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浙江工业大学机械工程学院导师教师师资介绍简介-朴钟宇
/2021-04-10
姓名:朴钟宇性别:男
职务:机械工程学院副院长 技术职称:教授、博士生导师最高学位:博士
办公电话:0571-85290596 / 13735431662
邮箱地址:piaozy@zjut.edu.cn个人简介:
工学博士,浙江工业大学机械工程学院副院长、教授、博士生导师,美国
卡内基梅隆大学访问学者。以第一作者/通讯作者发表SCI检索论文30篇,其中
ESI热点论文1篇、ESI高被引论文2篇,论文累计引用760余次,Google H指数
=16;以第一发明人授权国家发明专利19件,实施转化4件;参编专著2部、教材1部。
获河北省优秀博士学位论文奖励,入选浙江省高校中青年学科带头人、浙江省“新世纪151人才工程”、浙江工业大学“青年英才计划”、“朝晖计划”,浙江工业大学机械工程学院青年高水平创新团队负责人、“青年学术带
头人培养计划”、“青年英才计划”、“三强型”青年人才培养计划。
担任机械工程学会高级会员、机械工程学会摩擦学分会摩擦设计专委会委员、机械工程学会表面工程分会第一、二届青年工作委员会、机械工程学会材料分会青年工作委员会委员;教育部学位中心评审专家;国家、浙江省、北京
市、重庆市、广东省、辽宁省科技计划项目/自然科学基金委通讯评议专家,河北省科技奖励评审专家;担任Renewable & Sustainable Energy Reviews、Journal of
Power Sources等40余份国内外期刊审稿专家。
主要研究方向:
? 表面制造技术
? 装备表面摩擦磨损防护
? 智能装备设计与制造
? 高通量实验技术、在线监测及机器学习
教育/访学经历:
? 2001.09-2005.07 燕山大学 本科 机械设计制造及其自动化
? 2005.09-2011.06 燕山大学 研究生 机械设计及理论
? 2017.02-2018.02 美国卡内基梅隆大学 工程学院 访问学者
主要科研项目(主持):
? 国家自然科学基金面上项目,多场协同下铝合金表面复合多尺度结构构筑及腐蚀磨损行为
? 中央军委装备发展部装备预研领域基金项目,JG-JD-2019005
? 国家自然科学基金青年基金项目,裂纹尺度突变信息实时反馈的喷涂层疲劳磨损失效预警研究
? 中央军委科技委基础加强计划技术领域基金项目,JG-JD-2020009
? 中央军委装备发展部装备预研领域重点项目子课题,JG-JD-2020008
? 中央军委科技委基础加强项目子课题,JG-JD-2019010
? 中央军委装备发展部装备预研领域基金项目分项,JG-JD-2019009
? 浙江省科技厅公益性项目,纳米压入金属样品低损伤抛光加工关键技术
? 浙江省高校基本科研业务费项目,重载齿轮表面跨尺度主动设计及多能场创成
? 流体动力与机电系统国家重点实验室开放基金,超精密加工表面晶态损伤表征及质量评价体系研究
? 浙江省教育厅科研项目,纳米表面对喷涂层疲劳磨损力-寿模型的影响研究
? 企业委托项目,复杂柔性件智能精密加工系统
? 企业委托项目,腔镜下用止血粉末端创面喷射力测试方法及系统开发
代表性论文、专利、论著:
【代表性论文(*通讯作者)】
[1] Zhou Zhen-yu, Zheng Qiu-yang, Ding Cong, Yan Ju-yu, Piao Zhong-yu*. A review of the
development of surface burnishing process technique based on bibliometric analysis and
visualization. International Journal of Advanced Manufacturing Technology. 2021,
accepted.
[2] Chen Jian-hao, Zheng Qiu-yang, Zhou Zhen-yu, Ding Cong, Piao Zhong-yu*. Molecular dynamics
simulation of monocrystalline copper nano-scratch process under the excitation of ultrasonic
vibration. Materials Research Express. 2021, accepted.
[3] Ding Cong, Zhou Zhen-yu, Piao Zhong-yu*. Investigation of the running-in quality at
different rotating-speeds by chaos theory. International Journal of Bifurcation and chaos. 2021,
accepted.
[4] Zhou Zhen-yu, Zheng Qiu-yang, Ding Cong, Yu Guang-lei, Peng Guang-jian, Piao
Zhong-yu*. Investigation of Two-Dimensional Ultrasonic Surface Burnishing Process on 7075-T6
Aluminum. Chinese Journal of Mechanical Engineering. 2021, 34:19
[5] Ding Cong, Sun Guo-dong, Zhou Zhen-yu, Piao Zhong-yu*. Investigation of the optimum surface
roughness of AISI 5120 steel by using a running-in attractor. Journal of
Tribology-Transactions of the ASME. 2021, 143(9): 094501.
[6] Zhou Zhen-yu, Yu Guang-lei, Zheng Qiu-yang, Ma Guo-zheng, Ye Sen-bin, Ding Cong, Piao
Zhong-yu*. Wear behavior of 7075-aluminum after ultrasonic-assisted surface burnishing.
Journal of Manufacturing Processes. 2020. 51:1-9 ESI高被引论文
[7] Tang Wei-chen, Piao Zhong-yu*, Zhang Jiang*, Liu Shi-ying, Deng Li-jun. Effect of trace
elements on the pinhole fatigue-resistance of gasoline Al-Si piston alloy. Engineering
Failure Analysis. 2020. 108:104430
[8] Piao Zhong-yu, Wang Hai-dou, Xu Bin-shi, Yu Xiao-xiao. Rolling Contact Fatigue
Behavior of Thermal-Sprayed Coating: A Review. Critical Reviews in Solid State and
Materials Sciences. 2020. 45(6):429-456
[9] Ding Cong, Zhou Zhen-yu, Yuan Zhi-peng, Zhu Hua, Piao Zhong-yu*. Study on the
correlation between the running-in attractor and the wear particle group. Industrial
Lubrication and Tribology. 2020.72(5):681-686
[10]Piao Zhong-yu*, Zhou Zhen-yu, Xu Jia, Wang Hai-dou. Use of X-ray computed
tomography to investigate rolling contact cracks in plasma sprayed Fe–Cr–B–Si coating.
Tribology Letters. 2019. 67 (1) 11 ESI热点论文、ESI高被引论文
[11]Piao Zhong-yu, Wen Dong-hui*, Yin Lin-zhi. Ultra-smooth Cu surface fabricated by
hydrodynamic suspension polishing technique. Precision Engineering. 2019. 57:189-194
[12]Zhang Jian, Piao Zhong-yu*, Liu Shi-ying, Su Sheng-wei, Deng Li-jun. Investigation of wear
behavior of graphite coating on aluminum piston skirt of automobile engine.
Engineering Failure Analysis. 2019. 97:408-415
[13]Wen Dong-hui, Yin Lin-zhi, Piao Zhong-yu*, Lu Cong-da, Li Gang, Leng Qiao-hui.
Performance investigation of proton exchange membrane fuel cell with intersectant flow field.
International Journal of Heat and Mass Transfer. 2018.121:775-787.
[14]Zhang Jian, Piao Zhong-yu*, Deng Li-jun, Zhang Sen, Liu Jing. Influence of pin assembly on the
wear behavior of piston skirt. Engineering Failure Analysis. 2018. 89:28-36.
[15]Zhang Jian, Piao Zhong-yu*, Liu Shi-ying. Influence of skirt profile structure of gasoline
engine piston on the friction and wear characteristics under standard conditions. Journal of
Tribology-Transactions of the ASME. 2018. 140: 021703-11.
[16]Wen Dong-hui, Yin Lin-zhi, Piao Zhong-yu*, Lu Cong-da, Li Gang, Leng Qiao-hui. A
novel intersectant flow field of metal bipolar plate for proton exchange membrane fuel cell.
International Journal of Energy Research. 2017. 41:2184-2193
[17]Piao Zhong-yu*, Xu Jia, Yin Lin-zhi, Wen Dong-hui, Xu Bin-shi, Wang Hai-dou. Surface integrity
design of plasma sprayed coating for resisting contact fatigue. Materials
Chemistry and Physics. 2016. 2016.08 179:174-181
[18]Wen Dong-hui, Piao Zhong-yu*, Zhang Tai-hua. A hydrodynamic suspension polishing method
for ultrasmooth and low-damage surface. Precision Engineering. 2016. 46:278-287
[19]Xu Jia, Zhou Zhen-yu, Piao Zhong-yu*. Accumulated damage process of thermal sprayed coating
under rolling contact by acoustic emission technique. Frontiers of Mechanical Engineering.
2016, 11(3): 227–232
[20]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou, Wen Dong-hui. Investigation of RCF failure prewarning
of Fe-based coating by online monitoring. Tribology International.
2014.72:156-160
[21]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou, Wen Dong-hui. Influence of surface nitriding
treatment on rolling contact behavior of Fe-based plasma sprayed coating. Applied Surface Science.
2013. 266:420-425.
[22]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou, Wen Dong-hui. Investigation of acoustic
emission source of Fe-based sprayed coating under rolling contact. International Journal of
Fatigue. 2013.47:184-188.
[23]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou, Wen Dong-hui. Influence of surface
roughness on rolling contact fatigue behavior of Fe-Cr alloy coatings. Journal of Materials
Engineering and Performance. 2013. 22:767-773.
[24]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou, Wen Dong-hui. Characterization of Fe-based alloy
coating deposited by supersonic plasma spraying. Fusion Engineering and Design. 2013.
88(11):2933-2938.
[25]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou. Investigation of spalling mechanism of the thermal
sprayed coating under rolling contact by FIB-SEM. Engineering Failure Analysis. 2012. 25: 106-111.
[26]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou, Pu Chun-huan. Investigation of fatigue
failure prediction of Fe-Cr alloy coatings under rolling contact based on acoustic emission
technique. Applied Surface Science. 2011. 257(7): 2581-2586.
[27]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou, Pu Chun-huan. A separation of experimental study on
coatings failure signal responses under rolling contact. Tribology International. 2011.
44:1304-1308.
[28]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou, Pu Chun-huan. Investigation of rolling
contact fatigue lives of Fe-Cr alloy coatings under different loading conditions. Surface &
Coatings Technology. 2010. 204(9-10):1405-1411.
[29]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou, Pu Chun-huan. Influence of undercoating on rolling
contact fatigue performance of Fe-based coating. Tribology International. 2010.
43(1-2):252-258.
[30]Piao Zhong-yu*, Xu Bin-shi, Wang Hai-dou, Pu Chun-huan. Effects of thickness and
elastic modulus on stress condition fatigue-resistant coating under rolling contact. Journal of
Central South University of Technology. 2010. 17(5): 899-905.
【授权发明专利】
[1] 朴钟宇, 周振宇, 郑秋阳, 周仁泽, 余光磊. 一种表面梯度薄膜的制备方法. 2020.8.18,
中国, 国家发明专利, 专利号: ZL201711416464.0
[2] 朴钟宇,周振宇,徐佳. 一种电极位置可调的电火花沉积滚压刀具. 2018.11. 中国, 国家发明专利. 专利号: ZL201611166961.5
[3] 朴钟宇,周振宇,徐佳. 一种滚压力可测的柔性电火花沉积滚压刀具. 2018.09, 中国,国家发明专利. 专利号: ZL201611166978.0
[4] 朴钟宇,周振宇,徐佳,文东辉. 滚压加工力热测试平台. 2018.09, 中国, 国家发明专利.专利号: ZL201610665555.7
[5] 朴钟宇,徐佳,周振宇. 一种压力可测的柔性平面滚压刀具. 2018.09, 中国, 国家发明专利. 专利号: ZL201611167002.5
[6] 朴钟宇,徐佳,周振宇,郑波,赵朦朦. 一种滚压力及刀具转速可变的平面滚压刀具. 2018.07, 中国, 国家发明专利. 专利号: ZL201510682658.X
[7] 朴钟宇,周振宇,郑波,赵朦朦,徐佳. 一种给予恒定滚压力的平面滚压刀具. 2018.07, 中国, 国家发明专利. 专利号: ZL201510693107.3
[8] 朴钟宇,周振宇,徐佳. 一种滚压力可调节的刚性平面滚压刀具. 2018.7, 中国, 国家发明专利. 专利号: ZL201611167001.0
[9] 朴钟宇, 赵朦朦, 周振宇, 徐佳, 郑波. 一种铣滚一体刀具. 2018.06, 中国, 国家发明专利, 专利号:ZL201510693100.1
[10] 朴钟宇,周振宇,郑波,赵朦朦,徐佳. 一种给予电磁加热的平面滚压刀具. 2018.06 中国,国家发明专利. 专利号: ZL201510692925.1
[11] 朴钟宇,徐佳,周振宇,郑波,赵朦朦. 一种利用真空抽气进行润滑的平面滚压刀具. 2018.06, 中国, 国家发明专利. 专利号: ZL201510693111.X
[12] 朴钟宇,徐佳,周振宇. 一种具有电火花沉积功能的柔性平面滚压刀具. 2018.6, 中国,国家发明专利. 专利号: ZL201611168448.X
[13] 朴钟宇,赵朦朦,周振宇,徐佳,郑波. 一种通过气缸进行恒力加压的平面滚压刀具. 2018.02, 中国, 国家发明专利. 专利号: ZL201510693131.7
[14] 朴钟宇, 徐佳, 周振宇, 文东辉. 超声滚压表面纳米化加工装置. 2018.2, 中国, 国家发明专利, 专利号:ZL201610666709.4
[15] 朴钟宇,周振宇,郑波,赵朦朦,徐佳. 一种给予恒距离滚压的平面滚压刀具. 2018.01, 中国, 国家发明专利. 专利号: ZL201510692924.7
[16] 朴钟宇, 徐佳, 周振宇, 郑波, 赵朦朦. 一种带有锥形无刷电机的平面滚压刀具. 2017.11, 中国, 国家发明专利, 专利号:ZL201510692963.7
[17] 朴钟宇, 赵朦朦, 尹林志, 徐佳, 文东辉. 一种改进的平面滚压方法及装置. 2017.10,
中国, 国家发明专利, 专利号:ZL201510507073.4
[18] 朴钟宇, 徐钉, 文东辉. 一种动压浮离抛光方法. 2015.09, 中国, 国家发明专利. 专利号: ZL201310244152.1
[19] 朴钟宇, 徐钉, 文东辉. 一种动压浮离抛光装置. 2015.08, 中国, 国家发明专利. 专利号: ZL201310244168.2
【专著】
[1] 王海斗, 康嘉杰, 濮春欢, 张显程, 朴钟宇. 表面涂层加速寿命试验技术,人民邮电出版社, 24万字, 2011
[2] 中国科学技术协会主编. 机械工程学科发展报告(摩擦学), 中国科学技术出版社, 37.4万字, 2016
[3] 徐滨士, 王海斗, 等. 装备再制造技术基础, 国防工业出版社, 70万字, 2017
奖励和荣誉(省部级及以上):
? 第六届中国国际“互联网+”大学生创新创业大赛金奖(2020),指导教师,
4/10
? 国土资源科学技术进步奖二等奖(2019),7/10
? 中国机械工程学会绿色制造科学技术进步奖二等奖(2018),1/13
? 浙江省高等学校中青年学科带头人(2017),1/1
? 浙江省新世纪 151 人才工程第三层次(2017),1/1
? 第六届全国大学生机械创新设计大赛一等奖(2014),指导教师,2/2
? 河北省优秀博士学位论文奖(2013),1/1