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王福吉
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教授
博士生导师
硕士生导师
- 任职 : 辽宁省先进复合材料高性能制造重点实验室主任
- 性别:男
- 毕业院校:大连理工大学
- 学位:博士
- 所在单位:机械工程学院
- 学科:机械电子工程. 机械制造及其自动化
- 办公地点:知方楼7059
- 联系方式:办公电话:0411-84707743,qq:66894581
- 电子邮箱:wfjsll@dlut.edu.cn
访问量:
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[121] 马建伟, 贾振元, 王福吉, Gao, Yuan-yuan, Liu, Zhen.A new cutting force modeling method in high-speed milling of curved surface with difficult-to-mach[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2022,84(9-12):2195-2205
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[122] 贾振元, 陈晨, 王福吉, Zhang, Chong.Analytical study of delamination damage and delamination-free drilling method of CFRP composite[J],JOURNAL OF MATERIALS PROCESSING TECHNOLOGY,2022,282
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[123] 马建伟, Song, De-Ning, 贾振元, Jiang, Wen-Wen, 王福吉, 刘巍.An Equivalent-Plane Cross-Coupling Position Control for Contour-Accuracy Improvement in Three-Axis[J],JOURNAL OF DYNAMIC SYSTEMS MEASUREMENT AND CONTROL TRANSACTIONS OF THE ASME,2022,141(4)
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[124] 贾振元, Zhang, Lingxuan, 王福吉, 刘巍.A New Method for Discharge State Prediction of Micro-EDM Using Empirical Mode Decomposition[J],JOURNAL OF MANUFACTURING SCIENCE AND ENGINEERING TRANSACTIONS OF THE ASME,2022,132(1):0145011-0145016
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[125] 刘伟, 贾振元, 王福吉, Ma, Xin, Wang, Wenqiang, Jia, Xinghua, Song, Di.An improved online dimensional measurement method of large hot cylindrical forging[J],MEASUREMENT,2022,45(8):2041-2051
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[126] 贾振元, Zhang, Chong, 王福吉, 付饶, 陈晨.An investigation of the effects of step drill geometry on drilling induced delamination and burr o[J],COMPOSITE STRUCTURES,2022,235
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[127] Ning, Fu-da, 王福吉, 马建伟.A New Modeling Method for Cutting Forces in Side Milling of Aluminum Alloy[A],International Conference on Mechanical Design, Manufacture and
Automation Engineering (MDMAE),2022,420-424
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[128] 马建伟, 王福吉, 贾振元, Wei W..A new planning method for sample points of free-form curved surface[J],INTERNATIONAL JOURNAL OF COMPUTER APPLICATIONS IN TECHNOLOGY,2022,52(1):39-47
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[129] 刘巍, Jia, Xinghua, 王福吉, 贾振元.An in-pipe wireless swimming microrobot driven by giant magnetostrictive thin film[J],SENSORS AND ACTUATORS A PHYSICAL,2022,160(1-2):101-108
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[130] 贾振元, 刘巍, 张永顺, 王福吉, 郭东明.A nonlinear magnetomechanical coupling model of giant magnetostrictive thin films at low magnetic [J],SENSORS AND ACTUATORS A PHYSICAL,2022,128(1):158-164
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[131] 王福吉, Yin, Junwei, 贾振元, 牛斌, 刘巍.A novel approach to evaluate the delamination extent after edge trimming of carbon-fiber-reinforce[J],PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART B JOURNAL OF EN,2022,232(14):2523-2532
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[132] Lin, Shengo, 刘巍, 王永青, 贾振元, 王福吉.A Novel Six-Axis Heavy Force Sensor[A],1st International Conference Intelligent Robotics and Applications,2022,5315:522-529
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[133] 贾振元, 刘慧芳, 王福吉, 刘巍, Ge, Chun-Ya.A novel magnetostrictive static force sensor based on the giant magnetostrictive material[J],MEASUREMENT,2022,44(1):88-95
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[134] Cui, Jiacheng, 刘伟, 张杨, Gao, Changyong, Lu, Zhe, 李铭, 王福吉.A novel method for predicting delamination of carbon fiber reinforced plastic (CFRP) based on multi-[J],MECHANICAL SYSTEMS AND SIGNAL PROCESSING,2022,157
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[135] 王福吉, Zheng, Jiaquan, Wang, Gongshuo, Jiang, Dayue, Ning, Fuda.A novel printing strategy in additive manufacturing of continuous carbon fiber reinforced plastic co[J],MANUFACTURING LETTERS,2022,27:72-77
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[136] 王福吉, Wang, Xiaonan, Zhao, Xiang, Bi, Guangjian, 付饶.A numerical approach to analyze the burrs generated in the drilling of carbon fiber reinforced pol[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2022,106(7-8):3533-3546
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[137] 刘巍, Ma, Xin, Li, Xiao, Pan, Yi, 王福吉, 贾振元.A Novel Vision-Based Pose Measurement Method Considering the Refraction of Light[J],SENSORS,2022,18(12)
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[138] 马建伟, 王福吉, 贾振元, 刘巍.Application of principal component analysis for mechanical coupling system modelling based on suppor[J],International Journal of Mechatronics and Automation,2022,1(2):71-78
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[139] 贾振元, 马建伟, Song, De-ning, 王福吉, 刘巍.A review of contouring-error reduction method in multi-axis CNC machining[J],INTERNATIONAL JOURNAL OF MACHINE TOOLS MANUFACTURE,2022,125:34-54
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[140] 白羽, 王福吉, 付饶, Hao, Jiaxuan, 司立坤, 张博宇, 刘伟, Davim, J. Paulo.A semi-analytical model for predicting tool wear progression in drilling CFRP[J],WEAR,2022,486-487
