李常有

发布时间:2017-09-25浏览次数:15656

基本信息:

姓    名:李常有

性    别:男

籍    贯:贵州省金沙县

出生年月:19807

职    称:教授,博士生导师

研究方向:

(1) 机械动力学分析与故障诊断

(2) 智能机器人创新设计与实践应用

(3) 材料疲劳机理分析与寿命估计

(4) 机械动态与渐变耦合可靠性设计

固定电话:024-83673817

Emailchyli@mail.neu.edu.cn; lichangyou_1980@163.com


所获荣誉:

1. 2012年入选教育部新世纪优秀人才支持计划

2. 2013年首批入选金沙威尼斯欢乐娱人城高层次人才“曙光学者”

3. 2018年获金沙威尼斯欢乐娱人城江河奖教金1项;

4. 2009-2015年多次获得金沙威尼斯欢乐娱人城年度贡献奖;

5. 2015年获得教育部科技进步一等奖,个人校内第4

6. 2013年获得中国产学研合作创新成果奖,个人总排名第3


教育经历:

20058月至20096月,哈尔滨工业大学航天学院,工学博士;

20038月至20057月,哈尔滨工业大学航天学院,工学硕士;

19998月至20037月,北京化工大学机电工程学院,工学学士


工作经历:

20181月至,金沙威尼斯欢乐娱人城,教授,博士生导师、硕士生导师;

20171月至,金沙威尼斯欢乐娱人城,教授,硕士生导师;

20111月至201612,金沙威尼斯欢乐娱人城,副教授,硕士生导师;

20097月至201012月,金沙威尼斯欢乐娱人城,讲师。


主持项目:

截止目前,主持的项目如下:

1. 国家自然科学基金面上项目,项目名称:参数时空骤变及热振动耦合五轴机床非线性动态可靠性设计研究,项目经费:68万元(直接经费58万元),起止日期:2021.1-2024.12;项目编号52075087

2. 国家自然科学基金面上项目,项目名称:五轴铣车机床进给系统动力学参数快变与渐变耦合的可靠性设计理论研究,项目经费:74.8万元(直接经费64万元),起止日期:2016.1-2019.12;项目编号51575095

3. 国家自然科学基金青年项目,项目名称:等效载荷与降噪技术融合的高速列车轮对轴箱装置早期故障在线诊断的研究,项目经费:20万元,起止日期:2011.1-2013.12项目编号:51005041

4. 教育部新世纪优秀人才支持计划项目,项目名称:高档数控机床精度保持性理论研究,项目经费:50万元,起止日期:2013.1-2015.12

5. 中国博士后科学基金特别资助,项目名称:高档数控机床精度可靠性及优化设计理论研究,项目经费:15万元,起止日期:2012.1-2013.12

6. 中国博士后科学基金面上项目一等,项目名称:五轴联动机床进给系统动力学参数劣化规律及可靠性研究,项目经费:8万元,起止日期:2017.5-2018.12

7. 中国博士后科学基金面上项目,项目名称:机械零部件时变可靠性灵敏度设计及其应用研究,项目经费:3万元,起止日期:2011.1-2012.12

8. 教育部中央高校基本科研业务费重点项目培育,项目名称:五轴机床动态参数时空骤变及热振动耦合非线性动态设计研究,项目经费:40.0万元,起止日期:2020.1-2022.12

9. 教育部中央高校基本科研业务费种子培育基金,项目名称:动力伺服刀架精度保持性关键技术研究,项目经费:13.5万元,起止日期:2012.1-2013.12

10. 教育部中央高校基本科研业务费种子培育基金,项目名称:数控机床动力学参数时变与渐变规律及动态可靠性设计理论研究,项目经费:15万元,起止日期:2015.1-2016.12

11. 教育部中央高校基本科研业务费,项目名称:数控机床时变可靠性关键技术研究,项目经费:5万元,起止日期:2010.1-2011.12

12. 金沙威尼斯欢乐娱人城博士后基金二等,项目名称:机械零部件渐变可靠性灵敏度设计及其应用研究,项目经费:3万元,起止日期:2011.7-2012.12.


参与项目:

截止目前,作为骨干人员参与的项目如下:

1. 国家重点基础研究计划(973计划)课题,项目名称:无人采掘装备动力传递部件渐变可靠性建模与设计理论,项目经费:446万元,起止日期: 2014.1-2018.12

2. 国家自然科学基金重点项目,项目名称:机械关键零件的动态与渐变可靠性稳健设计理论研究,项目经费:290万元,起止日期:2012.1-2016.12

3. “高档数控机床与基础制造装备”科技重大专项课题,项目名称:动力伺服刀架的动态可靠性与可靠性灵敏度设计及试验技术,项目经费:530万元,起止日期:2010.1-2012.12

4. “高档数控机床与基础制造装备”科技重大专项课题,项目名称:千台国产数控车床可靠性提升工程,项目经费:294.7万元,起止日期:2013.1-2016.12

5. “十一五”国家科技支撑计划“中国高速列车关键技术研究及装备研制”项目,项目名称:高速转向架构架强度设计技术及规范研究,项目经费:100万元,起止日期:2009.12-2011.12

6. 国家自然科学基金高铁联合基金重点支持项目,项目名称:高速列车振动行为、振动失效和振动评价研究,项目经费:90万元,起止日期:2013.1-2016.12


专利情况:

[1] 李常有,韩帅,郭耸,刘海洋,王威,宋文君,石宴霖. 高速列车轮对轴箱装置试验台. 发明专利,申请日期:20131226日,授权日期:2016120日;专利号:ZL2013100733003.1

[2] 李常有, 田甜, 张义民, 黄贤振, 张旭方, 朱丽莎, 姚国, 吕昊, 吕航原, 谭学飞. 一种五轴双摆头龙门铣床模拟切削力加载装置及使用方法. 发明专利,申请日期:2016524日,授权日期:2017929日;专利号:ZL201610348032.X

[3] 李常有, 张亚楠, 张义民, 黄贤振, 张旭方, 朱丽莎, 姚国, 吕昊, 吕杭原,谭学飞. 一种三轴镗床模拟切削力加载装置及使用方法. 发明专利,申请日期:2016524日,授权日期:2018313日;专利号:ZL201610348051.2

[4] 李常有, 朱汇, 张义民, 黄贤振, 张旭方, 朱丽莎, 姚国, 吕昊, 吕杭原,谭学飞. 一种摆头转台式五轴机床模拟切削力加载装置及使用方法. 发明专利,申请日期:2016524日,授权日期:2018529日;专利号:ZL201610348553.5

[5] 李常有,刘富增,张义民,黄贤振,朱丽莎,杨周,张旭方,姚国,吕昊,吕杭原,谭学飞. 一种切削力模拟加载设备. 发明专利,申请日期:20170613日,授权日期:20181120日,专利号:ZL201710444633.5

[6] 李常有,卢晓思,张义民,黄贤振,朱丽莎,杨周,张旭方,姚国,吕昊,吕杭原,谭学飞. 一种列车构架疲劳试验台,发明专利,申请日期:2017524日,授权日期:2019129日,专利号:ZL201710375421.6

[7] 李常有,刘富增,张义民,黄贤振,朱丽莎,杨周,张旭方,姚国,吕昊,吕杭原,谭学飞. 一种机床刀具受力模拟装置. 发明专利,申请日期:2017613日,授权日期:201964日,专利号:ZL201710444631.6

[8] 李常有,傅奎,张义民,黄贤振,朱丽莎,杨周,张旭方,姚国,吕昊,吕杭原,谭学飞. 一种拉扭疲劳试验台. 发明专利,申请日期:2017524日,授权日期:2019813日,专利号:ZL201710407157.X

[9] 李常有,孙毅,张义民,黄贤振,张旭方,杨周,朱丽莎,姚国,吕昊,吕杭原,谭学飞. 一种动力伺服刀架可靠性试验台. 发明专利,申请日期:2018531日,授权日期:2019820日,专利号:ZL201810571891.4

[10] 李常有,鄢芳勇,张义民,黄贤振,张旭方,杨周,朱丽莎,姚国,吕昊,吕杭原,谭学飞. 一种高速列车车轴微动疲劳试验台及使用方法. 发明专利,申请日期:201864日,授权日期:2020121日,专利号:ZL201810565035.8

[11] 李常有,姜泽宇,张义民,黄贤振,张旭方,杨周,朱丽莎,姚国,吕昊,吕杭原,谭学飞. 一种测量车辆乘坐舒适性的装置及使用方法. 发明专利,申请日期:201864日,授权日期:2020218日,专利号:ZL201810564253.X

[12] 李常有,张洪记,张义民,黄贤振,张旭方,杨周,朱丽莎,姚国,吕昊,吕杭原,谭学飞. 一种五轴联动数控机床模拟车削力加载机构及使用方法,发明专利,申请日期:2018610日,授权日期:2020331日,专利号:ZL201810592688.5

[13] 李常有,张洪记,张义民,黄贤振,张旭方,杨周,朱丽莎,姚国,吕昊,吕杭原,谭学飞. 一种五轴联动数控机床模拟铣削力加载机构及使用方法,发明专利,申请日期:2018531日,授权日期:2020331日,专利号:ZL201810552171.3

[14] 李常有,刘庆雨,张义民,黄贤振,朱丽莎,杨周,张旭方,姚国,吕昊,吕杭原,谭学飞. 一种自行车整车及单项疲劳实验分析平台及使用方法. 发明专利, 申请日期:2019329, 授权日期:2020331日,专利号:ZL201910247467.9

[15] 李常有,王姝朗,张义民,黄贤振,张旭方,杨周,朱丽莎,姚国,吕昊,吕杭原,谭学飞. 滚动直线导轨及滚珠丝杠系统可靠性试验加载装置及方法,发明专利,申请日期:2018531日,授权日期:2020331日,专利号:ZL201810552929.3

[16] 李常有, 黄叶冬, 张义民, 黄贤振, 张旭方, 杨周, 朱丽莎, 姚国, 吕昊, 吕杭原, 谭学飞. 一种立式数控铣床模拟切削力加载装置及使用方法. 发明专利,申请日期:2018530日,授权日期:2020710日,专利号:ZL201810542196.5

[17] 李常有,杨建承,张义民,黄贤振,张旭方,杨周,朱丽莎,姚国,吕昊,吕杭原,谭学飞. 一种测试高速列车驱动电机疲劳破坏的试验台及其使用方法. 发明专利,申请日期:201864日,授权日期:2020714日,专利号:ZL201810565599.1

[18] 李常有, 王善艺, 张义民, 黄贤振, 张旭方, 杨周, 朱丽莎, 姚国, 吕昊, 吕杭原, 谭学飞.一种伺服电机可靠性测试加载装置及使用方法. 发明专利,申请日期:2018525日,授权日期:202084日,专利号:ZL201810516556.4

[19] 李常有, 宁雪峰, 韩清凯, 黄贤振, 杨周, 张旭方, 姚国, 吕昊, 吕杭原, 谭学飞. 一种齿轮箱性能测试装置. 中国及国际发明专利,申请日期:2019524日,授权日期:2020922日,专利号:ZL201910440023.7

[20] 李常有, 郭浩男, 张义民, 黄贤振, 朱丽莎, 杨周, 张旭方, 姚国, 吕昊, 吕杭原, 谭学飞. 汽车整车可靠性试验台及使用方法. 中国及国际发明专利,申请日期:2019422日,授权日期:2020116日,专利号:ZL201910321972.3

[21] 李常有, 吴任穷, 张义民, 黄贤振, 朱丽莎, 杨周, 张旭方, 姚国, 吕昊, 吕杭原, 谭学飞. 一种用于全身康复训练的外骨骼机器人. 中国及国际发明专利,申请日期:2019522日,授权日期:2021518日,专利号:ZL201910427525.6

[22] 李常有,徐文泽,张红状,张义民,黄贤振,朱丽莎,杨周,姚国,吕昊,吕杭原,谭学飞. 一种适用于腿脚不便人群的辅助行走机械及使用方法. 中国发明专利,申请日期:2019126, 授权日期:2021615日,专利号:ZL201911239180.8

[23] 李常有,狐政恺. 一种四自由度多功能烹饪原料削皮理菜处理装置. 中国发明专利,申请日期:2021525日,授权日期:202197日,专利号:ZL202110572282.2

[24] 李常有, 黄赫, 张义民, 黄贤振, 朱丽莎, 杨周, 张旭方, 姚国, 吕昊, 吕杭原, 谭学飞. 一种主轴箱疲劳试验机及主轴箱可靠性测试方法. 发明专利,申请日期:2017518日,(等待实审提案)

[25] 李常有,狐政恺. 一种自动称重与自动控温的双向存取式储存柜. 中国发明专利,申请日期:2021525

[26] 李常有,狐政恺. 一种多功能烹饪原料切削加工处理装置. 中国发明专利,申请日期:2021525


发表论文:

截止20222月,发表学术论文92篇,其中SCI检索论文62(JCR131篇,217篇,37篇,47)EI检索论文21篇,近五年主要论文如下:

[1] Mengtao Xu, Changyou Li*(通讯作者), Guo Yao, Yimin Zhang, Yang Gao. Load-dependent stiffness model and experimental validation of four-station rotary tool holder. Mechanical Systems and Signal Processing, 2022, 171: 108868.  (SCIJCR1, 检索号:, 2020年影响因子:6.823)

[2] Zhendong Liu, Mengtao Xu, Hongzhuang Zhang, Changyou Li*(通讯作者), Guo Yao, Zhenyuan Li, HuiHui Miao, Chenyu Wang, Yimin Zhang. Nonlinear dynamic analysis of variable lead preloaded single nut ball screw considering the variation of working parameters. Nonlinear Dynamics, 2022, online, (SCIJCR1, 检索号:, 2020年影响因子:5.022)

[3] Zhenyuan Li, Yimin Zhang*(通讯作者), Changyou Li*(通讯作者), Mengtao Xu, Weibing Dai, Zhendong Liu. Modeling and nonlinear dynamic analysis of bolt joints considering fractal surfaces.  Nonlinear Dynamics, 2022, online, (SCIJCR1, 检索号:000739775000001, 2020年影响因子:5.022)

[4] Weibing Dai, Zhenghong Yao, Hongzhuang Zhang, Changyou Li*(通讯作者), Yuzhuo Liu, Yimin Zhang. Effect of forging ratio on tensile properties and fatigue performance of EA4T steel. Journal of Manufacturing Processes, 2022, 76: 291-303. (SCIJCR1, 检索号:, 2020年影响因子:5.01)

[5] Yang Jiancheng, Changyou Li*(通讯作者), Xu Mengtao, Yang Tianzhi, Zhang Yimin. Nonlinear dynamic characteristics of ball screw feed system under thermal deformation. Nonlinear Dynamics, 2022, online, (SCIJCR1, 检索号:000739775000001, 2020年影响因子:5.022)

[6] Ziyi Wang, Changyou Li*(通讯作者), Mengtao Xu, Yimin Zhang. Dynamic analysis and stability prediction of nonlinear feed system coupled with flexible workpiece. Journal of Sound and Vibration, 2022, 520: 116597. (SCIJCR1, 检索号:000737837100001, 2020年影响因子:3.655)

[7] Dai Weibing, Zhang Xiulu, Changyou Li*(通讯作者),Yao Guo. Effect of thermal conductivity on micro-arc oxidation coatings. Surface Engineering, 2022, online (SCIJCR2, 检索号:000743459900001, 2020年影响因子:3.169)

[8] Jiancheng Yang, Changyou Li, Mengtao Xu, Yimin Zhang. Analysis of thermal error model of ball screw feed system based on experimental data. The International Journal of Advanced Manufacturing Technology, 2022, online,  (SCIJCR2, 检索号:, 2020年影响因子:3.226)

[9] Mengtao Xu, Changyou Li*(通讯作者), Yang Sun, Tianzhi Yang, Hongzhuang Zhang, Zhendong Liu, Haiyang Liu, Zhenyuan Li, Yimin Zhang. Model and nonlinear dynamic analysis of linear guideway subjected to external periodic excitation in five directions. Nonlinear Dynamics, 2021, 105(4): 3061-3092. (SCIJCR1, 检索号:000684899600002, 2020年影响因子:5.022)

[10] Mengtao Xu, Changyou Li*(通讯作者), Hongzhuang Zhang, Zhendong Liu, Yimin Zhang. A comprehensive nonlinear dynamic model for ball screw feed system with rolling joint characteristics. Nonlinear Dynamics, 2021, 106(1): 169-210(SCIJCR1, 检索号:000691814500001, 2020年影响因子:5.022)

[11] Hongzhuang Zhang, Mengtao Xu, Zhendong Liu, Changyou Li*(通讯作者), Punit Kumar, Zhenhua Liu, Yimin Zhang. Microstructure, surface quality, residual stress, fatigue behavior and damage mechanisms of selective laser melted 304L stainless steel considering building direction. Additive Manufacturing, 2021, 46: 102147. (SCIJCR1, 检索号:000696695000001, 2020年影响因子:10.998)

[12] Hongzhuang Zhang, Mengtao Xu, Punit Kumar, Changyou Li*(通讯作者), Zhendong Liu, Yimin Zhang. Fatigue life prediction model and entropy generation of 304L stainless steel fabricated by selective laser melting. Journal of Materials Processing Technology. 2021, 297: 117279. (SCIJCR2, 检索号:000671802700001, 2020年影响因子:5.551)

[13] Weibing Dai, Ce Zhang, Ziyi Wang, Changyou Li*(通讯作者), ZhenghongYao, Yimin Zhang. Constitutive relations of micro-arc oxidation coated aluminumalloy. Surface & Coatings Technology, 2021, in press, (SCIJCR1, 检索号:000661438600012, 2020年影响因子:4.158)

[14] Hongzhuang Zhang, Mengtao Xu, Zhendong Liu, Changyou Li*(通讯作者), Yimin Zhang. Role of local recrystallization behavior on fatigue performance of SLMed304L austenitic stainless steels. Materials Characterization, 2021,177: 111159. (SCIJCR1, 检索号:000660285000001, 2020年影响因子:4.342)

[15] Huihui Miao, Changyou Li*(通讯作者), Chenyu Wang, Mengtao Xu, Yimin Zhang. The vibration analysis of the CNC vertical milling machine spindle system considering nonlinear and nonsmooth bearing restoring force. Mechanical Systems and Signal Processing, 2021, 161: 107970. (SCIJCR1, 检索号:000634842400004, 2020年影响因子:6.823)

[16] Mengtao Xu, Hongzhuang Zhang, Zhendong Liu, Changyou Li*(通讯作者), Yimin Zhang, Yingzi Mu, Chunming Hou. A time-dependent dynamic model for ball passage vibration analysis of recirculation ball screw mechanism. Mechanical Systems and Signal Processing, 2021, 157: 107632. (SCIJCR1, 检索号:000634840400011, 2020年影响因子:6.823)

[17] Zhendong Liu, Mengtao Xu, Hongzhuang Zhang, HuiHui Miao, Zhenyuan Li, Changyou Li*(通讯作者), Yimin Zhang*. Nonlinear dynamic analysis of ball screw feed system considering assembly error under harmonic excitation. Mechanical Systems and Signal Processing, 2021, 157: 107717. (SCIJCR1, 检索号:, 2020年影响因子:6.823)

[18] Hongzhuang Zhang, Mengtao Xu, Punit Kumar, Changyou Li*(通讯作者), Weibing Dai, Zhendong Liu, Zhenyuan Li, Yimin Zhang*. Enhancement of fatigue resistance of additively manufactured 304L SS by unique heterogeneous microstructure. Virtual and Physical Prototyping, 2021, 16(2): 125-145. (SCIJCR1, 检索号:000617589100001, 2020年影响因子:8.092)

[19] Hongzhuang Zhang, Changyou Li*(通讯作者), Mengtao Xu, Weibing Dai, Punit Kumar, Zhendong Liu, Zhenyuan Li, Yimin Zhang*. The fatigue performance evaluation of additively manufactured 304L austenitic stainless steels. Materials Science & Engineering A, 2021, 802, 140640. (SCIJCR1, 检索号:000612586100003, 2020年影响因子:5.234)

[20] Weibing Dai, Changyou Li*(通讯作者), Ce Zhang, Liaoyuan Chen, Zhenyuan Li,Hongzhuang Zhang, Yimin Zhang. Effect of Cu on microarc oxidation coated Al–xCualloys. Surface Engineering, 2021, in press, DOI: 10.1080/02670844.2021.1942413. (SCIJCR2, 检索号:000663659500001, 2020年影响因子:3.169)

[21] BingCai, ZhenghongYao, XiaowenZhang,Changyou Li*(通讯作者), XuLiu, XiaorongZhang, ZiyiWang, CeZhang. Damping model of fiber reinforced composites and factors affecting damping and dynamic response. Applied Composite Materials, 2021, https://doi.org/10.1007/s10443-021-09924-9. (SCIJCR3, 检索号:,2020年影响因子:2.181)

[22] Zhenghong Yao, Weibing Dai, Bing Cai, Changyou Li*(通讯作者), Hongzhuang Zhang, Yimin Zhang. Effect of quenching temperature on tensile strength and fatigue behavior of an EA4T Steel. Journal of Materials Engineering and Performance, 2021, 在线发表,(SCIJCR4, 检索号:000668064700005, 2020年影响因子:1.819)

[23] Haiyang Liu, Yimin Zhang, Changyou Li, Zhenyuan Li. Nonlinear dynamic analysis of CNC lathe spindle-bearingsystem considering thermal effect. Nonlinear Dynamics, 2021, 105(1): 131-166, (SCIJCR1, 检索号:000668064700005, 2020年影响因子:5.022)

[24] Liu Haiyang,Zhang Yimin, Li Changyou, Gu Jianguo. Reliability optimization design of deformation of CNC lathe spindle considering thermal effect. Proceedingsofthe Institutionof Mechanical Engineers Part O-Journalof Riskand Reliability, 2021: 1748006X21995380. (SCIJCR3, 检索号:000641104500001, 2020年影响因子:1.891)

[25] Hao Lyu, Xiaowen Zhang, Zaiyou Yang, Shuai Wang, Changyou Li, Michael Pecht. Reliability analysis for the dependent competing failure with wear model and its application to the turbine and worm system. IEEE Access, 2021, 3062026.  (SCIJCR2, 检索号:000638393300001, 2020年影响因子:3.361)

[26] Wei Wang, Gang Shen, Yimin Zhang, Zhencai Zhu, Changyou Li,Hao Lu. Dynamic reliability analysis of mechanical system with wearand vibration failure modes. Mechanism and Machine Theory, 2021, 163: 104385. (SCIJCR1, 检索号:000675859700004, 2020年影响因子:3.866)

[27] Wang Changli, Ding Pengfei, Huang Xianzhen, Gao Tianhong, Li Changyou, Zhang Ce. Reliability sensitivity analysis of ball-end milling accuracy. International Journalof Advanced Manufacturing Technology, 2021, 112(7-8): 2051-2064. (SCIJCR2, 检索号:000605566600016,影响因子:3.226)

[28] Changyou Li*(通讯作者), Weibing Dai, Hongzhuang Zhang, Yuzhuo Liu, Yimin Zhang. Effect of initial forging temperature on mechanicalproperties and fatigue behavior of EA4T steel. Engineering Fracture Mechanics, 2020, 238,107237. (SCIJCR1, 检索号:000579429200002,影响因子:4.406)

[29] Changyou Li*(通讯作者), Mengtao Xu, Guangkai He, Hongzhuang Zhang, Zhendong Liu, David He, Yimin Zhang. Time-dependent nonlinear dynamic model for linear guideway with crowning. Tribology International, 2020, 151: 106413. (SCIJCR1, 检索号:000580595400016,影响因子:4.872)

[30] Hongzhuang Zhang, Changyou Li*(通讯作者), Mengtao Xu, Zhendong Liu, Dawei Jia, Yimin Zhang. A novel method for damage analysis of CFRP single-lap bolted, bonded and hybrid joints under compression. Composite Structures, 2020, 251: 112636. (SCIJCR1, 检索号:000568676300009,影响因子:5.407)

[31] Sen Tian, Changyou Li*(通讯作者), Weibing Dai, Dawei Jia, Hongzhuang Zhang, Mengtao Xu, Yumeng Yuan, Yuzhuo Liu, Yimin Zhang. Effect of the countersunk hole depth on tensile-tensile fatigue behavior of riveted specimens of AA2024-T3 alloy. Engineering Failure Analysis, 2020, 115: 104639. (SCIJCR2, 检索号:000554860000003,影响因子:3.114)

[32] Li Changyou*(通讯作者), Dai Weibing, Liu Yuzhuo, Xu Wenze, Zhang Yimin, Tan Zhi. Effect of cooling condition on fatigue behavior of the forged EA4T steel. Steel Research International, 2020, 文献号: 2000167. (SCIJCR2, 检索号:000536830100001,影响因子:2.000)

[33] Xu Mengtao, Cai Bing, Li Changyou*(通讯作者), Zhang Hongzhuang, Liu Zhendong, He David, Zhang Yimin. Dynamic characteristics and reliability analysis of ball screw feed system on a lathe. Mechanism and Machine Theory, 2020, 150, 文献号: UNSP 103890. (SCIJCR1, 检索号:000535896600002,影响因子:3.866)

[34] Hongzhuang Zhang, Changyou Li*(通讯作者), Weibing Dai, Yuzhuo Liu, Sen Tian, Wenchao Huang, Dawei Jia, David He, Yimin Zhang. Static compression testing CFRP single-lap composited joints using X-ray μCT. Composite Structures, 2020, 234111667. (SCIJCR1区,检索号:000505168700018,影响因子:5.407)

[35] Weibing Dai, Jin Hao, Changyou Li*(通讯作者), David He*, Dawei Jia, Yimin Zhang, Zhi Tan. Residual stress relaxation and duty cycle on high cycle fatigue life of micro-arc oxidation coated AA7075-T6 alloy. International Journal of Fatigue, 2020, 130: 105283. (SCIJCR1区,检索号:000491639300022,影响因子:5.186)

[36] Whenchao Huang, Liyang Xie*, Changyou Li*(通讯作者), Dawei Jia, Bao Chai, Mu Yingzi, Hou Chunming, Weibing Dai. Ananalytical and experimental study of T-shaped composite stiffened panels: effect of 90°plies in stringers on curing and buckling performance. Applied Composite Materials, 2020, 27: 597–618. (SCIJCR3, 检索号:000551363800001,影响因子:2.181)

[37] Isyaku Muhammad, Xingang Wang, Changyou Li(通讯作者), Mingming Yan, Miaoxin Chang. Estimation of the reliability of a stress-strength system from Poisson half logistic distribution. Entropy, 2020, 22(11): 文献号1307. (SCIJCR2区,检索号:000592915100001,影响因子:2.514)

[38] Weibing Dai, Changyou Li*(通讯作者), David He*, Dawei Jia, Yimin Zhang, ZhiTan. Mechanism of residual stress and surface roughness of substrate on fatigue behavior of micro-arc oxidation coated AA7075-T6 alloy. Surface and Coatings Technology, 2019, 380: 125014. (SCIJCR1区,检索号:000502882700025,影响因子:3.784)

[39] Weibing Dai, Zhenhua Liu, Changyou Li*(通讯作者), David He*, Dawei Jia, Yimin Zhang, Zhi Tan. Fatigue life of micro-arc oxidation coated AA2024-T3 and AA7075-T6 alloys. International Journal of Fatigue, 2019, 124: 493–502. (SCIJCR1区,检索号:000470940100045,影响因子:4.369)

[40] Wei Wang, Yanxun Zhou, Hao Wang, Changyou Li*(通讯作者), Yimin Zhang*. Vibration analysis of a coupled feed system with nonlinear kinematic joints. Mechanism and Machine Theory, 2019, 134: 562–581. (SCIJCR1区,检索号:000457747100031,影响因子:3.312)

[41] Weibing Dai,Changyou Li*(通讯作者), David He*, Dawei Jia, Yimin Zhang, Zhi Tan. Influence of duty cycle on fatigue life of AA2024 with thincoating fabricated by micro-arc oxidation. Surface & Coatings Technology, 2019, 360:347-357 (SCIJCR1区,检索号:000458226700039,影响因子:3.784)

[42] Wei Wang, Yanxun Zhou, Changyou Li, Hao Wang, Yimin Zhang. Dynamic reliability analysis of a cantilever beam during a deterioration process. Mechanics Based Design of Structures and Machines, 2019, 47(1): 87-101. (SCIJCR2区,检索号:000455942000006,影响因子:2.286)

[43] Song Guo, Changyou Li*(通讯作者), Jingang Shi, Fangjun Luan, Xiaoyu Song. Effect of quenching media and tempering temperature on fatigue property and fatigue life estimation based on RBF neural network of 0.44% carbon steel. Mechanical Sciences, 2019, 10: 1–14(SCIJCR4区,检索号:000472158900001,影响因子:1.015)

[44] Zhenyuan Li, Yimin Zhang*, Changyou Li*(通讯作者), Zhi Tan. Dynamic and stability analysis of multibolt plane joints under normal forces. Applied Sciences, 2019, 9(24), 5521; (SCIJCR2区,检索号:000518042000256,影响因子:2.474)

[45] Wei Bing Dai, Long Xiang Yuan, Chang You Li*(通讯作者), David He*, Dawei Jia, Yimin Zhang. The effect of surface roughness of the substrate on fatigue life of coated aluminum alloy by micro-arc oxidation. Journal of Alloys and Compounds. 2018, 765(15): 1018-1025. (SCIJCR1区,检索号:000444341900126,影响因子:4.175)

[46] Wei Wang, Changyou Li, Yanxun Zhou, Hao Wang, Yimin Zhang. Nonlinear dynamic analysis for machine tool table system mounted on linear guides. Nonlinear Dynamics, 2018 (7):1-13. (SCIJCR1区,检索号:000450770300032,影响因子:4.604)