汪舟,男,出生於1981年9月,漢族,湖北武漢人,博士,武漢理工大學汽車工程學院副教授、碩士研究生導師。
基本介紹
- 中文名:汪舟
- 出生日期:1981年9月
- 職業:教師
- 畢業院校:上海交通大學
- 學位/學歷:博士
- 職務:武漢理工大學汽車工程學院碩士生導師
研究方向,人物經歷,教育背景,學術經歷,學術兼職,學術成果,發表論文,發明專利,科研項目,教學工作,
研究方向
汽車輕量化設計製造技術;數位化智慧型製造技術,多物理場耦合計算機仿真技術;新能源汽車零部件強化技術和疲勞機理研究
人物經歷
教育背景
1994.09-2000.06,湖北省武昌實驗中學,國中+高中;
2000. 09 - 2006. 06,武漢理工大學材料科學與工程學院,本科,碩士(本碩連讀基地班);
2006.09-2011.06,上海交通大學-卡爾斯魯厄理工學院(機械-材料)聯合培養博士(2008年9月至 2010年1月,留學基金委資助赴德國卡爾斯魯厄理工學院(KIT)聯合培養);
2011.07-2012.01,中國航天科技集團第八研究院800研究所,任工程師;
2012.02- , 武漢理工大學汽車工程學院車輛工程系,講師,副教授(2018.06-2018.11,美國喬治亞理工學院(GT)訪問學者);
學術經歷
2013年評為車輛工程專業碩士生導師,2014年評為副教授,2018年評為能源與動力工程專業碩士生導師(目前可帶車輛工程和能源與動力工程兩個專業碩士研究生)
學術兼職
汽車工程學會會員, 中國機械工程學會殘餘應力專業委員會會員,國家自然科學基金通訊評審專家
學術成果
發表論文
先後在《International Journal of Fatigue》,《Applied Surface Science》,《Journal of Materials Processing Technology》, 《Advances in Mechanical Engineering》,,《Journal of Alloys and compounds》,《Mechanics of Materials》,《Fatigue & Fracture of Engineering Materials and Structures》,《Journal of Constructional Steel Research》,《Fatigue & Fracture of Engineering Materials and Structures》,《Tribology Transactions》,《Surface Engineering》,《Advances in Mechanical Engineering》,《中國表面工程》,《武漢理工大學學報》,《表面技術》等國內外雜誌上發表SCI,EI及核心論文40餘篇;撰寫仿真方向專著1部《Finite Element Method -Simulation, Numerical Analysis and Solution Techniques》;以下為其代表論文:
英文:
[1] Junjie Huang, Zhou Wang*, Jin Gan, Gang Wu, Qingshuai Meng, Investigation of fatigue performance improvement in SiCw/Al composites with different modified shot peening treatments by considering surface mechanical properties, , Journal of Alloys and Compounds, 728 (2017) 169-178, (SCI)
[2] Kai Gao, Xunpeng Qin*, Xuliang Chen, Zhou Wang, Zhenhua Zhu, Man Cheng, Effect of curved surface shape and feed velocity on microstructure and mechanical performance of gray cast iron after spot continual induction hardening, Journal of Materials Engineering and Performance. 26 (2017) 1993-2002. (SCI)
[3] Xunpeng Qin*, Kai Gao, Zhenhua Zhu, Xuliang Chen,Zhou Wang, Prediction and optimization of phase transformation region after spot continual induction hardening process using response surface method, Journal of Materials Engineering and Performance, 26 (2017) 4578-4594. (SCI)
[4] Xunpeng Qin*, Kai Gao, Zhou Wang, Xuliang Chen, Effect of Spot Continual Induction Hardening on the Tribological Performance of Grey Cast Iron with Curved Surface, Tribology Transactions, 2017, DOI: 10.1080/10402004.2017.1300969. (SCI)
[5] Di Sun, Jin Gan* ,Zhou Wang, Peng Luo, Weiguo Wu, Experimental and analytical investigation of fatigue crack propagation of T-welded joints considering the effect of boundary condition, Fatigue & Fracture of Engineering Materials and Structures, 40(6) (2017) 894-908. (SCI)
[6] Di Sun, Jin Gan*, Zhou Wang, Wei-guo Wu, Experimental study on Fatigue Characteristics of T-welded Joint under Repeating Two-step Load, Proceedings of the Twenty-seventh (2017) International Ocean and Polar Engineering Conference San Francisco, CA, USA, June 25-30, 146-153
[7] Man Cheng, Zhou Wang*, Xunpeng Qin, Kai Gao, Yong Wang, Experimental study about the effect of heating power of spot induction hardening on material properties of 42CrMo, The 3nd International Conference on Advanced High Strength Steel and Press Hardening ICHSU 2016, 2016/08/25-2016/08/27, pp 199-208, 西安. (EI)
[8] Peng Luo, Zhou Wang*, Gang Wu, Yong Wang, Man Cheng, Literature review on state of the art in shot peening in the last decade (2006-2015), The 3nd International Conference on Advanced High Strength Steel and Press Hardening ICHSU 2016, 2016/08/25-2016/08/27, pp 455-468, 西安. (EI)
[9] Jin Gan, Di Sun, Zhou Wang*, Peng Luo, Weiguo Wu, The effect of shot peening on fatigue life of Q345D T-welded joint, Journal of Constructional Steel Research, 126 (2016) 74-82. (SCI)
[10] Chen Ni, Lin Hua*, Xiaokai Wang,Zhou Wang, Xunpeng Qin, Zhou Fang, Coupling method of magnetic memory and eddy current nondestructive testing for retired crankshafts, Journal of Mechanical Science and Technology, 30(7) (2016) 3097-3104. (SCI)
[11] Gao Kai, Wang Zhou*, Qin Xunpeng, Zhu Shengxiao, Numerical analysis of 3D spot continual induction hardening on curved surface of AISI 1045 steel, Journal of Central South University, 23 (2016) 1152-1162. (SCI)
[12] Lechun Xie*, Chengxi Wang, Liqiang Wang, Zhou Wang*, Chuanhai Jiang, Weijie Lu, Viencent Ji, Numerical analysis and experimental validation on residual stress distribution of titanium matrix composite after shot peening treatment, Mechanics of Materials, 99 (2016) 2-8. (SCI)
[13] Kai Gao, Xunpeng Qin*, Zhou Wang, Shengxiao Zhu, Zhongming Gan, Effect of magnetizer geometry on the spot induction heating process, Journal of Materials Processing Technology, 231 (2016) 125-136. (SCI)
[14] Shengxiao Zhu, Zhou Wang*, Xunpeng Qin, Huajie Mao, Kai Gao, Theoretical and experimental analysis of two-pass spot continual induction hardening process of AISI 1045 steel, Journal of Materials Processing Technology, 229 (2016) 814-825. (SCI)
[15] Kai Gao, Xunpeng Qin*, Zhou Wang, Shengxiao Zhu, Effect of spot continual induction hardening on the microstructure of steels: Comparison between AISI 1045 and 5140 steels, Materials Science and Engineering: A 651 (2016) 535-547. (SCI)
[16] Shengxiao Zhu, Zhou Wang*, Xunpeng Qin, Huajie Mao, Kai Gao, Prediction of Phase Transformation and Hardness Distribution of AISI 1045 Steel After Spot Continual Induction Hardening, Journal of Materials Engineering and Performance 24 (2015) 3919-3932. (SCI)
[17] Yong Wang, Zhou Wang*, Xunpeng Qin, Kai Gao, FEM simulation analysis of the effect of air gap on spot induction hardening process, The 2nd International Conference on Advanced High Strength Steel and Press Hardening ICHSU 2015, 2015/10/16-2015/10/18, pp 332-341, 長沙, 2015/10/16. (EI)
[18] Ye Hui, Wang Zhou*, Research on the Model of the Industrial Cluster Synergy Development,PROCEEDINGS OF THE 12th INTERNATIONAL CONFERENCE ON INNOVATION AND MANAGEMENT, 2015, 2015/11/20-2015/11/22, pp 381-384, 武漢, 2015/11/20. (CPIC)
[19] Kai Gao, Xunpeng Qin*,Zhou Wang, Shengxiao Zhu, Zhenyu Yuan, Zhenhua Zhu, A layered cooling process in whole quenching process for lightweight front axle beam, MATEC Web of Conferences 21 (2015) 08004 (EI)
[20] Kai Gao, Xunpeng Qin*, Zhou Wang, Hao Chen, Shengxiao Zhu, Yanxiong Liu, Yanli Song, Numerical and experimental analysis of 3D spot induction hardening, Journal of Materials Processing Technology 214 (2014) 2425-2433 (SCI)
[21] Feng Huang, Lin Hua*, Xunpeng Qin, Zhili Hu, Zhou Wang, Yanli Song, Yanxiong Liu, Microstructures and Thermal Stabilities of High Silicon Aluminum Alloys Prepared by Spray Deposition. Applied Mechanics and Materials, 711 (2014) 206-209. (EI)
[22] Can Yang, Lin Hua*, Zhou Wang, Yaohua He, Shift Performance Test and Analysis of Multipurpose Vehicle. Advances in Mechanical Engineering, (2014), Article ID 378176, 1-15, 2014. (SCI)
[23] Jujie Huang, Zhou Wang, Kai Bian, Chuanhai Jiang*, Investigation for different peening tehcniques on residual stress field of SiCwAl composite. Journal of Materials Engineering and Performance, 22 (2013) 782-786. (SCI)
[24] Jujie Huang, Zhou Wang, Kai Bian, Chuanhai Jiang*, Thermal Relaxation of Residual Stresses in Shot Peened Surface Layer of SiCw/Al Composite. Journal of Materials Engineering and Performance, 21 (2012) 915-919. (SCI)
[25] Zhou Wang, Chuanhai Jiang*, Xiaoyan Gan, Yanhua Chen, Vincent Ji. Influence of shot peening on the fatigue life of laser hardened 17-4PH steel. International Journal of Fatigue, 33(4) (2011) 549-556. (SCI)
[26] Zhou Wang, Weizhi Luan, Junjie Huang, Chuanhai Jiang*, XRD investigation of microstructure strengthening mechanism of shot peening on laser hardened 17-4PH. Materials Science and Engineering: A, 528 (2011) 6417-6425. (SCI)
[27] Zhou Wang, Yanhua Chen, Chuanhai Jiang*, Thermal relaxation behavior of residual stress in laser hardened 17-4PH steel after shot peening treatment. Applied Surface Science, 257(33) (2011) 9830-9835. (SCI)
[28]Zhou Wang, Chuanhai Jiang*, Xiaoyan Gan, Yanhua Chen. Effect of shot peening on the microstructure of laser hardened 17-4PH. Applied Surface Science, 257(4) (2010) 1154-1160. (SCI)
[29] Yanhua Chen, Chuanhai Jiang*, Zhou Wang, Ke Zhan, Influence of shot peening on surface-layer characteristics of a monocrystalline nickel-based superalloy. Powder Diffraction, 25(4) (2010) 355-358. (SCI)
中文:
[1] 羅鵬,汪舟*,甘進,楊瑩,伍剛,42CrMo鋼超聲噴丸強化模擬與實驗研究,武漢理工大學學報,第39卷,第4期:1-8頁,2017年 (中文核心)
[2] 朱生霄,秦訓鵬*,汪舟,毛華傑,高愷,多道次點式連續移動感應淬火數值模擬,中國表面工程,第28卷,第3期:122-130頁,2015年 (EI)
[3] 陳浩,秦訓鵬*,汪舟,高愷. 三維點式感應淬火電磁熱耦合場數值模擬,中國表面工程, 第26卷,第1期, 79-85頁, 2013年 (EI)
[4] 汪舟,姜傳海*,Volker Schulze,陳艷華,嵇寧. 不同光束移動速度下雷射淬火有限元分析. 材料科學與工藝, 第19卷,第4期,95-102頁,2011年 (EI)
[5] 韓建軍,汪舟,趙修建*,陶海征,製備氧化鋁薄膜空芯光纖工藝的研究,武漢理工大學學報,第31卷,第17期:1-3頁,2009年 (中文核心)
發明專利
申請專利十餘項,授權4項,以下為代表專利:
[1] 一種基於液壓機構的組合式支架裝置,吳衛國,郭國虎,李佳衛,葉雲凌,王昭宇,甘進,汪舟,專利授權號:ZL201621147729.2
[2] 一種高海況並靠隔離浮體,吳衛國,李佳衛,葉雲凌,郭國虎,王昭宇,甘進,汪舟,專利授權號:ZL201621147431.1
[3] 汽車車身覆蓋件成形模具型面感應加熱淬火強化方法,秦訓鵬,高愷,華林,汪舟,朱生霄,袁振宇,申請公布號:CN 104388655 A
[4] 一種超音波輔助淬火的工藝方法及裝置,華林,劉艷雄,王孝文,汪舟,莊武豪,申請公布號:CN 103333995 A
科研項目
主持項目
- 熱應力高能噴丸強化齒輪鋼微觀結構演變和疲勞機理研究,項目批准號:51405356,國家自然科學基金青年基金,起止年限:2015.01-2017.12. 項目金額:25萬
- 高壓發生器適應性改造及探測器三維旋轉平台試製,項目批准號:2012WQ050076,國家重大科學儀器專項子項,國家科技部,起止年限:2013.01-2014.12. 項目金額:30萬
- 多彈丸撞擊過程材料動態響對20CrMnTi鋼疲勞性能的影響,項目批准號:20130143120015,教育部博士點基金新教師項目,國家教育部,起止年限:2014.01-2016.12. 項目金額:4萬,
- 齒輪零部件材料噴丸強化及抗疲勞機理研究,項目批准號:2012-IV-067,武漢理工大學新任教職博士(後)人員項目,起止年限:2012.04-2014.03. 項目金額:5萬
- 汽車關鍵零部件複合噴丸強化與抗疲勞性能研究,項目批准號:2013-VII-020,武漢理工大學交叉學科創新研究項目,起止年限:2013.06-2015.05. 項目金額:20萬
參與項目
1. 熱軋環過程線上精確測量與智慧型控制技術基礎研究,項目批准號:51205299,國家自然科學基金青年基金,國家自然科學基金委員會,起止年限:2013.01-2015.12
2. 磁場處理對高強度鋼拼焊板衝壓性能的影響機制研究,項目批准號:51305317,國家自然科學基金青年基金,國家自然科學基金委員會,起止年限:2014.01-2016.12
教學工作
- 主講《先進制造技術概論》(雙語),主要面向武漢理工大學汽車工程學院和機電工程學院本科高年級學生。
- 助教《汽車理論》,主要面向武漢理工大學汽車工程學院本科高年級學生。