邓文君
时间:2024-05-03 22:56 来源: 作者: 点击:次
更新日期:2023年2月23日 姓 名 邓文君 性 别 男 出生年月 1978年8月 籍贯 湖南邵阳县 民 族 汉族 政治面貌 中国共产党党员 最后学历 博士研究生 最后学位 工学博士 技术职称 教授 导师类别 博、硕导 行政职务 Email dengwj@scut.edu.cn 工作单位 机械与汽车工程学院 邮政编码 510641 通讯地址 30#楼 单位电话 个人简介 华南理工大学机械与汽车工程学院教授、博士研究生导师、首批广州市珠江科技新星、广东省杰出青年基金获得者。担任广东省机械工业专家委员会成员、美国机械工程师协会会员以及北美制造工程学会高级会员,山东省自然科学基金、陕西省自然科学基金等评审专家,metals期刊评审委员会成员,Materials & Design、Tribology International、Journal of Manufacturing Processes、International Journal of Advanced Manufacturing Technology、Steel Research International等期刊审稿人。主要从事机械加工过程的计算机数值模拟技术、难加工材料的切削加工技术、超细晶/纳米晶、梯度结构材料制备工艺、切屑利用与回收的研究,先后主持国家自然科学基金4项、广东省自然科学基金3项、广东省自然科学杰出青年基金1项、广东省产学研项目及企业委托研究项目等10余项,以第一作者或通讯作者在Journal of Materials Processing Technology、 Corrosion Science、Journal of Manufacturing Processes、Materials Science and Engineering A、Wear、Materials Characterization、Journal of Materials Research and Technology、Journal of Alloys and Compounds、 Advances in Manufacturing、International Journal of Advanced Manufacturing Technology、机械工程学报等期刊上发表论文60余篇,获授权国家专利20余项。 工作经历 1.2013/9-至今,华南理工大学,机械与汽车学院,教授2.2008/12-2013/8,华南理工大学,机械与汽车学院,副教授3.2005/7-2008/11,华南理工大学,机械与汽车学院,讲师 社会、学会及学术兼职 国家科技专家库及多省科技专家库成员;广东省机械工业专家委员会成员;美国机械工程师协会会员;北美制造工程学会高级会员;20余个国际专业期刊的审稿专家. 研究领域 1、计算机模拟分析技术在机械加工中的应用;2、切削加工工艺及质量控制;3、超细晶/纳米晶、梯度结构材料制备工艺;4、切屑转化与回收 科研项目 1. 广东省自然科学基金,面上项目,2022A1515010995,挤出切削制备梯度结构超细晶带材的工艺及机理,2022/01-2024/12,主持2. 国家自然科学基金,面上项目,52075187,挤压-切削制备槽型换热翅片的工艺及机理,2021/01-2024/12,主持3. 广东省自然科学基金,面上项目,2017A030313260,超细晶铜带材切削挤出法制备研究,2017/05-2020/05,主持4. 中央高校基本科研业务费,2017ZD024,挤压切削制备形貌可控超细晶铜带材的工艺及机理,2017/01-2018/12,主持5. 中央高校基本科研业务费,2015PT013,超细晶/纳米晶带材的大应变挤出切削法制备、力学性能以及腐蚀行为,2015/01-2016/12,主持6. 国家自然科学基金,面上项目,51375174,纳米晶切屑微结构表征及热稳定性研究,2014/01-2017/12,主持7. 中央高校基本科研业务费,新型限制接触切槽/切断刀具设计及其加工机理,2014/01-2015/12,主持8. 广东省自然科学基金,杰出青年基金项目,S2013050014163,超细晶/纳米晶带材的大应变挤出切削法制备、力学性能以及腐蚀行为,2013/10-2018/03,主持9. 国家自然科学基金,面上项目,51075154,大应变挤出切削制备纳米晶带材的机理及工艺,2011/01-2013/12,主持10. 国家自然科学基金,青年基金项目,50605022,纳米结构材料的切削加工制备、形成机理及性能研究,2007/01-2009/12,主持11. 广东省自然科学基金,面上项目,06300160,纳米结构材料的切削加工制备、形成机理及性能研究,2006/10-2009/10,主持 发表论文 [1] P. Shen, B. Zhang, Z. Li, X. Pang, W. J. Deng*. Forming mechanism, mechanical properties, and corrosion properties of aluminum alloy sheet with gradient structure processed by plastic flow machining[J]. Journal of Alloys and Compounds, 2023, 933.[2] 邓文君*, 曾俞宁, 周子涵. 挤出切削制备梯度结构铝带材的新工艺及机理[J]. 机械工程学报, 2022, 58(5): 278-288.[3] B. Y. Zhang, Y. N. Zeng, X. Q. Pang, S. Q. Li, X. Liu, W. J. Deng*. Feasibility analysis and process characteristics of selective laser ablation assisted milling Inconel 718[J]. Advances in Manufacturing, 2022, 10(4): 495-519.[4] B. Zhang, Y. Zeng, X. Pang, W. J. Deng*. Fretting wear behaviour of ultrafine-grained copper produced by cryogenic temperature extrusion machining[J]. Materials Science and Technology, 2022.[5] B. Zhang, P. Shen, J. Zhang, Y. Zeng, X. Pang, W. J. Deng*. Application of plowing extrusion-cutting for manufacturing array structural fins[J]. Journal of Manufacturing Processes, 2022, 78: 202-217.[6] Y. Zeng, Y. Zou, B. Zhang, X. Liu, W. J. Deng*. The formation mechanism, mechanical properties and thermal stability of the pure copper sheet with gradient structure processed by plastic flow machining[J]. Materials Characterization, 2022, 185.[7] X. Pang, B. Zhang, S. Li, Y. Zeng, X. Liu, P. Shen, Z. Li, W. J. Deng*. Machining performance evaluation and tool wear analysis of dry cutting austenitic stainless steel with variable-length restricted contact tools[J]. Wear, 2022, 504-505.[8] Y. Y. Pi, W. J. Deng*, J. Y. Zhang, X. L. Yin, W. Xia. Towards understanding the microstructure and temperature rule in large strain extrusion machining[J]. Advances in Manufacturing, 2021, 9(2): 262-272.[9] X. Pang, Y. Zeng, J. Zhang, W. J. Deng*. Analytical model and experimental verification of Poisson burr formation in ductile metal machining[J]. Journal of Materials Processing Technology, 2021, 290.[10] X. Pang, X. Liu, J. Zhang, W. J. Deng*. Investigation on the modelling and characterization of top edge burr formation in slotting finned tube[J]. International Journal of Advanced Manufacturing Technology, 2021, 112(1-2): 537-551.[11] X. Pang, J. Zhang, X. Yin, B. Zhang, W. J. Deng*. Analytical and experimental investigation of improved burr morphology prediction at the top edge in metal machining[J]. International Journal of Advanced Manufacturing Technology, 2020, 108(5-6): 1343-1355.[12] 张嘉阳, 邓文君*, 刘良伟, 殷晓龙, 夏伟. 成形挤出切削法制备翅片及其成形能力研究[J]. 机械工程学报, 2019, 55(5): 212-222.[13] J. Zhang, X. Pang, H. Chen, G. Shi, W. J. Deng*. Process and forming performance of ploughing extrusion cutting for recycling of metal chips[J]. Journal of Materials Processing Technology, 2019, 274.[14] X. Yin, Y. Pi, D. He, J. Zhang, W. J. Deng*, X. Yin, Y. Pi, D. He, J. Zhang, W. J. Deng*. Corrigendum: Development of ultrafine grained Al 7075 by cryogenic temperature large strain extrusion machining [J]. Journal of Materials Research, 2019, 34(2): 354.[15] X. Yin, W. J. Deng*, Y. Zou, J. Zhang. Ultrafine grained Al 7075 alloy fabricated by cryogenic temperature large strain extrusion machining combined with aging treatment[J]. Materials Science and Engineering A, 2019, 762.[16] J. Y. Zhang, L. W. Liu, D. He, X. L. Yin, W. J. Deng*. The effects of tool structure parameters on forming extrusion cutting (FEC)[J]. International Journal of Advanced Manufacturing Technology, 2018, 98(9-12): 2705-2716.[17] X. Yin, Y. Pi, D. He, J. Zhang, W. J. Deng*. Development of ultrafine grained Al 7075 by cryogenic temperature large strain extrusion machining[J]. Journal of Materials Research, 2018, 33(20): 3449-3457.[18] D. He, B. Wang, J. Zhang, S. Liao, W. J. Deng*. Investigation of interference effects on the burnishing process[J]. International Journal of Advanced Manufacturing Technology, 2018, 95(1-4): 1-10.[19] W. J. Deng*, J. Y. Zhang, L. W. Liu, D. He, W. Xia. Simulation analysis of a new chips recycling process termed forming extrusion cutting[J]. International Journal of Simulation Modelling, 2017, 16(4): 694-706.[20] Z. Zou, L. Liu, B. Li, W. J. Deng*. Research on burr formation mechanism in metal cutting with a backup material[J]. International Journal of Advanced Manufacturing Technology, 2016, 86(5-8): 1895-1907.[21] J. Y. Zhang, B. L. Li, Z. J. Zou, T. Zou, W. J. Deng*. Grain refinement and thermal stability of AISI1020 strips prepared by large strain extrusion machining[J]. Materials Science Forum, 2016, 836-837: 509-521.[22] B. Wang, J. Zhang, W. Zhou, W. Xia, W. J. Deng*. Chip inward curl and its influence on dimensional accuracy in groove cutting with a novel restricted contact tool[J]. Advances in Mechanical Engineering, 2016, 8(9): 1-12.[23] B. Wang, J. Zhang, C. Wu, W. J. Deng*. A numeric investigation of rectangular groove cutting with different lateral micro textured tools[J]. Key Engineering Materials, 2016, 693: 697-703.[24] Z. Wan, Y. Li, H. Tang, W. J. Deng*, Y. Tang. Characteristics and mechanism of top burr formation in slotting microchannels using arrayed thin slotting cutters[J]. Precision Engineering, 2014, 38(1): 28-35.[25] W. J. Deng*, Q. Li, B. L. Li, Z. C. Xie, Y. T. He, Y. Tang, W. Xia. Thermal stability of ultrafine grained aluminium alloy prepared by large strain extrusion machining[J]. Materials Science and Technology, 2014, 30(7): 850-859.[26] W. J. Deng, Y. T. He, P. Lin, W. Xia, Y. Tang. Investigation of the effect of rake angle on large strain extrusion machining[J]. Materials and Manufacturing Processes, 2014, 29(5): 621-626.[27] W. J. Deng*, C. Z. Xie, Q. Li, P. Lin. Finite element modelling and simulation of chip breaking with grooved tool[J]. International Journal of Simulation Modelling, 2013, 12(4): 264-275.[28] W. J. Deng*, P. Lin, Q. Li, W. Xia. Effect of constraining tool corner radius on large strain extrusion machining[J]. Materials and Manufacturing Processes, 2013, 28(10): 1090-1094.[29] W. J. Deng*, Q. Li, Z. C. Xie, P. Lin. Numerical analysis of rectangular groove cutting with different RC tools[J]. International Journal of Simulation Modelling, 2013, 12(2): 120-131.[30] W. J. Deng*, Q. Li, B. L. Li, Y. T. He, W. Xia, Y. Tang. Study on the cutting force of cylindrical turning with novel restricted contact tools[J]. International Journal of Advanced Manufacturing Technology, 2013, 69(5-8): 1625-1638.[31] W. J. Deng*, P. Lin, Q. Li, G. Mo. Ultrafine-grained copper produced by machining and its unusual electrochemical corrosion resistance in acidic chloride pickling solutions[J]. Corrosion Science, 2013, 74: 44-49.[32] W. J. Deng*, Z. C. Xie, P. Lin, T. K. Xu. Study on burr formation at the top edge in rectangular groove cutting[J]. Advances in Materials Science and Engineering, 2012, 2012.[33] W. J. Deng*, P. Lin, Z. C. Xie, Q. Li. Analysis of large-strain extrusion machining with different chip compression ratios[J]. Journal of Nanomaterials, 2012, 2012.[34] W. J. Deng*, Z. Xie, Y. Tang, R. Zhou. Experimental investigation on anti-gravity loop heat pipe based on bubbling mode[J]. Experimental Thermal and Fluid Science, 2012, 41: 4-11.[35] W. J. Deng, W. Xia, C. Li, Y. Tang. Ultrafine grained material produced by machining[J]. Materials and Manufacturing Processes, 2010, 25(6): 355-359.[36] W. J. Deng, W. Xia, C. Li, Y. Tang. Formation of ultra-fine grained materials by machining and the characteristics of the deformation fields[J]. Journal of Materials Processing Technology, 2009, 209(9): 4521-4526.[37] W. J. Deng, W. Xia, X. L. Zhao, Y. Tang. Modelling of temperature history during machining of cast aluminium alloy[C]//Advanced Design and Manufacture to Gain a Competitive Edge: New Manufacturing Techniques and their Role in Improving Enterprise Performance. 2008: 231-240.[38] W. J. Deng, C. Li, W. Xia, X. Z. Wei. Finite element modeling of burr formation in orthogonal metal cutting[J]. Advanced Materials Research, 2008, 53-54: 71-76.[39] W. J. Deng, W. Xia, Y. Li, Z. Wan, Y. Tang. Large plastic deformation and ultra-fine grained structures generated by machining[J]. Key Engineering Materials, 2008, 375-376: 21-25.[40] Z. Wan, Y. Tang, W. J. Deng*, Y. Liu. Study on process of planing forming of plate fin heat sinks[J]. Materials Science Forum, 2006, 532-533: 237-240.[41] W. J. Deng, W. Xia, Y. Tang, Z. P. Wan, Y. J. Liu. Prediction of chip formation in machining with restricted contact grooved tools[C]//Current Development in Abrasive Technology - Proceedings of the 9th International Symposium on Advances in Abrasive Technology, ISAAT 2006. 2006: 476-481.[42] W. J. Deng, Y. Tang, W. Xia, Z. Wan. Effect of rounded cutting edge radius on residual stress within machined sublayer[J]. Materials Science Forum, 2006, 532-533: 536-539.[43] 邓文君, 夏伟, 周照耀, 邵明, 李元元. 正交切削高强耐磨铝青铜的有限元分析[J]. 机械工程学报, 2004, 40(3): 71-75. 教学活动 机电传动控制(本科)金属切削与有限元法 指导学生情况 硕士:33人博士:6人 |