姓 名 |
夏焕雄 |
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职 称 |
长聘副教授、特别研究员 |
R博导 R硕导 |
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单 位 |
BET体育365投注官网 |
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通讯地址 |
北京市海淀区中关村南大街5号求是楼404 |
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邮 编 |
100081 |
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办公电话 |
010-68912503 |
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邮 箱 |
hxia@bit.edu.cn |
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夏焕雄,男,1987年生,工学博士,BET体育365投注官网长聘副教授、特别研究员、博士生导师。2010年获北京工业大学机械工程及自动化专业工学学士,2015年获清华大学机械工程专业工学博士,先后在美国圣母大学航空与机械工程系(2016-2017)与约翰霍普金斯大学机械工程系(2017-2018)从事博士后研究工作,之后加入BET体育365投注官网,现任BET体育365投注官网机车与车辆学院数字化制造研究所所长。担任中国图学学会智能工厂专委会委员、北京粘接学会理事,获第六届上银优秀机械博士论文佳作奖、中国数字仿真论坛青年科技奖,入选2022-2024年度北京市科协青年人才托举工程。主要从事高性能装配与多场耦合建模仿真等方向的研究。主持了国家自然科学基金、北京市自然科学基金、国家重点研发计划项目课题、173领域基金项目、以及多项国防基础科研项目课题等。发表SCI/EI论文50余篇,其中以第一/通讯作者发表SCI论文20余篇,授权发明专利10余项,担任ADDIT. MANUF. (AM), RAPID PROTOTYPING J. (RPJ), SURF. COAT. TECH. (SCT), PHYS. FLUIDS (POF), INT. J. HEAT MASS TRAN. (IJHMT)等十余种国际期刊审稿人。主讲本科生课程《数字化设计与制造》、研究生课程《数字化制造中的建模与仿真技术》。 |
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研究兴趣 |
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研究兴趣有:精密光机电产品高性能装配、多场耦合建模仿真、物理模型与数字图像、智能学习与物理仿真、数字孪生建模等。 特别欢迎数学建模、物理(尤其是力学)、计算机兴趣浓厚的本科生和研究生加入。 |
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教育及工作经历 |
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2022.07–至今,BET体育365投注官网, BET体育365投注官网, 长聘副教授、特别研究员 2018.06–2022.07,BET体育365投注官网, BET体育365投注官网, 预聘助理教授、特别副研究员 2017.08–2018.06,约翰霍普金斯大学,机械工程, 博士后,合作导师:Gretar Tryggvason 2016.01–2017.08,圣母大学(美国), 航空与机械工程, 博士后,合作导师:Gretar Tryggvason 2010.09–2015.07,清华大学, 机械工程, 工学博士, 导师:汪劲松、向东 2006.09–2010.07,北京工业大学, 机械工程及自动化,工学学士 |
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学术论文 |
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论文详情参见链接: GoogleScholar: https://scholar.google.com/citations?user=IeEKpjQAAAAJ&hl=en ResearchGate: https://www.researchgate.net/profile/Huanxiong-Xia 主要论文: [1] H Xia, Z Zhang, J Liu, X Ao*, S Lin, Y Yang. Modeling and numerical study of particle-bubble-liquid flows using a front-tracking and discrete-element method[J]. Applied Mathematical Modelling, 2023, 114:525-543. [2] H Yang, S Wang, H Xia*, J Liu, A Wang, Y Yang. A prediction-correction method for fast and accurate initial displacement field estimation in digital image correlation[J]. Measurement Science and Technology, 2022, 33: 105201. [3] H Xia, J Meng, J Liu, X Ao*, S Lin, Y Yang. Evaluation of the equivalent mechanical properties of lattice structures based on the finite element method[J]. Materials, 2022, 15(9): 2993. [4] X Ao, J Liu, H Xia*, Y Yang. A numerical study on the mesoscopic characteristics of Ti-6Al-4V by selective laser melting[J]. Materials, 2022, 15(8): 2850. [5] L Guo, J Liu, H Xia*, X Li, X Zhang, H Yang, Y Yang. Effects of loading rate, temperature, and thickness on the tensile strength of precision adhesive joints[J]. Polymer Testing, 2022, 109: 107528. [6] L Guo, J Liu, H Xia*, X Li, X Zhang, H Yang. Effect of surface morphology characteristic parameters on the shear strength of aluminum bonded joints[J]. International Journal of Solids and Structures, 2022, 238: 111420. [7] S Lin, J Liu, H Xia*, Z Zhang, X Ao. A numerical study of particle-laden flow around an obstacle: flow evolution and Stokes number effects[J]. Applied Mathematical Modelling, 2022, 103: 287-307. [8] S Lin, J Cai, H Xia*, X Ao, J Liu. A reduced-order model based on finite element method for fast prediction of thermal performance of lattice structures[J]. International Communications in Heat and Mass Transfer, 2021, 126: 105347. [9] JH Liu, XY Li, HX Xia*, L Guo. Effects of assembly errors and bonding defects on the centroid drift of a precision sleeve structure[J]. Advances in Manufacturing, 2021, 9: 509-519. [10] L Guo, J Liu, H Xia*, X Zhang, H Yang. Effects of surface treatment and adhesive thickness on the shear strength of precision bonded joints[J]. Polymer Testing, 2021, 94: 107063. [11] X Ao, H Xia*, J Liu, Q He, S Lin. A numerical study of irregular eutectic in Al-Si alloys under a large undercooling[J]. Computational Materials Science, 2021, 186: 110049. [12] Q He, H Xia*, J Liu, X Ao, S Lin. Modeling and numerical studies of selective laser melting: Multiphase flow, solidification and heat transfer[J]. Materials & Design, 2020, 196: 109115. [13] X Ao, H Xia*, J Liu, Q He. Simulations of microstructure coupling with moving molten pool by selective laser melting using a cellular automaton[J]. Materials & Design, 2020, 185: 108230. [14] H Xia, J Lu, G Tryggvason*. Simulations of fused filament fabrication using a front tracking method[J]. International Journal of Heat and Mass Transfer, 2019, 138: 1310-1319. [15] D Xiang, H Xia*, W Yang, P Mou. Parametric study and residual gas analysis of large-area silicon-nitride thin-film deposition by plasma-enhanced chemical vapor deposition[J]. Vacuum, 2019, 165: 172-178. [16] H Xia, J Lu, G Tryggvason*. A numerical study of the effect of viscoelastic stresses in fused filament fabrication. Computer Methods in Applied Mechanics and Engineering, 2019, 346(4), 242-259. [17] H Xia, J Lu, G Tryggvason*. Fully resolved numerical simulations of fused deposition modeling. Part II–solidification, residual stresses and modeling of the nozzle. Rapid Prototyping Journal, 2018, 24(6): 973-987. [18] H Xia, J Lu, S Dabiri, G Tryggvason*. Fully resolved numerical simulations of fused deposition modeling. Part I: fluid flow. Rapid Prototyping Journal, 2018, 24(2): 463-476. [19] H Xia, D Xiang*, P Mou, W Yang. Experimental study of the effects of showerhead configuration on large-area silicon-nitride thin film by plasma-enhanced chemical vapor deposition. Thin Solid Films, 2017, 638: 1-8. [20] D Xiang, H Xia*, W Yang, P Mou. New simulation-based approach for the profile control in a process chamber: Fluid, thermal, and plasma profile[J]. Proceedings of the Institution of Mechanical Engineers, Part E- Journal of Process Mechanical Engineering, 2017, 231(3): 565-580. [21] H Xia, D Xiang*, W Yang, P Mou. Multi-model simulation of 300 mm silicon-nitride thin-film deposition by PECVD and experimental verification[J]. Surface and Coatings Technology, 2016, 297: 1-10. [22] H Xia*, D Xiang, P Mou. The array-control heater and non-uniform resistance module design for regulating the temperature profile in a reactor chamber[J]. Journal of Mechanical Science and Technology, 2015, 29(2): 593-604. [23] H Xia*, D Xiang, W Yang, P Mou. The segmented non-uniform dielectric module design for uniformity control of plasma profile in a capacitively coupled plasma chamber[J]. AIP Advances, 2014, 4(12): 127124. [24] H Xia*, D Xiang, P Mou. Simulation-Based Optimization of a Vector Showerhead System for the Control of Flow Field Profile in a Vertical Reactor Chamber[J]. Advances in Mechanical Engineering, 2014, 6: 525102. |
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科研项目 |
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承担的主要科研项目: 国家重点研发计划项目课题,570万(国拨),2022-2025,主持 173领域基金项目,100万,2022-2025,主持 国家自然科学基金青年基金,27万,2020-2022,主持 北京市自然科学基金青年基金,10万,2020-2021,主持 国防基础科研项目任务/课题,多项,主持/参与 国家自然科学基金重点项目,300万,2020-2024,骨干 军科委基础加强重点项目,180万,2020-2023,骨干 装发项目,198万,2022-2023,骨干 |
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学术荣誉 |
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入选2022-2024年度北京市科协青年人才托举工程,2021 中国数字仿真论坛青年科技奖,2020 第六届『上银优秀机械博士论文』佳作奖,2016 |
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社会职务 |
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中国图学学会智能工厂专委会委员 北京粘接学会理事 中国机械工程学会高级会员 国家自然科学基金委《机械工程学科发展战略报告》“高性能装配”领域十四五规划撰写专家 ADDIT. MANUF. (AM), RAPID PROTOTYPING J. (RPJ), SURF. COAT. TECH. (SCT), PHYS. FLUIDS (POF), INT. J. HEAT MASS TRAN. (IJHMT)等十余种国际期刊审稿人 |
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