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曹華軍

(重慶大學科學技術發展研究院院長)

鎖定
曹華軍,1978年生,男,中共黨員,教授,現任重慶大學科學技術發展研究院院長、前沿學科交叉研究院院長、製造工程研究所所長,高端裝備機械傳動全國重點實驗室固定研究人員。先後入選教育部“長江學者獎勵計劃”首屆青年學者、國家級領軍人才、科睿唯安全球高被引科學家,國家重點研發計劃項目首席科學家等,兼任國家重點研發計劃高性能製造技術與重大裝備重點專項總體專家組副組長、國家產業基礎專家委員會委員、中國機械工程學會綠色製造分會副主任委員等。
主要從事綠色製造裝備與系統領域的研究工作,主持國家863計劃重點課題、國家自然科學基金項目、國家重點研發計劃重點項目等10餘項,發表高水平學術論文200餘篇,授權國家發明專利40餘項,出版專著4部,制定國家技術標準6項,先後獲國家科技進步二等獎(2018,序5)重慶市科技進步一等獎(序1,2019)、山東省技術發明一等獎(序2,2018)、中國機械工業科學技術進步一等獎(序1,2019)、中國產學研合作創新成果一等獎(序1,2018)等。[1] [1] 
中文名
曹華軍
國    籍
中國
民    族
學位/學歷
博士
職    業
教師
專業方向
綠色製造系統理論等

目錄

  1. 1 人物履歷
  2. 2 研究方向
  3. 3 社會兼職
  4. 4 發表論文

曹華軍人物履歷

現任重慶大學科學技術發展研究院院長 [2] 重慶大學機械與運載工程學院副院長,機械傳動國家重點實驗室機牀及製造系統研究所所長。

曹華軍研究方向

1、綠色製造戰略及基礎理論
2、數控機牀綠色化、智能化
3、產品及製造系統碳排放核算與精益管控
4、智能基礎零部件

曹華軍社會兼職

國家重點研發計劃高性能製造技術與重大裝備重點專項總體專家組副組長
國家產業基礎專家委員會委員
中國機械工程學會環境保護與綠色製造分會副主任委員
全國綠色製造技術標準化技術委員會委員兼副秘書長
《Chinese Journal of Mechanical Engineering》、《中國機械工程》、《計算機集成製造系統》、《製造技術與機牀》等雜誌編委
中國機電裝備維修與改造技術協會裝備副理事長兼裝備再製造專家委員會主任
國家自然科學基金、國家重點研發計劃、國際政府間合作項目、國家科學技術獎勵、教育部青年長江學者等網評或會評專家。 [1] 

曹華軍發表論文

[1] Huajun Cao, Hongcheng Li. Simulation-Based Approach to Modeling the Carbon Emissions Dynamic Characteristics of Manufacturing System Considering Disturbances[J]. Journal of Cleaner Production , 2014, 64: 572-580.( SCI:000329595700053)
[2] Huajun Cao, Hongcheng Li, Haiqin Cheng, Yi Luo, Rruixue Yin, Yongpeng Chen. A Carbon Efficiency Approach for Life-Cycle Carbon Emission Characteristics of Machine Tools[J]. Journal of Cleaner Production, 2012, 37: 19-28. (SCI:000309375200003)
[3] Yanbin Du, Huajun Cao, Fei Liu, Congbo Li, Xiang Chen. An Integrated Method for Evaluating the Remanufacturability of Used Machine Tool[J]. Journal of Cleaner Production, 2012, 20(1): 82-91. (SCI:000296687700009)
[4] Yanbin Du, Huajun Cao, Xiang Chen, Bentao, Wang. Reuse-oriented Redesign Method of Used Products Based on Axiomatic Design Theory and QFD [J]. Journal of cleaner production, 2013, 39, 79-86. (SCI:000310819800010)
[5] Huajun Cao, Xiang Chen, Lei Xu, Enxu Ma. A Reuse-Oriented Redesign Method of used Machine Tool Based on Matter-Element Theory[J]. International Journal of Precision Engineering and Manufacturing. (SCI:000335564800018 )
[6] Ruixue Yin, Huajun Cao, Hongcheng Li, John W. Sutherland. A Process Planning Method for Reduced Carbon Emissions [J]. International Journal of Computer Integrated Manufacturing, 2013. (境外SCI源期刊,in Press)
[7] Yu-Cheng Chou, Huajun Cao, Harry H. Cheng. A Bio-Inspired Mobile Agent-Based Integrated System for Flexible Autonomic Job Shop Scheduling[J]. Journal of Manufacturing Systems (in press), 2013, 32(4):752-763. (SCI:000329145300024)
[8] Huajun Cao, Yanbin Du. Customized Design of Remanufactured Products and Optimization Model for Cores Reuse[J]. International Journal of Computer Integrated Manufacturing, 2012, 25(8): 741-749. (SCI:000306528400005)
[9] Hongcheng Li, Huajun Cao, Xiaoyong Pan. A Carbon Emission Analysis Model for Electronics Manufacturing Process Based on Value-Stream Mapping and Sensitivity Analysis[J]. International Journal of Computer Integrated Manufacturing, 2012, 25(12): 1102-1110. (SCI:000208865100002)
[10]Zhai, Qiang,Cao, Huajun,Zhao, Xiang,Yuan, Chris .Cost Benefit Analysis of Using Clean Energy Supplies to Reduce Greenhouse Gas Emissions of Global Automotive Manufacturing. ENERGIES, 2011, 4(10):1478-1494
[11] 曹華軍, 劉飛, 馬家齊. 再製造系統大規模定製特性及其三維優化策略[J]. 機械工程學報, 2009, 45(10): 132-136. (EI: 20094912531323)
[12] 陳永鵬, 曹華軍*, 李先廣, 陳鵬, 黃強. 高速幹切滾齒機牀熱變形誤差模型及試驗研究[J]. 機械工程學報, 2013, 49(7): 36-42. (EI: 20132116362562)
[13] 舒林森, 曹華軍*, 許磊, 李浩. 離心壓縮機再製造葉輪結構特徵三維建模方法及應用[J]. 機械工程學報, 2014, 50(3): 184-190. (EI: 20141017419802) [1] 
[14] Weiwei Ge, Hongcheng Li, Huajun Cao*, Chengchao Li, Xuanhao Wen, Chaoyong Zhang, Paul Mativenga. Welding parameters and sequences integrated decision-making considering carbon emission and processing time for multi-characteristic laser welding cell[J]. Journal of Manufacturing Systems, 2023, 70: 1-17.
[15] Weiwei Ge, Huajun Cao*, Hongcheng Li, Chaoyong Zhang, Chengchao Li, Xuanhao Wen. Multi-feature driven carbon emission time series coupling model for laser welding system[J]. Journal of Manufacturing Systems, 2022, 65: 767-784.
[16] Weiwei Ge, Hongcheng Li, Xuanhao Wen, Chengchao Li, Huajun Cao*, Bin Xing. Mathematical modeling of carbon emissions and process parameters optimization for laser welding cell[J]. International Journal of Production Research, 2023, 61(15), 5009-5028.
[17] Xuanhao Wen, Huajun Cao*, Hongcheng Li, Weiwei Ge, Bernard Hon. Operation state-based adaptive control in response to production disturbances of energy-efficient serial production lines[J]. Applied Energy, 2023, 347: 121467.
[18] Xuanhao Wen, Huajun Cao*, Hongcheng Li, Jie Zheng, Weiwei Ge, Erheng Chen, Xi Gao, Bernard Hon. A dual energy benchmarking methodology for energy-efficient production planning and operation of discrete manufacturing systems using data mining techniques[J]. Energy, 2022, 255: 124542.
[19] Xuanhao Wen, Huajun Cao*, Hon Bernard, Erheng Chen, Hongcheng Li. Energy value mapping: A novel lean method to integrate energy efficiency into production management[J]. Energy,2021, 217:119353.
[20] Xiaohui Huang, Qi Huang, Huajun Cao*, Wanbin Yan, Le Cao, Qiongzhi Zhang. Optimal design for improving operation performance of electric construction machinery collaborative system: Method and application [J]. Energy, 2023, 263: 125629.
[21] Xiaohui Huang, Qi Huang, Huajun Cao*,Qianyue Wang, Wanbin Yan, Le Cao. Battery capacity selection for electric construction machinery considering variable operating conditions and multiple interest claims [J]. Energy, 2023, 275: 127454.
[22] Kexu Lai, Huajun Cao*, Benjie Li, Qianyue Wang, Electro-mechanical-thermal energy coupling characteristics analysis and EFMM-based energy modelling for machine tools considering dynamic thermal environment, Journal of Manufacturing Processes, 2023, 103: 393-412.
[23] Kexu Lai, Huajun Cao*, Hongcheng Li, Benjie Li, Disheng Huang. Coupling evaluation for material removal and thermal control on precision milling machine tools. Frontiers of Mechanical Engineering, 2022, 17(1): 12.
[24] Yang Song, Huajun Cao*,Qianyue Wang, Jin Zhang, Chunping Yan. Surface roughness prediction model in high-speed dry milling CFRP considering carbon fiber distribution. Composites Part B: Engineering 2022;110230.
[25] Yang Song, Huajun Cao*, Da Qu,Hao Yi, Xuefeng Huang, Xinzhen Kang, Chunping Yan. Specific cutting energy optimization of CF/PEEK milling considering size effect. International Journal of Mechanical Sciences. 2022;232:107618.
[26] Yang Song, Da Qu, Huajun Cao*. Cutting force modeling of machining carbon fiber reinforced polymer (CFRP) composites: A review. Composite Structures 2022;299:116096.
[27] Cao Huajun*, Song Yang, Wu Bo, Wang Kun, Qu Da*. A Force Model of High-Speed Dry Milling CF/PEEK Considering Fiber Distribution Characteristics[J]. Journal of Manufacturing Processes, 2021, 68:062-615.
[28] Yang Song, Da Qu, Bo Wu, Huajun Cao*, Composite light ropes model-based dynamics force prediction model of high speed dry milling UD-CF/PEEK considering size effect, Journal of Manufacturing Processes, 76 (2022) 210-222.
[29] Song Yang, Cao Huajun*, Da Qu, Hao Yi, Xinzhen Kang, Xuefeng Huang, Jin Zhou, Chunping Yan. Surface integrity optimization of high speed dry milling UD-CF/PEEK based on specific cutting energy distribution mechanisms effected by impact and size effect. Journal of Manufacturing Processes, 2022; 79:731-44.
[30] Yang Song, Huajun Cao*, Da Qu, Qianyue Wang, Xuefeng Huang, Jin Zhang, Bo Wu, Lei Liu,Impact effect-based dynamics force prediction model of high-speed dry milling UD-CFRP considering size effect, International Journal of Impact Engineering, 2023, 179:104659.
[31] Huajun Cao*, Lei Liu, Bo Wu, Yuan Gao, Da Qu*. Process optimization of high-speed dry milling UD-CF/PEEK laminates using GA-BP neural network [J]. Composites Part B Engineering, 2021, 221(4):109034.
[32] Lei Liu, Da Qu,Huajun Cao*, Xuefeng Huang,Yang Song, Xinzhen Kang. Process optimization of high machining efficiency and low surface defects for HSD milling UD-CF/PEEK with limited thermal effect [J]. Journal of Manufacturing Processes, 2022, 76: 532–547.
[33] Lei Liu, Da Qu, Jiacheng Wang, Jin Zhang, Huajun Cao*, Xin Dong. Thermal-field analytical modeling of machined surface layer in high-speed-dry milling UD-CF/PEEK considering thermal anisotropy and nonlinear thermal conductivity. Composites Part A, 2024, 176: 107864.
[34] Jin Zhang, Xuefeng Huang, Xinzhen Kang, Hao Yi, Qianyue Wang, Huajun Cao*. Energy field-assisted high-speed dry milling green machining technology for difficult-to-machine metal materials. Frontiers of Mechanical Engineering, 2023; 18(2):28.
[35] Jin Zhang, Xinzhen Kang, Zhengmao Ye, Lei Liu, Guibao Tao, Huajun Cao*. Development and testing of a wireless smart toolholder with multi-sensor fusion. Frontiers of Mechanical Engineering, 2023; 18(4):55.
[36] Jin Zhang, Li Ling, Qianyue Wang, Xuefeng Huang, Xinzhen Kang, Guibao Tao, Huajun Cao*. Surface quality investigation in high-speed dry milling of Ti-6Al-4V by using 2D ultrasonic-vibration-assisted milling platform. Advances in Manufacturing.
[37] 文旋豪, 曹華軍*, 李洪丞, 葛威威, 黃子軒. 離散製造單元生產擾動識別模型及其自適應節能控制方法[J]. 機械工程學報, 2022, 59(7): 252-264. [3] 
參考資料