,LU Shi-qiang,WANG Yu-jia.[en_title][J].Journal of Chongqing University (English Edition),2018,17(2):61~69
XU Qiu-xi,WANG Ke-lu,LU Shi-qiang,WANG Yu-jia.Effects of solution time on microstructure and mechanical properties of Ti-22Al-24Nb alloy[J].Journal of Chongqing University (English Edition),2018,17(2):61~69
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Effects of solution time on microstructure and mechanical properties of Ti-22Al-24Nb alloy
XU Qiu-xi1,2, WANG Ke-lu1,2, LU Shi-qiang1,2, WANG Yu-jia1,2
1.Institute of Aeronautical Manufacturing Engineering, Nanchang Hangkong University, 330063 Nanchang, P. R;2.China
摘要:
In this research, the changing rules of billet forged Ti-22Al-24Nb alloy with various solution time were studied, and the mechanical properties of different microstructure were tested at the room temperature. The results indicate that the (α2+O+B2) three- phase microstructure with equiaxed grains was acquired by Ti-22Al-24Nb alloy billet forging, and the average size of the grains was about 300 μm. With the increase of solution time, the primary lath-shaped O phase began to dissolve, and then the equiaxial α2 phase started to dissolve, but the undissolved α2/O phase began to be equiaxial and grow. The grains of original B2 phase recrystallized and grew. After the 2 h solution treatment, the recrystallization of grains was completed basically and the average size of the grains was about 100 μm. After the 2.5 h solution treatment, the strength of the alloy decreased, and the plasticity increased. However, when the solution treatment increased to 3 h, the plasticity decreased but the strength increased. The optimal solution parameters of Ti-22Al-24Nb alloy were the holding time of 2 h, the solution temperature of 1 000 C, and water cooling. Excellent comprehensive mechanical properties can be accquired under these parameters. The tensile strength, the yield strength, the elasticity modulus, the elongation, and the section shrinkage were 950 MPa, 915 MPa, 90 GPa, 15.69% and 42.28%, respectively.
关键词:  Ti-22Al-24Nb alloy  microstructure  mechanical properties  solution time
DOI:10.11835/j.issn.1671-8224.2018.02.004
分类号:
基金项目:Funded by the National Natural Science Foundation of China (No. 51464035).
Effects of solution time on microstructure and mechanical properties of Ti-22Al-24Nb alloy
XU Qiu-xi1,2, WANG Ke-lu1,2, LU Shi-qiang1,2, WANG Yu-jia1,2
1.Institute of Aeronautical Manufacturing Engineering, Nanchang Hangkong University, 330063 Nanchang, P. R;2.China
Abstract:
In this research, the changing rules of billet forged Ti-22Al-24Nb alloy with various solution time were studied, and the mechanical properties of different microstructure were tested at the room temperature. The results indicate that the (α2+O+B2) three- phase microstructure with equiaxed grains was acquired by Ti-22Al-24Nb alloy billet forging, and the average size of the grains was about 300 μm. With the increase of solution time, the primary lath-shaped O phase began to dissolve, and then the equiaxial α2 phase started to dissolve, but the undissolved α2/O phase began to be equiaxial and grow. The grains of original B2 phase recrystallized and grew. After the 2 h solution treatment, the recrystallization of grains was completed basically and the average size of the grains was about 100 μm. After the 2.5 h solution treatment, the strength of the alloy decreased, and the plasticity increased. However, when the solution treatment increased to 3 h, the plasticity decreased but the strength increased. The optimal solution parameters of Ti-22Al-24Nb alloy were the holding time of 2 h, the solution temperature of 1 000 C, and water cooling. Excellent comprehensive mechanical properties can be accquired under these parameters. The tensile strength, the yield strength, the elasticity modulus, the elongation, and the section shrinkage were 950 MPa, 915 MPa, 90 GPa, 15.69% and 42.28%, respectively.
Key words:  Ti-22Al-24Nb alloy  microstructure  mechanical properties  solution time
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