王朝琴-机电工程学院 - 兰州交通大学

王朝琴

2025-03-14 点击：次

基本情况

姓名：王朝琴

职称：副教授

职务：

学历：硕士

类别：硕导

联系方式：

电子邮箱：wzqpapers@126.com

工作单位：

个人简介

教育经历：

(1) 2015.9–至今，兰州理工大学，博士在读

(2) 2005.9–2008.6,沈阳理工大学,机械电子工程,硕士

(3) 2000.9–2004.6,沈阳理工大学,机械设计制造及其自动化

工作经历：

(1) 2016.7-至今,兰州交通大学,机电学院车辆工程系,副教授

(2) 2012.7-2016.6,兰州交通大学,铁道技术学院机械工程系,讲师

(3) 2009.7-2012.6,兰州交通大学,铁道技术学院机械工程系,助教

研究方向

1. 激光/电弧增材制造，电火花表面工程，先进金属材料焊接与连接

2. 工业机器人技术，数控技术及数控机床

3. 高熵非晶，高熵合金

代表性科研成果

论文：

[1] Z.-Q. Wang, X. R. Wang, Y.-S. Wang, C.-Y. Li, T.-S. Lin, and P. He,'Principle and application of the ball end mill - tool radius compensation for NURBS curve swept surfaces based on 3-axis CNC milling machines',Int J Precis Eng Manf, 2021,22(9), 1517-1526.

[2] Z. Q. Wang, X. Q. Liu, X. R. Wang, C. Y. Li, N. Yang, T. S. Lin, and P. He,'Robotic milling of complex NURBS surface with fixed cutter axis control method',Industrial Robot, 2021,48(3), 413-422.

[3] X. Q. Liu, Y. X. Zhang, X. R. Wang, Z. Q. Wang, and P. He,'Microstructure and corrosion properties of AlCrxNiCu0.5Mo (x=0, 0.5, 1.0, 1.5, 2.0) high entropy alloy coatings on Q235 steel by electrospark - computer numerical control deposition',Mater Lett, 2021,292C, 129642.

[4] Z. Q. Wang, X. R. Wang, Y. S. Wang,R. J. Wang, M. Y. Bao, T. S. Lin, and P. He,'Ball end mill - tool radius compensation of complex NURBS surfaces for 3-axis CNC milling machines',Int J Precis Eng Manf, 2020,21(8), 1409-1419.

[5] X. R. Wang, Z. Q. Wang, T. S. Lin, P. He, R. J. Wang, and M. Y. Bao,'Preparation of complex surface coatings based on electrospark − computer integrated deposition system',Assembly Autom, 2020,40(2), 165–173.

[6] Y. S. Wang, X. R. Wang, Z. Q. Wang, T. S. Lin, and P. He,'Preparation and microstructure of AlCoCrFeNi high-entropy alloy complex curve coatings',Mater Sci Tech, 2017,33(5), 559-566.

[7] X. R. Wang, Z. Q. Wang, Y. S. Wang, T. S. Wang, and P. He,'A bisection method for the milling of NURBS mapping projection curves by CNC machines',Int J Adv Manuf Tech, 2017,91(1-4), 155-164.

[8] X. R. Wang, Z. Q. Wang, T. S. Lin, and P. He,'Mass transfer trends of AlCoCrFeNi high-entropy alloy coatings on TC11 substrate via electrospark−computer numerical control deposition',J Mater Process Tech, 2017,241, 93-102.

[9] X. R. Wang, Z. Q. Wang, W. S. Li, T. S. Lin, P. He, and C. H. Tong,'Preparation and microstructure of CuNiTiZr medium-entropy alloy coatings on TC11 substrate via electrospark – computer numerical control deposition process',Mater Lett, 2017,197, 143-145.

[10] X. R. Wang, Z. Q. Wang, P. He, and T. S. Lin,'The concept, construction and application of mixing enthalpy matrix for high-entropy alloys',Indian Journal of Engineering & Materials Sciences, 2017,24(2), 141-146.

[11] 王小荣,王朝琴,何鹏, and林铁松,'45钢表面高能微弧火花数控化沉积AlCoCrFeNi高熵合金',焊接学报, 2016,37(10), 73-76.

[12] X. R. Wang, Z. Q. Wang, T. S. Lin, P. He, and D. P. Sekulic,'Impact of CrSiTi and NiSi on the Thermodynamics, Microstructure, and Properties of AlCoCuFe-Based High-Entropy Alloys',Journal of Materials Engineering and Performance, 2016,25(5), 2053-2064.

[13] X. R. Wang, Z. Q. Wang, T. S. Lin, and P. He,'Microstructure, thermodynamics and compressive properties of AlCrCuNiZrx(x = 0,1) high-entropy alloys',Mater Sci Tech, 2016,32(12), 1289-1295.

[14] X. R. Wang, Z. Q. Wang, T. S. Lin, and P. He,'The high-energy micro-arc spark–computer numerical control deposition of planar NURBS curve coatings',Int J Adv Manuf Tech, 2016,87(9-12), 3325-3335.

[15] Z. Q. Wang, X. R. Wang, H. Yue, G. T. Shi, and S. H. Wang,'Microstructure, thermodynamics and compressive properties of AlCoCrCuMn- x ( x =Fe, Ti) high-entropy alloys',Mater Sci Eng A, 2015,627, 391-398.

[16] X. R. Wang, Z. Q. Wang, P. He, T. S. Lin, and Y. Shi,'Microstructure and wear properties of CuNiSiTiZr high-entropy alloy coatings on TC11 titanium alloy produced by electrospark — computer numerical control deposition process',Surf Coat Tech, 2015,283, 156-161.