何博 教授
畢
業單位:上海交通大學
辦公電話🪳:021-67796017
聯系地址🍊:上海市松江區龍騰路333號實訓樓5416
郵 編🧕🏿:201620
電子郵件👩:hebo@sues.edu.cn
個人簡介
上海交通大學材料加工專業博士🐾。2010-2016年在上海交通大學意昂体育4开户任教⛔, 2016年末入職意昂体育4平台🧑🏿💼,參與創建校級實驗室高溫合金精密成型研究中心,研究興趣為增材製造和精密鑄造🤾🏿♀️。近五年來主要圍繞航空航天及醫療領域進行金屬材料的液態成型及高能束控性與控形研究,承擔了工信部綠色系統集成、上海市重大基礎研究等多項國家及省部級科研項目,以第一作者或通訊作者身份發表了10余篇SCI論文👱🏻♂️,授權了8項國內外發明專利。發明的“基於激光的增減材復合製造方法與裝備”已獲得中、美、澳三國專利授權,尤為適合航空🏋🏻♀️、航天、醫療等行業的復雜精細件的增材製造🔓。
開設課程
壓鑄模設計 本科生課程 32學時(4學時/周)
材料先進加工技術 研究生課程 32學時(2學時/周)
材料組織結構表征 研究生課程 32學時(2學時/周)
代表性論著
He Bo* ,Wan Jianfeng*, Rong Yonghua; Evolution and formation mechanism of surface nanorelief associated with martensite twin colony (MTC) in Mn-based alloy, Materials and Design, 2020, 193: 108800.
Li Zan; He Bo*; Guo Qiang*; Strengthening and hardening mechanisms of additively manufactured stainless steels: The role of cell sizes , Scripta Materialia, 2020, 177: 17-21.
Jin Xinyuan; Lan Liang*; Gao Shuang; He Bo*; Rong Yonghua; Effects of laser shock peening on microstructure and fatigue behavior of Ti–6Al–4V alloy fabricated via electron beam melting, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2020, 780: 139199-139207.
Lan Liang; Jin Xinyuan; Gao Shuang; He Bo*; Rong Yonghua; Microstructural evolution and stress state related to mechanical properties of electron beam melted Ti-6Al-4V alloy modified by laser shock peening , Journal of Materials Science & Technology, 2020, 50: 153-161.
Tian, Yuncan; Yang Dongye; Jiang Mengqi; He Bo*. Accurate Simulation of Complex Temperature Field in Counter-Pressure Casting Process Using A356 Aluminum Alloy. International Journal of Metalcasting, 2020(9).
Yao Dingye, Zhang Weixing, Ma Yuli, He Bo*.Numerical Prediction and Experimental Analysis of the Anisotropy of Laser Powder Bed Fusion Produced Ti-6Al-4V Body-Centered Cubic Lattice Structure. Journal of Materials Engineering and Performance 32.7(2022):2963-2972.
Wang Zhiqiang,He Bo*, Song Zhenfeng et al.Optimization of the Process Parameters of Laser Beam Powder Bed Fusion GTD222 Nickel-Based Superalloy Based on Two Laser Energy Densities. Metals 2022, 12(7), 1154.
Fan Shijing, He Bo*, Liu Meishuai. Effect of Pulse Current Density on Microstructure of Ti-6Al-4V Alloy by Laser Powder Bed Fusion. Metals 2022, 12(8), 1327.
Wang Zhiqiang, He Bo*, Song Zhenfeng et al.Research Progress of Laser Additive Manufacturing Nickel-Based Alloy Metal Matrix Composites. Metals 2023, 13(1), 129.
Huo Junmei, He Bo*, Lan. Liang. Effects of Boron on Microstructure and Mechanical Properties of High-Nb TiAl Alloy Fabricated via Laser Melting Deposition. Journal of Materials Engineering and Performance : 1-11.
He Bo*, Lei Yiyu, Jiang Mengqi, et al.Optimal Design of the Gating and Riser System for Complex Casting Using an Evolutionary Algorithm. Materis 2022, 15(21), 7490.
Song Zhenfeng, Wang Zhiqiang, He Bo*, et al. Effects of non-equilibrium microstructures on microstructure evolution and mechanical properties of laser powder bed fusion IN625 Ni-based superalloy during long-term thermal exposure at 700℃ and 750℃. Materials Science and Engineering: A 2022, 20(856), 143883.
Xiao Yusen, Lan Liang, He Bo*, et al. Mechanism of ultrahigh ductility obtained by globularization of alpha GB for additive manufacturing Ti-6Al-4V. Materials Science and Engineering: A 2022, 14(858), 144174.
Gao S, Tan Z, He Bo*, et al. Experimental Investigation and Numerical Simulation of Residual Stress and Distortion of Ti6Al4V Components Manufactured Using Selective Laser Melting. Journal of Materials Engineering and Performance, 2022, 31(10):8113-8123.
Xin R , Lan L ,He Bo*,et al. Fatigue properties of selective laser melted Ti-6Al-4V alloy subjected to laser shock processing. Journal of Materials Science, 2022, 57(21):9619-9630.
Bai C , Lan L , He Bo*,et al. Microstructure evolution and cyclic deformation behavior of Ti-6Al-4V alloy via electron beam melting during low cycle fatigue. International Journal of Fatigue, 2022(159-):159.
授權專利
序號 | 專利名稱 | 專利類別 | 授權時間 | 角色 |
1 | 一種基於增材製造技術製備梯度結構金屬件的方法📯,ZL109967739 | 中國發明專利 | 2021-07 | 第一發明人 |
2 | 一種界面換熱系數及材料熱導率的測量裝置及測量方法🦵🏽,ZL 110018193 | 中國發明專利 | 2022-02 | 第一發明人 |
3 | 界面換熱系數及材料熱導率的激光加熱測量裝置及方法,ZL 109991266 | 中國發明專利 | 2022-07 | 第一發明人 |
4 | 一種基於激光熔化沉積的室溫塑性優異的高铌鈦鋁合金製備方法,ZL 113600834 | 中國發明專利 | 2022-08 | 第一發明人 |
5 | 一種鈦鎳基合金材料及其製備方法與應用🦹♂️,CN202210632109.1 | 中國發明專利 | 2022-06 | 第一發明人 |
6 | COMPOSITE DEVICE FOR HIGH_PRECISION LASER ADDITIVESUBTRACTIVE MANUFACTURING🎤,17235701 | 美國發明專利 | 2021-04 | 第一發明人 |
7 | METAL ADDITIVE MANUFACTURING METHOD BASED ON DOUBLE HIGH-ENERGY BEAMS TECHNIQUE🗼,2021101664 | 澳大利亞革新專利 | 2021-06 | 第一發明人 |
8 | POLISHING METHOD FOR INNER AND OUTER SURFACES OF COMPLEX CAVITY ADDITIVE MANUFACTURING PARTS,2021102055 | 澳大利亞革新專利 | 2021-05 | 第一發明人 |
科研成果
上海市重大基礎研究項目子課題📡,“面向復雜精細結構的金屬增材製造”課題三——系統誤差形成機理及控製,2017.6-2020.6,結題,主持👝。
中華人民共和國工業和信息化部綠色製造系統集成項目🧛🏿♀️,先進渦輪發動機熱端部件綠色關鍵工藝系統集成-子課題👂🏻:1. 多尺度集成計算🫙🙌🏿;2. 高溫合金的增材製造🏌🏼♀️,2017.12-2020.12🤾🏽♂️,結題,主持。
上海市經信委項目🎦,航空射流管電液伺服閥關鍵部件激光增減材復合製造技術研發,2019.7-2023.3🧙🏿♀️,結題👏🏽,主持🪽。
