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- 基本教学信息
- 本科教学信息
- 传热学,32学时
现代钢铁生产设备及工艺A,24学时 - 教学项目及获奖
- 研究生教学信息
- 学科及研究方向
- 1.[硕士]机械设计及理论(080203),研究方向: 先进材料成形技术、电磁感应加热工艺与技术
2.[硕士]机械(085501),研究方向:轧制成形工艺与装备
3.[博士]机械设计及理论(080203),研究方向: 先进材料成形技术、电磁感应加热工艺与技术、新能源电池制备技术
4.[硕士]智能装备(0802Z4),研究方向:金属材料成形装备与技术、结构材料设计与优化 - 研究生招生信息
- 研究方向:先进复合材料成形技术,电磁感应加热工艺与技术。
每年招收硕士研究生2-3名、博士研究生1名。(专业代码:学硕080203、0802Z4,专硕085500)
依据课题进展发放劳务补贴。
鼓励发表论文、撰写专利,提供版面费和专利代理费,并给予2000-8000元奖励。 - 硕士教学信息
- 2019级:
邓泽军(推免硕博连读,协助肖宏教授指导)
高勃兴(推免硕博连读,协助肖宏教授指导)
付伦(推免硕博连读,协助肖宏教授指导,获国家奖学金)
2020级:
梁树杰,就业单位:比亚迪汽车工业有限公司西安分公司
2021级:
张文哲(获得国家奖学金、一等奖学金)
朱宇飞(获得一等奖学金,上海交通大学攻读博士学位)
2022级:
吴玉华(获得国家奖学金,推免硕博连读)
姜润五(获得三等奖学金,推免硕博连读)
2023级:
于浩
2024级:
夏天
崔瑀琦
路明昊 - 博士教学信息
- 2021级:
邓泽军,推免硕博连读,协助肖宏教授指导,获国家奖学金,发表一区TOP论文1篇,二区TOP论文1篇,授权发明专利1项,获CSC资助留学意大利米兰理工大学(12个月)。
高勃兴,推免硕博连读,协助肖宏教授指导,发表一区TOP论文2篇,二区TOP论文2篇,授权发明专利1项。
2022级:
付伦,推免硕博连读,协助肖宏教授指导,获国家奖学金,发表一区TOP论文3篇,授权发明专利4项,主持河北省研究生创新资助项目,获CSC资助留学意大利研究理事会凝聚态化学与能源技术研究所(12个月)。
2024级:
吴玉华,推免硕博连读,协助肖宏教授指导,英国阿伯丁大学培训学习3个月。
姜润五,推免硕博连读,英国阿伯丁大学培训学习3个月。 - 科研信息
- 在研项目信息
- [1] 河北省青年拔尖人才项目,负责人,2024-2026
[2] 河北省自然科学基金面上项目,负责人,2023-2025
[3] 国家重点研发计划,课题主研人,2020-2025 - 完成项目信息
- [1] 国家自然科学基金青年基金项目,负责人,2021-2023
[2] 海安研究院项目,负责人,2023-2024
[3] 中央引导地方科技发展资金项目,课题主研人,2022-2024
[4] 国家自然科学基金面上项目,课题主研人,2021-2024 - 专著、专利信息
- 2024年:
[1] 余超,王博伟,胡寓婷,于浩,肖宏.一种表面尖晶石型结构化制备铜和不锈钢复合板的方法,ZL202311633112.6(发明专利)
[2] 余超, 白文博, 游保军, 郝艳超, 肖宏.一种改善镁合金板边裂的可轴向移动异形轧辊及轧制方法,ZL202311534619.6(发明专利)
2023年:
[1] 余超,高勃兴,郭允畅,杨彬,肖宏.一种移动感应加热钛板单辊驱动轧制钛/铝复合板的方法,ZL202210567118.7(发明专利)
2022年:
[1] 余超, 付伦, 杨俊峰, 张文哲, 肖宏. 一种氧化处理增强钢铝双金属薄板的无铆连接强度的方法, ZL202111358014.7(发明专利)
[2] 余超, 付伦, 张文哲, 肖宏. 圧延前に酸化処理を経た鋼とアルミニウムとの両金属を圧延してラミネートする方法, 特願2022-005790(日本发明)
[3] 余超,朱宇飞,张文哲,杨彬.一种可调节防止复合轧制过程中尾部跑偏的导卫装置,ZL202221308066.3(实用新型)
2021年:
[1] 余超, 付伦, 王雨萌, 肖宏. 轧前氧化处理的钢铝双金属轧制复合方法, ZL202110158854.2(发明专利)
[2] 余超, 邓泽军, 祁梓宸, 和志斌, 梁树杰, 郑阳, 肖宏. 水系锌离子电池负极的制备方法、电池, ZL202011295915.1(发明专利)
[3] 余超, 付伦, 祁梓宸, 王雨萌, 肖宏. 自支撑结构锌铜合金负极的制备方法, ZL202011165459.3(发明专利)
2020年及以前:
[1] 余超, 芦跃峰, 白婧, 曾琳. 一种可改变金相试件热镶嵌直径尺寸的镶嵌模具, ZL202022045819.3(实用新型)
[2] 肖宏, 余超, 郑京伟, 王德蔚. 一种基于热模拟试验机的热压复合试验方法, ZL201710120008.5(发明专利)
[3] 肖宏, 余超, 谢红飙. 一种制备不锈钢与碳钢复合板的异温轧制方法, ZL201610005016.0(发明专利)
[4] 肖宏, 祁梓宸, 余超, 任忠凯, 刘晓. 一种异温轧制制备钛铝复合板的方法, ZL201710160805.6(发明专利)
[5] 肖宏, 祁梓宸, 余超, 许朋朋, 赵云鹏, 吴宗河. 利用电磁感应加热轧制工艺制备钢铝复合板的方法, ZL201810227729.0(发明专利)
[6] 肖宏, 祁梓宸, 余超, 赵云鹏, 吴宗河. 利用电磁感应加热异温平直轧制制备钛镁复合板的方法, ZL201711390063.2(发明专利) - 学术论文信息
- 一作或通讯作者发表一区、二区论文:
[1] Chao Yu, Hong Xiao*, Hui Yu, et al. Mechanical properties and interfacial structure of hot-roll bonding TA2/Q235B plate using DT4 interlayer[J]. Materials Science and Engineering A, 2017, 695: 120-125. (第一作者,中科院二区Top期刊)
[2] Chao Yu, Lun Fu, Hong Xiao*, et al. Effect of carbon content on the microstructure and bonding properties of hot-rolling pure titanium clad carbon steel plates[J]. Materials Science and Engineering A, 2021, 820: 141572. (第一作者,中科院一区Top期刊)
[3] Lun Fu, Hong Xiao, Chao Yu*, Qiang Lv, Shanyin Zhang, Hongbiao Xie. Bonding enhancement of cold rolling Al/steel composite plates via self-nano film modification[J]. Journal of Materials Processing Technology, 2022, 300:117427.(通讯作者/学生一作,中科院一区Top期刊)
[4] Lun Fu, Hong Xiao, Chao Yu*,et al. Analysis on mechanism of steel plate pre-oxidation in improving bonding properties of cold-rolled 6061 Al/Q235 steel composite plate[J]. Journal of Materials Processing Technology, 2023, 316:117960.(通讯作者/学生一作,中科院二区Top期刊)
[5] Chao Yu, Yuhua Wu, Zhi Yang, et al. Effect of Ti fracture on mechanical properties of accumulative-roll-bonded Ti-Al composite plates[J]. Journal of Materials Research and Technology, 2023, 25: 6702-6709.(第一作者,中科院二区Top期刊)
[6] Zejun Deng, Hong Xiao, Chao Yu*, et al. Re-healing of separated steel substrate and workhardened surface layer in roll-bonded steel-aluminum laminates[J]. Journal of Materials Research and Technology, 2023, 26: 935-947.(通讯作者/学生一作,中科院二区Top期刊)
[7] Boxing Gao, Hong Xiao, Chao Yu*, Yuting Hu. Warpage control and interface characteristics of Ti/Al composite plates by differential temperatures rolling with mobile induction heating[J]. Journal of Materials Processing Technology, 2024, 331: 118524.(通讯作者/学生一作,中科院二区Top期刊)
[8] Zejun Deng, Hong Xiao, Chao Yu*. Mechanical properties and bonding mechanism on interfaces containing work-hardening surface layer of roll-bonded 6061 Al/Q235 steel composite plates[J]. Journal of Materials Research and Technology, 2024, 31: 254-263.(通讯作者/学生一作,中科院二区Top期刊)
[9] Zejun Deng, Hong Xiao, Chao Yu*, Riccardo Casati. Cryogenic rapid quenching simultaneously enhances the strength and ductility of steel-Aluminum composite plates[J]. Journal of Materials Research and Technology. 2024, 33: 6667-6680.(通讯作者/学生一作,中科院二区Top期刊)
[10] Bowei Wang, Baojun You, Yuting Hu, Lun Fu*, Chao Yu**, Hong Xiao. Improvement of bonding behavior of cold-rolled stainless steel/copper composite plates via surface spinel structure treatment[J]. Journal of Materials Research and Technology, 2025, 35: 1586-1595.(通讯作者/学生一作,中科院二区期刊)
[11]Boxing Gao, Silvia Barella, Baojun You,et al. Study on the mechanism of synergistic improvement of bonding strength and elongation of Ti/Al composite plates by annealing treatment[J]. Materials Science and Engineering A, 2025, 941: 148603.(通讯作者/学生一作,中科院二区Top期刊)
[12] Boxing Gao, Yanchao Hao, Chao Yu*, Yuhua Wu, Hong Xiao. Study on temperature control and bonding properties of Ti/Al composite plates rolled by differential temperature rolling with mobile induction heating[J]. Journal of Manufacturing Processes, 2025, 134: 348-359. (通讯作者/学生一作,中科院一区Top期刊)
2025:
[1] Boxing Gao, Yanchao Hao, Chao Yu*, Yuhua Wu, Hong Xiao. Study on temperature control and bonding properties of Ti/Al composite plates rolled by differential temperature rolling with mobile induction heating[J]. Journal of Manufacturing Processes, 2025, 134: 348-359.
[2] Yufei Zhu, Runwu Jiang, Chao Yu*, Yuhua Wu, Hong Xiao. Effects of Different Cooling Processes on the Structure and Properties of Aluminum/Steel Composite Plate[J]. Chinese Journal of Mechanical Engineering, 2025, 38: 7.
[3] Bowei Wang, Baojun You, Yuting Hu, Lun Fu*, Chao Yu**, Hong Xiao. Improvement of bonding behavior of cold-rolled stainless steel/copper composite plates via surface spinel structure treatment[J]. Journal of Materials Research and Technology, 2025, 35: 1586-1595.
[4] Wenbo Bai, Baojun You, Yanchao Hao, Chao Yu*, Hong Xiao**. Effect of progressive flattened antisymmetric crown rolling on crack inhibition of magnesium alloy plate[J]. Materials Letters, 2025, 382: 137799.
[5] Boxing Gao, Baojun You, Chao Yu*, Hong Xiao. Experimental–numerical study on the mechanical properties and fracture mechanism of aluminum/steel composite plates using progressive failure analysis and cohesive zone model[J]. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2025, 47: 280.
[6] Boxing Gao, Silvia Barella, Baojun You, Hong Xiao, Chao Yu*, Caiyi Liu, Andrea Gruttadauria, Carlo Mapelli. Study on the mechanism of synergistic improvement of bonding strength and elongation of TiAl composite plates by annealing treatment[J]. Materials Science & Engineering A, 2025, 941: 148603.
[7] Yunchang Guo, Hong Xiao, Chao Yu*. Rolling-induced bending mechanism and effect of asymmetric rolling on bending behavior of Ti/Al composite plates[J]. International Journal of Material Forming, 2025, 18: 75.
2024:
[1] 余超, 郭允畅, 肖子涵, 姜润五, 和志斌, 肖宏*. 异温轧制钛/铝复合板温度控制及性能研究[J]. 稀有金属材料与工程, 2024, 56(6): 1693-1700.
[2] 张文哲, 朱加辉, 郑阳, 姜润五, 余超*, 肖宏. 表面形貌对铝/镁热轧复合结合强度的影响[J]. 塑性工程学报, 2024, 31(3): 157-170.
[3] Lun Fu, Chao Yu, Riccardo Donnini, Hong Xiao*, Giuliano Angella*. Preparation of Ti/Steel composite plates with AA6061 as the intermediate layer based on CRB[J]. Materials Letters, 2024, 363: 136287.
[4] 高勃兴, 肖宏, 余超*, 朱加辉. 移动感应加热异温轧制钛/铝复合板的协调变形和力学性能[J]. 中国有色金属学报, 2024,34(2): 400-411.
[5] Yang Bin, Bai Wenbo, Zheng Yang, Yu Chao*, Xiao Hong. Effect of surface treatment on bonding strength of aluminum-magnesium hot-rolled composite plate[J]. Rare Metal Materials and Engineering, 2024, 53(8): 2167-2173.
[6] Boxing Gao, Hong Xiao, Chao Yu*, Yuting Hu. Warpage control and interface characteristics of Ti/Al composite plates by differential temperatures rolling with mobile induction heating[J]. Journal of Materials Processing Technology, 2024, 331: 118524.
[7] Zejun Deng, Hong Xiao, Chao Yu*. Mechanical properties and bonding mechanism on interfaces containing work-hardening surface layer of roll-bonded 6061 Al/Q235 steel composite plates[J]. Journal of Materials Research and Technology, 2024, 31: 254-263.
[8] Zejun Deng, Hong Xiao, Chao Yu*, Riccardo Casati. Cryogenic rapid quenching simultaneously enhances the strength and ductility of steel-Aluminum composite plates[J]. Journal of Materials Research and Technology. 2024, 33: 6667-6680
2023:
[1]Lun Fu, Hong Xiao, Chao Yu*, Nan Chen, Yunchang Guo, Bin Yang, Zhongkai Ren*. Analysis on mechanism of steel plate pre-oxidation in improving bonding properties of cold-rolled 6061 Al/Q235 steel composite plate[J]. Journal of Materials Processing Technology, 2023, 316: 117960.
[2] Chao Yu, Yuhua Wu, Zhi Yang, Xinwu Shu, Hong Xiao*. Effect of Ti fracture on mechanical properties of accumulative-roll-bonded Ti-Al composite plates[J]. Journal of Materials Research and Technology, 2023, 25: 6702-6709.
[3] Zejun Deng, Hong Xiao, Chao Yu*, Yunchang Guo. Re-healing of separated steel substrate and workhardened surface layer in roll-bonded steel-aluminum laminates[J]. Journal of Materials Research and Technology, 2023, 26: 935-947
[4] Chao Yu, Wenzhe Zhang, Runwu Jiang, et al. preparation method and properties of Q235/5083 composite plate with 1060 interlayer by differential temperature rolling with induction heating[J]. Metals, 2023, 13: 501.
[5] 余超,朱宇飞,张文哲,肖宏,吕强.电磁感应加热轧制制备钛/钢复合板性能研究[J].塑性工程学报,2023,30(4): 18-26.
2022及以前:
[1] Zejun Deng, Hong Xiao*, Chao Yu. Effect of intermetallic compounds distribution on bonding strength of steel–aluminum laminates[J]. Materials and Design, 2022, 222: 111106.(学生一作,中科院一区Top期刊)
[2] 谢红飙,陈楠,梁树杰,于济瑞,余超*,肖宏. 钛/铝复合板感应加热异温轧制有限元模拟和实验[J].中国有色金属学报, 2022, 32(8): 2231−2242.
[3] Chao Yu, Zhibin He, Qiang Lv, et al. Preparation of Ti/Al composite plates by differential temperature rolling with induction heating[J]. The International Journal of Advanced Manufacturing Technology, 2021,117: 383-394.(SCI收录,IF:3.226)
[4] Chao Yu, Zejun Deng, Shujie Liang, et al. Effect of pure iron interlayer on microstructure and properties of hot-rolled stainless steel clad plate, Materials Today Communications, 2021, 28(1): 102497.(SCI收录,IF:3.383)
[5] Chao Yu, Zichen Qi, Hui Yu, et al. Microstructural and mechanical properties of hot roll bonded titanium alloy/low carbon steel plate[J]. Journal of Materials Engineering and Performance, 2018, 27(4):1664-1672.
[6] 余超, 谢红飙*, 肖宏. 采用纯铁中间层热轧钛合金/不锈钢复合板显微结构和性能[J].稀有金属材料与工程, 2019,48(5):1631-1636.
[7] 余超, 赵云鹏, 许朋朋, 等. 纯铁中间层对热轧钛/钢复合板性能的影响[J].钢铁, 2018, 53(11): 93-101.
[8] 余超, 吴宗河, 郭子楦, 等. 热轧钛/钢复合板显微组织和性能[J]. 钢铁, 2018, 53(4): 42-47.
[9] 赵云鹏, 余超*, 肖宏, 等. 纯铁中间层对热轧不锈钢复合板性能的影响[J]. 钢铁, 2020, 55(5): 73-79.
[10] Zichen Qi, Chao Yu, Hong Xiao*. Microstructure and bonding properties of magnesium alloy AZ31/CP-Ti clad plates fabricated by rolling bonding[J]. Journal of Manufacturing Processes, 2018, 32: 175-186.
[11] G. Shen, C. Yu, Z. Ren*, et al. Mechanism generating deviations in the rolling load and strip camber on the plate rolling mill[J]. Ironmaking and Steelmaking, 2017, 44(9): 707-711.
[12] 肖宏*, 余超, 刘剑, 等. 板坯连铸直轧感应补热有限元分析与试验[J]. 钢铁, 2017, 52(2): 44-50.
[13] 祁梓宸, 余 超, 肖 宏, 等. 异温轧制制备钛/铝复合板的变形协调性与复合性能[J]. 中国有色金属学报, 2018, 28(6): 1120-1127. - 科研获奖信息
- 2020年度中国机械工业科技进步二等奖
2023年度中国机械工业科技进步二等奖
2023年中国产学研合作创新成果奖二等奖 - 社会信息
- 社会兼职信息
- 《Metals》客座编辑
期刊审稿人:
Journal of Materials Processing Technology
Materials and Design
Transactions of Nonferrous Metals Society of China
Journal of Advanced Joining Processes
Materials Characterization
Journal of Alloys and Compounds
Thermal Science and Engineering Progress
Materials Today Communications
Results in Engineering
Materials Letters - 荣誉称号
- 学习工作简历
- 2023.06-至今,燕山大学,副教授,博士生导师
2022.12-2023.06,燕山大学,副教授
2019.07-2022.12,燕山大学,讲师
2013.09-2019.06,燕山大学,推免硕博连读
2009.09-2013.06,燕山大学,学士
