教学科研成果
发明专利:
(1)赵子华, 祁凤彩, 赵爽. 一种气氛可控的碳纤维对称弯曲高周疲劳试验装置:, CN201810022347.4 [P]. 2021.
(2)赵子华, 张福禄, 李茜. 一种单晶超高周疲劳内部裂纹早期扩展速率定量表征方法:, CN112285140A [P]. 2021.
(3)赵子华, 孔远航, 张峥. 一种修复定向凝固高温合金DZ125蠕变损伤的热等静压方法:, CN106480386B [P]. 2018.
代表性论文:
[1] Tian Z, Yin H, Meng Y, Zhao Z*. On the fatigue ductile-brittle transition of EA4T steel for high-speed railway axle[J]. International Journal of Fatigue 2022;162:106974.
[2] Zhao Z*, Zhou R, Wang Z, Cai J, Chen B. High temperature fatigue behavior of a near-alpha titanium alloy[J]. International Journal of Fatigue 2022;161:106918.
[3] Zhao Z*, Liang Z, Li Q, Zhang F, Chen B. Crack initiation and propagation behaviour under high-temperature very-high-cycle fatigue: Directionally solidified columnar-grained vs. single-crystal superalloys[J]. Materials Science and Engineering: A 2022;836:142711.
[4] Zhao Z*, Li Q, Zhang F, Xu W, Chen B. Transition from internal to surface crack initiation of a single-crystal superalloy in the very-high-cycle fatigue regime at 1100 °C[J]. International Journal of Fatigue 2021;150:106343: 1-14.
[5] Zhao Z*, Zhang F, Dong C, Yang X, Chen B. Initiation and early-stage growth of internal fatigue cracking under very-high-cycle fatigue regime at high temperature[J]. Metallurgical and Materials Transactions A 2020;51:1575–1592.