授课课程: 1、现代电器控制技术、 2、单片机原理与控制系统、 3、互换性与测量技术、 4、工业图像处理及应用、 5、特种加工等。 研究方向: 1、研究方向为测试设备开发与材料疲劳; 2、嵌入式系统设计及云端应用。 科研项目: 1、山东省高校科技计划项目: 2、基于激光追踪的自主移动焊接机器人动态特性分析及控制研究;(主持) 3、国家自然基金面上项目: 4、空间弯管精确成形基础理论与关键技术研究(参加) 5、国家自然基金面上项目: 6、航天用碳纳米管增强铝基复合材料强化机理及其构件成形工艺优化(参加); 横向课题: 1、高周高温变路径疲劳试验机研制; 2、微波垫片焊接机的开发及产业化; 3、小空间超长距离焊接机器人开发; 4、树脂基复合材料加工; 5、鱼溶浆生产线煤改电智能化改造; 6、多功能电动护理床; 7、核电用无源多向报警传感器; 8、水陆两栖式焊接电源设计与开发等。 论文 [1] Z.R. Zhang, Z.M. Yue*, Y.M. Bao, J. Gao. Ratcheting characterization and its effect on low cycle fatigue behavior of DP600 steel sheet under cyclic shear path, International Journal of Fatigue, (2023). [2] Z.R. Zhang, Z.M. Yue*, Y.M. Bao, C.W. Xu, J. Gao. Strain ratio effects on microstructure discovery and low-cycle fatigue behavior of dual-phase sheet steel under cyclic shear path, Materials Science and Engineering A, (2022). [3] Z.R. Zhang, Z.M. Yue*, J.S. Qi, J. Gao, Y.L. Qiu. Low cycle fatigue performance of DP900 steel under cyclic shear paths, Fatigue & Fracture of Engineering Materials & Structures, (2022). [4] Z.R. Zhang, Z.M. Yue*, Y.M. Bao, J. Gao. Effects of anisotropy and pre-strain on fatigue of the DP600 steel sheet under the shear Path, Materials Science and Technology, (2022). [5] Qianduo Zhuang, Zhenming Yue, Lingxiao Zhou, Xihang Zhao, Zhongran Zhang*, Jiashuo Qi, Xinrui Min and Jun Gao. Study on Microstructural Evolution of DP Steel Considering the Interface Layer Based on Multi Mechanism Strain Gradient Theory, Materials, (2022). [6] Xinna Liu, Shuai Zhang*, Yanmei Bao, Zhongran Zhang* and Zhenming Yue. Strain-controlled fatigue behavior and microevolution of 316L stainless steel under cyclic shear path, Materials, (2022). 专利 [1] 拉压剪切复合实验设备,发明专利,专利号: ZL 201910515575.X [2] 一种循环剪切实验疲劳装置,发明专利,专利号: ZL 202011364024.7
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