個人信息:
姓名:霍元明 職稱:教授
專業:機械工程 學歷層次:博士、博士后
辦公室地點:實訓樓4307
聯系方式:yuanming.huo@sues.edu.cn
主講課程:本科生課程《機械工程專業英語》、《工程材料基礎》與研究生課程《材料制備與加工工藝》
一、個人簡介
霍元明,山西運城臨猗人,上海工程技術大學機械與汽車工程學院機械制造系副主任、教授、碩士生導師。北京科技大學機械工程專業博士與博士后、清華大學機械工程系訪問學者、中國有色金屬學會常務理事、中國國際科技促進會博士智庫工作委員會副會長、北京信息產業協會人工智能分會副會長、貴州科學城博士服務團副秘書長、江蘇省雙創人才、上海工程技術大學國家大學科技園科創經理,中國儀器儀表學會結構健康分會委員、國際數據科學與人工智能學會執委會委員、中國知網評審專家、上海市科委專家庫專家、上海運城籍科技工作者之家會長(主任)、教育部學位中心論文評審專家、上海市農業科技人才庫專家、運城市特色制造產業鏈智庫專家、國家自然科學基金同行評議專家、俄羅斯社科院榮譽教授、海南科技職業大學客座教授、中國金屬學會軋鋼分會第八屆委員會專家、Measurement與Journal of Manufacturing Processes與Materials & Design等SCI國際期刊審稿人、《Journal of Magnesium and Alloys (JMA)》第二屆青年編委、Special Issue Editor for《Sound & Vibration》、《稀有金屬材料與工程》中英文版青年編委會編委、《精密成形工程》雜志第二屆編委會通訊編委、《塑性工程學報》青年編委、《軸承》首屆青年編委、《重型機械》期刊青年編委等。
2008年9月獲得太原科技大學機械設計制造及其自動化專業學士學位。
2014年6月獲得北京科技大學機械工程專業博士學位,從事金屬零部件的輕量化成形制造、多尺度材料建模與仿真等方面的研究工作。
2017年7月在北京科技大學機械工程學院完成博士后研究工作,主持完成中國博士后科學基金面上資助項目1項、萊蕪市科學技術進步獎二等獎1項。
2018年在上海工程技術大學獲國家自然科學基金青年基金項目1項、上海市高校青年教師培養重點資助項目1項、中國機械工業聯合會三等獎1項、萊蕪市科學技術進步獎三等獎1項、參與科技部國家重點研發項目1項。
2019年在上海工程技術大學完成的《“機械工程材料”教學設計》被上海高校青年教師課程思政教學設計探索案例集收錄。
2025年7月在清華大學機械工程系完成國內訪問學者。
長期從事新金屬材料研發、關鍵基礎零部件精密制造成形與多尺度材料建模仿真等方面的研究工作,主持或參與橫向項目20余項,發表科技論文120余篇,其中在Journal of Materials Processing Technology、Journal of Manufacturing Processes、JOM等國際期刊發表SCI收錄論文60余篇,獲授權發明專利15項,授權軟件著作權2項。
二、主要科研項目
[1] 軸承鋼球斜軋成形微觀組織與塑性損傷演變規律研究,中國博士后科學基金委,2015.11-2017.07,5
元,主持,結題;
[2] 鈦合金航空緊固件冷鐓塑性損傷形成機理研究,國家自然科學基金委,2019.01-2021.12,25
元,主持,結題;
[3] 大型軸類楔橫軋制機器人化生產線及其應用示范,國家科技部,2019.05-2022.04,50
元,參與,結題;
[4] 高熵高溫合金板材熱軋成形關鍵技術, 西北工業大學橫向技術服務, 2023.04 -2024.12, 15萬元, 主持,結題;
[5] 鋁合金緊固件等徑角擠壓-冷鐓復合成形工藝及其形性協同調控機制,國家自然科學基金委員會,2023.01-2026.12,54萬元,參與,在研;
[6] 無磁鋼緊固件成形關鍵技術,柏中緊固件(上海)有限公司,2024.09-2026.09,30萬元,主持,在研。
三、代表性論文
[1] Hao Chen, Yuanming Huo*, Zhijun Wang, Zhenrong Yan, Seyed Reza Elmi Hosseini, Hongchao Ji, Wenhan Yu, et al., An unified viscoplastic micro-damage constitutive model for NiAlCrFeMo high-entropy alloys at elevated temperatures considering triaxiality stress[J], Journal of Alloys and Compounds, 2025, 1038: 182707.
[2] Yue Sun, Yuanming Huo*, Wenhan Yu, Zhenrong Yan, Zhijun Wang, Zhiwei Li, Zhaozhao Wang, Hao Chen, Anqi Jiang, Xinyu Wang, Microstructure and nanoindentation creep behavior of NiAlCrFeMo high-entropy alloy[J], Journal of Alloys and Compounds, 2025, 1020(-): 179330.
[3] Zixin Zhou, Yuanming Huo*, Zhijun Wang, Eralp Demir, Anqi Jiang, Zhenrong Yan, Tao He, Experimental investigation and crystal plasticity modelling of dynamic recrystallisation in dual-phase high entropy alloy during hot deformation[J], Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2025, 922: 147634.
[4] Anqi Jiang, Yuanming Huo*, Eralp Demir, Zixin Zhou, Zhenrong Yan, Yue Sun, Low-cycle fatigue behavior and life prediction of rolled WE43-T5 magnesium alloy: Experiments and crystal plasticity finite element method[J], Materials Today Communications, 2025, 48: 113440.
[5] Xinyu Wang, Yuanming Huo*, Zhijun Wang, Zhenrong Yan, Wenhan Yu, Yue Sun, Hao Chen & Anqi Jiang, Microstructure and Mechanical Properties of NiAlCrFeMo High-Entropy Alloy Sheet under Different Hot-Rolling Parameters[J], Journal of Materials Engineering and Performance, 2025, https://doi.org/10.1007/s11665-025-11782-6.
[6] Wenhan Yu, Yuanming Huo*, Zhijun Wang, Zhenrong Yan, Tao He, Seyed Reza Elmi Hosseini, Hongchao Ji, Hao Chen, Microstructure evolution and mechanical properties of NiAlCrFeMo high entropy superalloy after different annealing treatment[J], Intermetallics, 2024, 175(-): 108494.
[7] Hao Chen; Yuanming Huo*; Tao He; Zhenrong Yan; Zhiwei Li; Hongchao Ji; Seyed Reza Elmi Hosseini; Zhaozhao Wang; Zhiyuang Bian; Wenhan Yu; Zixin Zhou, Establishing a unified viscoplastic constitutive equation for EA4T steel: Comparative analysis with Arrhenius model[J], International Journal of Non-Linear Mechanics, 2024, 166(-): 104835.
[8] Gang Chen, Yuanming Huo*, Jianguo Lin*, Tao He, Zhiwei Li, Zhenrong Yan, Hongchao Ji, Hamidreza Ezatpour, Donghai Lin, Crystal Plasticity Finite Element Method Investigation of normal tensile deformation anisotropy in rolled pure titanium sheet[J], Thin-Walled Structures, 2024, 111904, https://doi.org/10.1016/j.tws.2024.111904.
[9] Yuaming Huo*, Cunlong Huo, Xu Ren, Tao He, Seyed Reza Elmi Hosseini, Baoyu Wang, et al, Numerical prediction of microstructure evolution of high-speed railway axle formed using hot cross wedge rolling[J], Materials Today Communications, 2023, 35: 105985.
[10] Yuanming Huo*, Cunlong Huo, He Tao, Seyed Reza Elmi Hosseini, Chen Gang, Changyuan Jia, Keran Liu, Baoyu Wang, Xiangyang Du, A High-Temperature Strain-Compensated Arrhenius-Type Constitutive Model and an Improved Avrami-Type Dynamic Recrystallization Model of 40CrNiMo[J], Journal of Materials Engineering and Performance, 2023.
[11] Jie Bai, Yuanming Huo*, Tao He, et al. Modelling of Mechanical Response and Microstructure Evolution of EA4T Steel during Hot Compression Using the Improved Crystal Plasticity Finite Element Method[J]. Journal of Materials Engineering and Performance, 2023.
[12] Xu Ren, Yuanming Huo*, Tao He, et al. Constitutive Model and Cellular Automaton Simulation of the Dynamic Recrystallization of Railway EA4T‐Grade Steel[J]. Steel Research International, 2023, 94.
[13] Xu Ren, Yuanming Huo*, Seyed Reza Elmi Hosseini, Tao He, et al. A multi-scale modelling by coupling cellular automata with finite element method and its application on cross-wedge rolling[J], Materials Today Communications, 2023,106976.
[14] Yuanming Huo*, Changyuan Jia, Tao He, et al. Numerical prediction of ductile damage evolution of 40CrNiMo railway axle steel during hot cross wedge rolling[J]. Materials Today Communications, 2022, 33: 104942.
[15] Yuanming Huo*, Wanbo Yang, Tao He, et al. A Novel Unified Visco-Plastic Damage Constitutive Model Considering Stress State of TC16 Titanium Alloy during Cold Deformation[J]. Journal of Materials Engineering and Performance, 2022, 32: 4522-4540.
[16] Jie Bai, Yuanming Huo*, Tao He, et al. Comparison of Five Different Models Predicting the Hot Deformation Behavior of EA4T Steel[J]. Journal of Materials Engineering and Performance, 2022, 31: 8169-8182.
[17] Changyuan Jia, Yuanming Huo*, Tao He, et al. A Review: Double Multivariate Nonlinear Regression Constitutive Model of High-Speed Train Axle Steel 40CrNiMo during Hot Tension[J]. JOM, 2022, 74: 1798-1806.
[18] Wanbo Yang, Yuanming Huo*, Tao He, et al. Microstructure Evolution of TC16 Titanium Alloy for Producing Aerospace Fasteners During Cold Compression[J]. Rare Metal Materials and Engineering, 2022, 51(02): 386-391.
[19] Menglan Shen, Yuanming Huo*, Tao He, et al. Comparison of two constitutive modelling methods in application of TC16 alloy at the elevated deformation temperature[J]. Materials Today Communications, 2020, 24: 101053.
[20] Yuanming Huo*, Tao He, Baoyu Wang, et al. Numerical Prediction and Experimental Validation of the Microstructure of Bearing Steel Ball Formation in Warm Skew Rolling[J]. Metallurgical and Materials Transactions A, 2020, 51: 1254-1263.
[21] Yuanming Huo*, Tao He, Shoushuang Chen, et al. Microstructure evolution and unified constitutive equations for the elevated temperature deformation of SAE 52100 bearing steel[J]. Journal of Manufacturing Processes, 2019, 44: 113-124.
[22] Tao He, Yuanming Huo, Xiaojun Shi, et al. Modeling of Carbide Spheroidization Mechanism of 52100 Bearing Steel Under Warm Forming Conditions[J]. Metallurgical and Materials Transactions A, 2018, 50: 936-946.
[23] Yuanming Huo*, Tao He, Shoushuang Chen, et al. Mechanical Behavior and Microstructure Evolution of Bearing Steel 52100 During Warm Compression[J]. JOM, 2018, 70: 1112-1117.
[24] Yuanming Huo, Jianguo Lin, Qian Bai, et al. Prediction of microstructure and ductile damage of a high-speed railway axle steel during cross wedge rolling[J]. Journal of Materials Processing Technology, 2017, 239: 359-369.
[25] Yuanming Huo, Qian Bai, Baoyu Wang, Jianguo Lin, Jing Zhou, A new application of unified constitutive equations for cross wedge rolling of a high-speed railway axle steel[J], Journal of Materials Processing Technology, 2015, 223: 274-283.
四、授權發明專利
[1]白杰,霍元明,任旭等. 一種老人康復輪椅[P]. 上海市:CN113171239B,2022-12-20.
[2]陳港,霍元明,任旭等. 一種仿蛙式水下探測機器人[P]. 上海市:CN114572371B,2022-12-06.
[3]霍元明,任旭,卞志遠等. 一種用于型材彎曲設備的自動上料自動導引小車[P]. 上海市:CN113245457B,2022-11-01.
[4]霍元明,賈昌遠,劉克然等. 前置式雙行間距可調煙草拔桿除土收集一體機[P]. 上海市:CN111247948B,2021-06-11.
[5]霍元明,白杰,卞志遠等.一種板栗撿取脫蓬裝置[P].上海市:CN202110443630.6,2021-04-23.
[6]霍元明,卞志遠,白杰等.一種便于拆裝的智能升降盥洗池及其自適應高度調節方法[P].上海市:CN202110405103.6,2021-04-05.
[7]任旭,霍元明,白杰等.一種用于矩形截面型材的三維成型壓彎方法[P].上海市:CN202110388429.2,2021-04-12.
[8]霍元明,楊萬博,胡玉佳等. 一種醫用潔凈臺[P]. 上海市:CN109847467B,2021-01-26.
[9]楊萬博,霍元明,胡玉佳等. 一種多功能磨床集塵器裝置[P]. 上海市:CN110039451B,2020-06-26.
[10]賈昌遠,霍元明,劉克然等. 小麥聯合收割機的風力結構式除塵系統[P]. 上海市:CN111213481A,2020-06-02.
[11]霍存龍,霍元明,賈昌遠等. 一種多功能醫用輔助行走防摔裝置[P]. 上海市:CN111202661A,2020-05-29.
[12]霍元明,沈夢藍,楊萬博等. 一種多功能蹲坐兩用便器裝置[P]. 上海市:CN109653326A,2019-04-19.
[13]王寶雨,霍元明. 一種用于滾筒式鋼球淬火裝置的智能控制系統[P]. 北京市:CN205473906U,2016-08-17.
[14]王寶雨,霍元明. 一種用于滾筒式鋼球淬火裝置的智能控制系統及方法[P]. 北京市:CN105695730A,2016-06-22.
[15]王寶雨,霍元明. 一種用于斜軋鋼球在線連續淬火的滾筒式裝置[P]. 北京市:CN105671294A,2016-06-15.
五、軟件著作權
[1]任旭,霍元明,何濤等.Rex動態再結晶元胞自動機模擬軟件V1.0.上海市:2021SR1172711,2021-05-20.
[2]白杰,霍元明,何濤等.基于實驗數據自動生成本構模型軟件 V1.0.上海市:2021SR1172710,2021-05-17.
六、學術著作
[1]霍元明,何濤.模具CAD/CAM.第2版[M].北京大學出版社,2024.
