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Full-time Researchers Home > English > Faculty > Full-time Researchers > 正文
 
Xiankai Meng
Date:2019-12-06   View:
Name Xiankai Meng

Gender Male
Title/Position Assistant research fellow
Supervisor Master Tutor
Discipline Mechanical engineering
Phone 18706101016
E-mail xkmeng@ujs.edu.cn
Personal Introduction

Xiankai Meng is mainly engaged in laser processing and its anti fatigue manufacturing, laser peening processing equipment. Now, he presides “Natural Science Foundation of Jiangsu Province”, “ Postdoctoral Foundation of Jiangsu Province”, and several “Open Foundation of Key Laboratories”. He has published 12 academic papers in journals of “Materials Science and Engineering A”, “Materials”, “Rare Metal Materials and Engineering”, “Chinese Journal of Lasers” and other domestic journals He has authorized 14 Chinese patents and applied for 4 PCT patents. He has won "Hiwin Doctoral Dissertation Award", “Innovative and Entrepreneurial Doctor of Jiangsu Province”, “Excellent Doctoral Dissertation of Jiangsu Province”, “Excellent Doctoral Dissertation of Jiangsu University”.
Education Background

2013.09~present Jiangsu University Mechanical engineering Doctor of Engineering
2011.09~2013.06 Jiangsu University Mechanical engineering Master of Engineering
2009.09~2011.06 Taiyuan Institute of Technology  Mechanical engineering and automation  Bachelor of Engineering
Work Experience

2017.10~present Jiangsu University  Assistant research fellow
Academic Posts

None.
Research Fields
[1] Laser processing and anti fatigue manufacturing technology
[2] Laser compound processing technology and its application
[3] Flexible laser shock strengthening equipment
Representative Publications

[1] X.K. Meng, J.Z. Zhou, C. Su, S. Huang, K.Y. Luo, J. Sheng, W.S. Tan. Residual stress relaxation and its effects on the fatigue properties of Ti6Al4V alloy strengthened by warm laser peening[J]. Materials Science & Engineering A, 2017,680:297-304.  (SCI)
[2] X.K. Meng, J.Z. Zhou, C. Su, S. Huang, J. Sheng, X.W. Yang. Properties of laser shock wave in Al-Cu alloy under elevated temperatures:A molecular dynamics simulation study[J]. Materials, 2017, 10(1): 73-87.  (SCI)
[3] J.Z. Zhou, X.K. Meng, S. Huang, J. Sheng, J.Z. Lu, Z.R. Yang, C. Su. Effects of warm laser peening at elevated temperature on the low-cycle fatigue behavior of Ti6Al4V alloy[J]. Materials Science & Engineering A, 2015, 643: 86-95.  ( SCI)
[4] X.K. Meng,  J.Z. Zhou, S. Huang, J. Sheng, Y.H. Han, W.L. Zhu, H.S. Chen, C. Su. Residual Stress Relaxation and Fatigue Properties of TC4 Titanium Alloy Induced by Warm Laser Peening under High-Cycle Fatigue. Rare Metal Materials and Engineering, 2015, 44(5): 1185-1190. ( SCI)
[5] X.K. Meng, J.Z. Zhou, S. Huang, J. Sheng, W.L. Zhu, Y.H. Han, H.S. Chen, X. Feng, C. Su. Finite element simulation of residual stresses in Ti6Al4V Following warm laser peening[J]. Lasers in Engineering, 2017.36(1-3):169-184.  (SCI)
[6] J.Z. Zhou, X.K. Meng, W.L. Zhu, X. Feng, J. Sheng, J.Z. Lu. Residual stress relaxation of Ti-6Al-4V alloy based on the variation of damping capacity introduced by warm laser peening[J]. Lasers in Engineering, 2017.36(1-3):73-88.  (SCI)
[7] X.K. Meng, J.Z. Zhou, S. Huang, J. Sheng, C. Su, X.W. Yang. Molecular dynamics simulation of dislocation development in monocrystalline copper induced by warm laser peening[J]. Chinese Journal of Lasers, 2015, 42(7):0702003-1.( EI)
[8] X.K. Meng, S. Huang, Z.W. An, J.Z. Zhou, H. Zhong, Q. Tian, H.S. Chen. Finite element analysis of shock wave pressure induced by warm laser peening[J]. Acta Optica Sinica, 2013, 33(6): S106001-1-5. (EI)
[9] X.K. Meng, J.Z. Zhou, C. Su, S. Huang, J. Sheng, H.S. Chen, J.L. Xu. Effect of temperature on surface mechanical property of 2024 aluminum alloy treated by laser peening[J]. Chinese Journal of Lasers, 2016, 10:1002003-1. ( EI)
[10] X.K. Meng,J.Z. Zhou,C. Su,S. Huang,W.S. Tan. Peening mechanism of laser shock wave in Al-Cu alloy at liquid nitrogen temperature[J]. Optics and Precision Engineering,2016, 24(10):247-253. ( EI)
[11] G. Zheng, X.K. Meng, S.L. Chen, D. Mu, X.W. Yang, J. Sheng, J.Z. Zhou. Research on hot-corrosion of inconel718 nickel-based alloy treated by warm laser shock peening[J]. Chinese Journal of Lasers, 43(4): 0403005-1. ( EI)
Research Projects
[1] Natural Science Foundation of Jiangsu Province (Youth Funding), 2018.7~2021.6, No.1.
[2] Postdoctoral Foundation of Jiangsu Province, 2018.7~2020.2, No.1.
[3] Open funding of Green Process Equipment Laboratory (Jiangsu),2018.7~2021.6, No.1.
[4] Open funding of Large Plastic Intelligent Manufacturing Laboratory (Changzhou),2017.11-2018.12, No.1.
[5] Jiangsu doctoral innovation program,2014.7~2017.4, No.1.
[6] Jiangsu University- LeaderDrive company (Suzhou) cooperation project,2018.11~2021.10,No.2.
[7] Specialized Research Fund for the Doctoral Program of Higher Education,2013.1-2012.12,No.2.
[8] National Natural Science Foundation of China,2012.01-2015.12,No.3.
[9] National Natural Science Foundation of China,2016.01-2019.12,No.5.
[10] Jiangsu Science and technology support project(Industry),2013.9-2016.9,No.5.
Honors and Awards
[1] Hiwin Doctoral Dissertation Award (Special award), Chinese mechanical engineering society, 2018.
[2] Excellent Doctoral Dissertation of Jiangsu Province, Jiangsu education department, 2018.
[3] Excellent Doctoral Dissertation of Jiangsu University, Jiangsu University, 2017.
Patents
[1] X.K. Meng, J.Z. Zhou, H.S. Chen, W.L. Zhu, Y.H. Han, H.D. Zhou, S. Huang, Y.F. Mei. Constant-speed continuous silicone oil restraint device and method. Chinese Invention Patent, patent number: ZL2013201317677671.9.
[2] X.K. Meng, J.Z. Zhou, S. Huang, L.D. Zuo, J. Sheng, H.Y. Wang, Q. Tian, H. Zhong. Method and device of laser shot peening aviation titanium alloy based on dynamic strain aging. Chinese Invention Patent, patent number:ZL201210455869.6.
[3] X.K. Meng, J.Z. Zhou, J. Sheng, S. Huang, Y.X. Ye, H.D. Zhou, X. Feng, Y. Zheng. High-power laser beam expanding mirror system with automatic temperature compensation. Chinese Invention Patent, application number:201510563908.8.
[4] J.Z. Zhou, X.K. Meng, S. Huang, H.S. Chen, J. Sheng, W.L. Zhu, Y.H. Han, H.D. Zhou, C. Su. Methods and devices that can significantly improve the anti-vibration performance of aviation aluminum alloy materials. Chinese Invention Patent, patent number: ZL201410177914.5.
[5] J.Z. Zhou, X.K. Meng, S. Huang, J. Sheng, H.Y. Wang, H.F. Zhang, S.Q. Xu, H.D. Zhou. Method and device for anti-blocking salt powder atomization with high precision concentration control. Chinese Invention Patent, patent number: ZL201410275793.8.
[6] J.Z. Zhou, X.K. Meng, S. Huang, J. Sheng, H.Y. Wang, Y.H. Han, W.L. Zhu, C. Su, Y.F. Mei. Controllable laser temperature peening surface strengthening method and device for heat affected zone. Chinese Invention Patent, patent number: ZL201410492534 .0.
[7] J.Z. Zhou, X.K. Meng, S. Huang, J. Sheng, H.Y. Wang, Y.H. Han, W.L. Zhu, C. Su, Y.F. Mei. Method and device for restraining laser shock wave pressure based on air laminar flow. Chinese Invention Patent, patent number: ZL201410492392.8.
[8] J.Z. Zhou, X.K. Meng, S. Huang, X.J. Xie, J. Yang, H.Y. Wang. Method and device for obtaining high adhesion nano-coating. Chinese Invention Patent, patent number: ZL201210281990.1.
[9] J.Z. Zhou, X.K. Meng, H.Y. Ruan, S. Huang, J. Sheng, H.D. Zhou, H.Y. Wang, C. Su, X.W. Yang. Multi-index high-speed dynamic detection and material distribution method and device of toroidal sliding bearings. Patent number: ZL201510001221.5.
[10] J.Z. Zhou, X.K. Meng, S. Huang, J. Sheng, C. Su, H.D. Zhou, X. Feng, X.W. Yangi. Cryogenic laser impact head and laser impact system with high light transmittance. Chinese Invention Patent, patent number: ZL201510563117.5.
[11] J.M. Wang, X.K. Meng, L. Chen, S. Huang, J.Z. Zhou. Full plastic storage tank roll-plastic device with precise and controllable mobile temperature. Chinese Invention Patent, patent number: ZL201310194518.9.
[12] J.Z. Zhou, X.K. Meng, S. Huang, J. Sheng, C. Su, H.D. Zhou, X.W. Yang, H.S. Chen. A method and device to improve the pressure of laser induced shock wave. PCT International Invention Patent, application number: PCT/ cn2015/089032.
[13] X.K. Meng, J.Z. Zhou, C. Su, J. Sheng, J.L. Xu, J. Li, S. Huang. A cryogenic table, cryogenic laser shock strengthening experimental system and its control method. PCT International Invention Patent, application number: PCT/ cn2016/099513.
[14] J.Z. Zhou, X.K. Meng, C. Su, J. Sheng, J.L. Xu, S. Huang, J. Li. A cryogenic laser shock intensification method and device based on laser induced high temperature plasma technology. PCT International Invention Patent, application number: PCT/ cn2016/099514.
 
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