个人信息：

姓名：康从杰

职称：讲师

邮箱：happykcj@163.com、kangcongjie@ytu.edu.cn

办公地点：机电汽车工程学院202-2

l 教育背景

2017.09-2024.08  北京航空航天大学，能源与动力工程学院，工学博士

2015.09-2017.06  内蒙古科技大学，机械工程学院，工程硕士

l 工作履历

2025.07-至今，烟台大学机电汽车工程学院，讲师

l 研究领域

金属抗疲劳及表面完整性设计加工；

服役环境下金属材料损伤机制与寿命预测；

金属高温氧化与腐蚀机制研究；

高端装备结构件无损检测和失效分析预防。

l 科研项目

[1] 国家重点研发计划，高新技术消费品关键部件检测及寿命预测技术研究，2017YFF0210002，2017.07-2020.12，参与。

[2] 国家重点研发计划，动设备关键部件复合失效机理及寿命预测技术研究，2016YFF0203301，2016.06-2019.12，参与。

[3] 国家自然基金研究项目，掺杂元素对单晶式多晶体纳米金刚石复合薄膜的影响，NO.51562031，2016.01-2019.12，参与。

l 研究成果

一、学术论文

[1] Hongguang Zhou, Xiaohui Yu*, Changyu Sun, Congjie Kang*. Genetic algorithm-enhanced hybrid physics-informed neural networks for very high cycle fatigue life prediction[J]. Engineering Fracture Mechanics, 2025, 325: 111359. (SCI, Q1, IF: 5.3)

[2] Hongguang Zhou, Ziming Wang, Yunpeng Zhao, Congjie Kang*, Xiaohui Yu*. A Novel Neural Network Model Considering Cyclic Loading Condition for Low-Cycle Fatigue Life Prediction [J]. International Journal of Fatigue, 2025, 108943. (SCI, Q1, TOP, IF: 5.7)

[3] Congjie Kang, Hongyun Luo, et al. Effects of low plastic burnishing combined with self-oxygen diffusion on the hot corrosion behavior of the TA29 titanium alloy[J]. Journal of Materials Research and Technology, 2025, 34: 1832-1849. (SCI, Q1, TOP, IF: 6.4)

[4] Congjie Kang, Hongyun Luo, Wenbin Ma, et al. Effect of surface treatment and synergistic effect of O and S elements on hot corrosion behavior of GH738 superalloy[J]. Journal of Materials Research and Technology, 2023, 26: 462-476. (SCI, Q1, TOP, IF: 6.4)

[5] Congjie Kang, Jun Tang, Hongyun Luo, et al. Study on the deformation mechanism of the inflection point in tensile curve of nano/ultrafine-grained austenite stainless steel rolled at different temperature[J]. Materials Science and Engineering: A, 2020, 786: 139367. (SCI, Q1, TOP, IF: 6.4)

[6] Congjie Kang, Qianqian Tian, Hongyun Luo, et al. Effect of low plastic burnishing on hot corrosion property of TA29 alloy[C]. 2021 3rd International Academic Exchange Conference on Science and Technology Innovation (IAECST). IEEE, 2021: 1102-1106.

[7] 田乾乾, 骆红云, 石多奇, 康从杰. 基于声发射技术的起重机箱型梁疲劳数据分析[J]. 中国材料进展, 2020, 39(5): 373-378.

[8] Xuejie Liu, Congjie Kang, Haimao Qiao, et al. Theoretical studies of the adsorption and migration behavior of boron atoms on hydrogen-terminated diamond (001) surface[J]. Coatings, 2017, 7(5): 57. (Q2, IF: 3.4)

[9] Xuejie Liu, Haimao Qiao, Congjie Kang, et al. Adsorption and migration behavior of Si atoms on the hydrogen-terminated diamond (001) surface: A first principles study[J]. Applied Surface Science, 2017, 420: 542-549. (SCI, Q1, Top, IF: 6.7)

二、国内外会议

[1] 2021 3rd International conference on Material Chemistry and Composite Materials (MCCM 2021) & 2021 3rd International conference on Catalysis and Polymer Chemistry (CCPC 2021)，报告题目：Effect of low plastic burnishing on hot corrosion property of TA29 alloy（国际会议，2021, 广州）

[2] 2019年全国失效分析学术会议。报告题目：深冷熨压对2024铝合金表面纳米化的影响（2019，山东，青岛）