彭开元

2021-03-04
姓 名彭开元

职 称讲师
职 务
所属系智能制造工程系
邮 箱kaiyuan@hfut.edu.cn
电 话
个人基本情况

2014年本科毕业于北京化工大学机械工程及自动化专业,

2016年硕士毕业于美国里海大学(Lehigh University)机械工程专业,

202012月博士毕业于美国弗吉尼亚理工大学(Virginia Tech)机械工程专业。

20214月开始在威廉公司官网机械学院任教。

主要研究方向

围绕增材制造与智能再制造方向,开展激光增材制造技术、金属/复合材料智能再制造技术、材料跨尺度仿真建模、机器学习驱动的制造过程监控等方面的研究工作。

详细参见教师个人主页:http://faculty.hfut.edu.cn/pengkaiyuan/zh_CN/index.htm


近年的科研项目、专著与论文、专利、获奖

主持或参与的科研项目:

1、高强聚焦超声辅助激光熔覆高铬镍基涂层的热力学机制与性能定点调控,国家自然科学青年科学基金,2024-2026,主持。

2、超声辅助激光修复钛合金构件的机理与工艺调控,校学术新人提升计划A2023-2025,主持。

3、镍基铜基功能梯度构件的增材制造成形机制研究, 中央高校基本科研业务费,2022-2024,主持。

4、智能制造系统三维视觉监测实验装置研制,威廉公司官网实验室自制仪器设备项目,2022-2023,主持。

5、基于麦克风阵列声学成像仪的激光增材制造过程缺陷检测研究,合作委托类,2024-2025,主持。

6、废旧服务终端关键器件精准检测装备与再利用/再制造技术,国家重点研发计划课题,2022-2023,参与。

7、Dynamics of Ultrasound-Responsive Polymeric Systems: from Atoms to Devices2016474-GOALI),美国自然科学基金项目,2020-2021,参与。

 

代表性论文:

1、Peng, Kaiyuan, Haihong Huang, Hongmeng Xu, Yu Kong, Libin Zhu, and Zhifeng Liu. A molecular dynamics study of laser melting of densely packed stainless steel powders. International Journal of Mechanical Sciences 243 (2023): 108034.

2、Peng, Kaiyuan, and Haihong Huang. Investigating the origin of the core-shell structure of polymeric nanofibers during fabrication process at the atomistic scale. Applied Surface Science 608 (2023): 155105.

3、Kong, Yu, Kaiyuan Peng, and Haihong Huang. Highly controllable additive manufacturing of heterostructured nickel-based composites. International Journal of Machine Tools and Manufacture 195 (2024): 104112.

4、Lu, Yingqi, Weidi Pei, and Kaiyuan Peng. State of the art of automatic disassembly of WEEE and perspective towards intelligent recycling in the era of Industry 4.0. The International Journal of Advanced Manufacturing Technology 128, no. 7-8 (2023): 2825-2843.

5、Kong, Yu, Kaiyuan Peng, and Haihong Huang. Additive manufacturing of high-strength Inconel 718 alloy through the addition of Ti2AlC MAX particles. Journal of Materials Science & Technology 158 (2023): 180-193.

6、Peng, Kaiyuan, Yao Zhao, Shima Shahab, and Reza Mirzaeifar. Ductile shape-memory polymer composite with enhanced shape recovery ability. ACS Applied Materials & Interfaces 12, no. 52 (2020): 58295-58300.

7、Peng, Kaiyuan, Shima Shahab, and Reza Mirzaeifar. Interaction of high-intensity focused ultrasound with polymers at the atomistic scale. Nanotechnology 32, no. 4 (2020): 045707.

8、Peng, Kaiyuan, Amrinder Nain, and Reza Mirzaeifar. Tracking the origins of size dependency in the mechanical properties of polymeric nanofibers at the atomistic scale. Polymer 175 (2019): 118-128.

9、Bhargava, Aarushi, Kaiyuan Peng, Jerry Stieg, Reza Mirzaeifar, and Shima Shahab. Focused ultrasound actuation of shape memory polymers; acoustic-thermoelastic modeling and testing. RSC advances 7, no. 72 (2017): 45452-45469.




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