教育经历:
2016.07 - 2018.09,University of Wollongong,博士
2013.09 - 2015.06,哈尔滨工程大学,船舶与海洋工程,免试硕士
2009.09 - 2013.07,哈尔滨工程大学,船舶与海洋工程,工学学士
工作经历:
2020.05 -至今,宁夏大学
2018.09 - 2020.04,University of Wollongong, Associate Research Fellow
研究领域:
1. 大尺寸金属零部件增材制造;
2. 增材制造智能装备设计、工艺研发、质量性能检测与评价;
3. 高性能金属材料(钛合金、高强铝合金、镍基合金、高熵合金)等材料设计与增材制造;
4. 增材制造数字孪生;
讲授课程:
《工程制图与AutoCAD》、《材料前沿讲座》、《新能源前沿讲座》、《增材制造工程与技术》
研究生:
施袭纯(2021),张云舒(2021),施汉祥(2021),李恒芮(2022),褚卓楠(2022),郭筱松(2022),高涵琪(2023),王嘉伟(2023),郑启文(2023),姚正午(2023)
主要学术兼职:
《材料工程》、《航空材料学报》、《International Journal of Extreme Manufacturing》青年编委,《Additive Manufacturing》、《Corrosion Science》、《Journal of Material Science and Technology》《Journal of Magnesium and Alloys》、《Journal of Material Processing and Technology》、《Material & Design》、《Material Characterization》、《Journal of alloys and compound》等多个国际期刊审稿人。
荣誉与奖励:
1.获得2022国家高层次留学人才回国资助人选
2.西部之光青年学者
3.入选2023全球前2%顶尖科学家榜单(年度科学影响力排行榜)
项目经历:
主持或参与澳大利亚 DMTC 项目、国家重点研发计划项目、工信部高新技术船舶项目、宁夏自然科学基金(重点)项目、宁夏重点研发计划等项目10余项。
学术成果:
近年来,在国内外知名学术期刊发表学术论文共计 50余篇(1 篇入选 ESI 1%高被引论文,1‰热点论文,被“今日头条、 搜狐新闻”等网站转载报道 3篇),单篇论文被引用100次以上6篇,他引量3000余次(谷歌学术)。
[代表性论文]:
1. H Li, X Shi, B Wu*, Wire arc additive manufacturing: A review on digital twinning and visualization process, Journal of Manufacturing Processes, 116 (2024) 293-305.
2. Wu, B., Shi, H., Liu, J., ...Pan, Z., Li, H. Selective crack propagation in steel-nickel component printed by wire arc directed energy deposition. Materials and Design, 237(2024) 112541.
3. 肖典, 蒲柯伶, 褚卓楠, 方乃文, 武鹏博, 吴斌涛*, 基于机器学习的电弧行为识别与特征分析[J]. 焊接学报, 3(2024)15-24.
4. Z. Shao, D. Yu, D. Shao, Y. Du, D. Zheng, Z. Qiu, B. Wu*, A protective role of Cl− ion in corrosion of stainless steel, Corrosion Science, 226(2024)111631.
5. Guo, X., Chu, Z., Shao, D., Li, P., Wu, B*. Wire-arc directed energy deposition of Ti–6Al–4V alloy using CO2 active interpass cooling: phase composition, grain orientation, texture strength, dislocation density and mechanical property. Journal of Materials Research and Technology, 28 (2024) 3196-3206.
6. Z. Shao, B. Wu*, P. Li, et al. Mechanism of corrosion protection in reinforced Ti-6Al-4V alloy by wire arc additive manufacturing using magnetic arc oscillation. Materials characterization, 99(2023) 112844.
7. Chu, Z., Shao, Z., Guo, X., Li, P., Wu, B*. Improving corrosion resistance of spark plasma sintering-produced AlCoCrFeNi2.1 high entropy alloy via in-situ process pressure and temperature control. Journal of Materials Research and Technology, 27(2023) 6581-6592.
8. 张云舒, 吴斌涛*, 赵昀等. 电弧熔丝增材制造传热传质数值模拟研究现状与展望. 机械工程学报, 12(2023)1.
9. Li P., Peng K., Wu, B*, Huang H., Zhang Y., Gao M. Mechanical properties of Al-Si matrix composites synergistically reinforced by high-entropy alloy and SiC nanoparticles, Journal of Alloys and Compounds, 939(2023) 168762.
10. B. Wu, Z. Shao, D. Shao, etal. Enhanced corrosion performance in Ti-6Al-4V alloy produced via wire-arc directed energy deposition with magnetic arc oscillation. Additive Manufacturing, 66(2023) 103465.
11. Liu J., Wu B*, Wang Z., Li C., Chen G., Miao Y. Microstructure and mechanical properties of aluminum-steel dissimilar metal welded using arc and friction stir hybrid welding, Materials and Design, 225(2023) 111520
12. Qiu Z., Wang Z., Gazder A.A., van Duin S., Studer A., Garbe U., Gu Q., Wu B.*. Stabilised mechanical properties in Ni-based Hastelloy C276 alloy by additive manufacturing under different heat inputs incorporated with active interlayer temperature control, Materials Science and Engineering: A, 862 (2023) 144434.
13. 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, 54(2022) 102723.
14. B. Wu, Z. Pan*, D. Dong, et al. Microstructural characterisation and hardness assessment of wire arc cladded Hastelloy C276 on creep resistant steel P91. JM&RT, 19(2022), 3818-3827.
15. 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(2022) 226-234.