Gradient microstructure and vibration fatigue properties of 2024-T351 aluminium alloy treated by laser shock peening

被引:66
作者
Meng, Xian-kai [1 ,4 ]
Wang, Hui [2 ]
Tan, Wen-sheng [3 ]
Cai, Jie [1 ]
Zhou, Jian-zhong [2 ]
Liu, Lin [4 ]
机构
[1] Jiangsu Univ, Inst Adv Mfg & Modern Equipment Technol, Zhenjiang 212013, Jiangsu, Peoples R China
[2] Jiangsu Univ, Sch Mech Engn, Zhenjiang 212013, Jiangsu, Peoples R China
[3] Changzhou Coll Informat Technol, Changzhou 213164, Peoples R China
[4] Changzhou Univ, Jiangsu Key Lab Green Proc Equipment, Changzhou 213164, Peoples R China
基金
中国国家自然科学基金;
关键词
Laser shock peening; Vibration fatigue; 2024-T351; aluminium; Microstructure; Compressive residual stress; GRAIN-REFINEMENT MECHANISM; CRACK GROWTH; TITANIUM-ALLOY; LIFE; BEHAVIOR; EVOLUTION; DAMAGE;
D O I
10.1016/j.surfcoat.2020.125698
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
To investigate the improvement in vibration fatigue and the strengthening mechanism of laser shock peening, a nanosecond laser was used to strengthen the 2024-T351 aluminium alloy. Accordingly, the microstructure, residual stress, nanohardness and surface roughness of the treated alloy were measured. Subsequently, the vibration fatigue damage and fatigue life were evaluated, and the vibration fracture morphology was observed. The results showed that the grains in the peened surface were refined. A residual stress of - 141 MPa and a nanohardness of 3.1 GPa were obtained by laser shock peening. Based on the relationship between the peened microstructure and fracture morphology, it was deduced that an increase in the grain boundaries led to a lower crack initiation rate and a higher crack initiation life. The compressive residual stress decreased the crack growth rate and increased the crack growth life. Therefore, laser shock peening increases the total vibration fatigue life by about 63.5%.
引用
收藏
页数:13
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