代表性论文:
[1] Jun-Hua Wang, Fu-Zhu Han, Shu-fan Chen, Wei-Sheng Ying. A novel model of laser energy attenuation by powder particles for laser solid forming. International journal of machine tools and manufacture. 145(2019),103440. (SCI一区,IF14,他引16次)
[2] Jun-Hua Wang, Mao-Hua Du, Fu-Zhu Han, Jing Yang. Effects of the ratio of anodic and cathodic currents on the characteristics of micro-arc oxidation ceramic coatings on Al alloys. Applied Surface Science. 292 (2014) 658-664. (SCI一区, IF6.7, 他引104次)
[3] Jun-Hua Wang, Jin Wang, Yan Lu, Mao-Hua Du, Fu-Zhu Han. Effects of single pulse energy on the properties of ceramic coating prepared by micro-arc oxidation on Ti alloy, Applied Surface Science, 324 (2015) 405-413.(SCI一区, IF6.7, 他引46次)
[4] Junhua Wang, Junfei Xu, Yan Lu, Tancheng Xie, Jianjun Peng. Prediction of Deposition Layer Morphology Dimensions Based on PSO-SVR for Laser-arc Hybrid Additive Manufacturing. Coating, 2023,13:1066. (SCI检索)
[5] Junhua Wang, Junfei Xu, Yan Lu, Tancheng Xie, Jianjun Peng. Z-Increments Online Supervisory System Based on Machine Vision for Laser Solid Forming. Micromachines, 2023, 14:1558. (SCI检索)
[6] Junhua Wang, Junfei Xu, Yan Lu, Tancheng Xie, Jianjun Peng. Prediction of molten pool temperature in laser solid forming based on PSO-LSTM. Fronties in materials, 2023, 10:1218222. (SCI检索)
[7] Junhua Wang, Fuzhu Han, Weisheng Ying. Surface evenness control of laser solid formed thin walled parts based on the mathematical model of the single cladding layer thickness. Journal of Laser Application. 2019.31:022009. (SCI检索)
[8] Junhua Wang, Fuzhu Han, Shufan Chen, Weisheng Ying. Modeling of laser power attenuation by powder particles for laser solid forming. Procedia CIRP (2020). (SCI检索)
[9] Bin Hu, Jianhai Han, Junhua Wang, Xiangpan Li. Prediction of the bead profile for wide-band laser cladding via hybrid model of mathematics and thermal simulation. Optics & Laser Technology, 2024, 170:110206. (SCI二区, IF5.0)
[10] Maohua Du, Peixin Wang, Junhua Wang, Zheng Cheng, Shensong Wang. Intelligent Turning Tool Monitoring with Neural Network Adaptive Learning. Hindawi Complexity. 2019. 8431784.(SCI检索)
[11] Weisheng Ying, Fuzhu Han, Junhua Wang. Experimental investigation of fabricating diamond abrasive layers by EDM. The International Journal of Advanced Manufacturing Technology (2017) 93:2111-2122.(SCI检索)
[12] Wei Chen, Fuzhu Han, Junhua Wang. Influence of pulse waveform on machining accuracy in electro-chemical machining. The International Journal of Advanced Manufacturing Technology (2018) 96:1367-1375.(SCI检索)
[13] Weisheng Ying, Fuzhu Han, Junhua Wang. Oxidation behavior and control method in laser solid forming of Rene 104 super alloy. Journal of Laser Application. 2019.31:032003.(SCI检索)
[14] Weisheng Ying, Fuzhu Han, Junhua Wang. Effects of preheating and cooling on the crack defects of laser solid formed Rene 104 super alloy parts. Part B: Journal of Engineering Manufacture. 2020, 234(8): 1087-1101.(SCI检索)
[15] Kecheng He, Yanwei Xu, Yun Wang, Junhua Wang, Tancheng Xie. Intelligent Diagnosis of Rolling Bearings Fault Based on Multisignal Fusion and MTF-ResNet. Sensors, 2023, 23:6281. (SCI检索)
[16] Bin Hu, Jianhai Han, Junhua Wang, Xiangpan Li. Modeling of melt pool and thermal field simulation for wide-band laser cladding. Optical engineering, 2023, 62(11):116103. (SCI检索)
[17] Junjie Zhu, Sijia Zou, Yanru Mu, Junhua Wang, Yuan Jin. Additively Manufactured Scaffolds with Optimized Thickness Based on Triply Periodic Minimal Surface. Materials, 2022, 15:7084. (SCI检索)
[18] Bin Hu, Jianhai Han, Junhua Wang. Parameter Study and Economic Efficiency Optimization for Laser Cladding with Wide-Band Fiber Laser. Hindawi, 2022, 6373772. (SCI检索)
[19] Junhua Wang, Fuzhu Han, Weisheng Ying. Prediction and verification of the single cladding layer thickness for laser solid forming. ICAFMC.MATEC Web of Conferences. 242,01010.(EI检索)
[20] Weisheng Ying, Fuzhu Han, Junhua Wang. Analysis of crack mechanism in FGH 98 super alloy during the laser solid forming process, ICAFMC.MATEC Web of Conferences. 242,01011.(EI检索)
[21] Yan Lu, Jie Su, JunHua Wang, Gang Xie. Effect of W on microstructure of high strength and toughness steels. Acta Metallurgica Sinica. 2011.24(6):423-431.(EI检索)
代表性专利:
[1] 王军华,许俊飞,等. 一种超声滚挤压原位复合的激光立体成形装置及使用方法,CN202311681800.X;
[2] 王军华,曹浩,等. 一种具有冷热固型功能的食品3D打印复合喷头装置,CN202311419030.1;
[3] 王军华,梁向源,等. 一种轴件冷却结构及轴件激光熔覆装置,CN202310941850.0;
[4] 颉潭成,王军华,等. 一种激光立体成形工作台,ZL202210730765.5;
[5] 颉潭成,王军华,等. 一种粉末烘干装置及粉末回收系统,CN202211115921.3;
[6] 颉潭成,王军华,等. 气氛制造室、激光立体成形加工系统以及加工方法,CN202211192342.9;
[7] 彭建军,王军华,等. 一种喷钩组件开启压力、流量的测试机及测试方法,CN202310825269.2;
[8] 彭建军,王军华,等. 一种基于智能物流搬运的机械臂系统,CN202310775823.0;
[9] 韩福柱,王军华,等. 一种三维电铸加工方法及系统,CN201510770394.3;
[10] 杜茂华,王军华,等. 一种钛合金金属基陶瓷涂层刀具及其制备方法,CN201510678823.4;