吴斌涛，博士/副教授，国际焊接工程师

研究方向： 金属增材制造（3D打印）；新型金属材料设计与制备；先进制造；

联系电话： +86 15595046055

电子邮箱：  wubintao@outlook.com

教育背景

2020- 至今               宁夏大学                                                                          

2018 - 2020              University of Wollongong (AU)       Associate Research Fellow 

2016 - 2018              University of Wollongong (AU)       机械、机电与材料工程                

2013- 2015               哈尔滨工程大学                               船舶与海洋工程                           

2009 - 2013              哈尔滨工程大学                               船舶与海洋工程                           

科研经历

研究概述    长期从事航空航天、舰船等大型金属零部件3D打印研究，具有基于工业机器人的自动化焊接、增材制造装备设计与工艺研发，产品性能检测与评价等丰富经验。主持（参与）澳大利亚项目、工信部高新船舶技术项目、宁夏自然科学基金（重点）项目，宁夏重点研发计划（引才专项）项目等多项，累计项目金额过千万元，具有丰富的科研经验和一线工程认识。累计发表高水平科技论文、申请专利共计50余项。担任Material 特邀编辑，任AM，JMST，MD等十多个国际知名期刊审稿人。

项目经历

1.     天然气水合物钻采船（大洋钻探船）总装建造关键技术研究，工信部高新技术船舶项目（子课题），项目总经费11200万，子课题经费130万，2021.01-2023.12.

2.     增材制造Fe/Ni 异种金属结构组织成形与性能强化机理研究，宁夏自然科学基金（重点项目），30万，2021.04-2023.04.

3.     电弧熔丝增材制造层间冷却控性控性技术装备研究与应用，宁夏重点研发计划（引才专项），11万， 2021.01-2021.12.

4.     Wire Arc Additive Manufacturing of functional Metallic Component, 澳大利亚项目，AU$ 170K（约100万）, 2021.01-2022.12.

5.     Wire Arc Additive Manufacturing of Aerospace Component，澳大利亚项目，AU$ 525K（约260万）, 2018.01-2020.12.

教学经历

➢  教学课程： Topics in Mechatronics; Dissertation; 《机械工程与Auto CAD》

➢  指导（辅助）：博士研究生3人，硕士研究生9人，本科生3人 

代表性论文

➢  B. Wu, Z. Pan*, H. Li, D. Ding, D. Cuiuri. Effects of synchronized magnetic arc oscillation on microstructure, texture, grain boundary and mechanical properties of wire arc additively manufactured Ti6Al4V alloy. Additive. manufacturing. 2022. (中科院一区TOP， IF:10.998)

➢  Z. Qiu, B. Wu*, H. Zhu, Z. Wang, K. Capture, T. Wu, J. Zhang, D. Wexler. Tailoring the surface finish, dendritic microstructure and mechanical properties of wire arc additively manufactured Hastelloy C276 alloy by magnetic arc oscillation. Additive Manufacturing,48 (2021), 102397. (中科院一区TOP， IF:10.998)

➢  B. Wu, Z. Pan*, Z. Qiu, K. Carpenter. T. Wang, D. Ding, S. Duin, H. Li. Enhanced interface strength in iron-nickel bimetallic component fabricated using wire arc additive manufacturing with interweaving deposition strategy. Journal of Material Science and Technology, 52(2020) 226-234.  (中科院一区TOP， IF:8.067)

➢  B. Wu, Z. Pan, D. Ding *, D. Cuiuri, H. Li. Effects of heat accumulation on microstructure and mechanical properties of Ti6Al4V alloy deposited by wire arc additive manufacturing. Additive manufacturing, 23(2018):151-160. (中科院一区TOP， IF:10.998)

➢  B. Wu, Z. Pan*, S. Li, D. Ding, D. Cuiuri, H. Li, The anisotropic corrosion behaviours of wire arc additive manufactured Ti-6Al-4V parts in 3.5% NaCl solution. Corros. Sci. 137 (2018) 176-183. (中科院一区TOP， IF: 7.205)

➢  B. Wu, D. Ding, Z. Pan *, D. Cuiuri, H. Li, J.Han, Z. Fei, Effects of heat accumulation on the arc characteristics and metal transfer behavior in Wire Arc Additive Manufacturing of Ti6Al4V, J. Mater. Process. Tech. 250 (2017) 304-312.  (Q1, IF: 5.551)

➢  B. Wu, Z. Pan *, D. Ding, D. Cuiuri, H. Li, The effects of forced interpass cooling on the material properties of wire arc additively manufactured Ti6Al4V alloy, J. Mater. Process. Tech. 258 (2018) 97-105. (Q1, IF: 5.551)

➢  B. Wu, Z. Pan*, D. Ding, D. Cuiuri, H. Li, J. Xu, J. Norrish. A review on the wire arc additive manufacturing of metals: property, defect and quality improvement. J. Manu. Process. 35 (2018):127-139. (Q1, IF: 5.01)

➢  B. Wu, Z. Pan*, D. Ding, H. Li, G. Chen, D. Cuiuri. Migration of thermal distortion in wire arc additive manufacturing of Ti6Al4V alloy using forced interpass cooling method. Sci. Technol. Weld. Joi., 24(2019):484-494. (Q1, IF: 3.422)

➢  B. Wu, Z. Pan *, H. Li, D. Ding, D. Cuiuri, L. Yuan, S. Duin Robotic skeleton arc additive manufacturing of aluminium alloy. Int. J. Adv. Manuf. Tech. 114(2021)2945-2959.