敖三三,男,天津大學材料科學與工程學院講師。
基本介紹
- 中文名:敖三三
- 畢業院校:天津大學
- 學位/學歷:博士
- 職業:教師
- 專業方向:雷射焊接過程質量檢測,精密特種加工
- 職稱:副教授
- 任職院校:天津大學材料科學與工程學院
個人經歷,研究方向,承擔項目,榮譽獎項,學術成果,
個人經歷
教育經歷:
2003.9-2007.7:河北科技大學,材料科學與工程學院,工學學士
2007.9-2009.7:天津大學,材料科學與工程學院,工學碩士
2009.9-2012.7:天津大學,材料科學與工程學院,工學博士
工作經歷:
2012.8-2014.7:天津大學,機械學院,博士後
2014.7-2015.7:美國南卡羅萊娜大學,機械學院,博士後
2015.12- :天津大學,材料科學與工程學院,講師
研究方向
雷射焊接過程質量檢測,精密特種加工。
承擔項目
1、項目名稱:基於亥姆霍茲原理的雷射焊小孔腔體發聲基礎理論研究;項目類別:國家自然科學青年基金項目;起止時間:2015/01-2017/12;
2、 項目名稱:金屬絲材3D製造技術的研製;項目類別:天津大學自主創新基金;起止時間:2016/01-2016/12;
3、 項目名稱:雷射焊小孔複雜腔體發聲基礎理論及關鍵技術研究;項目類別:中國博士後特別資助項目;起止時間:2013/09-2014/07;
4、 項目名稱:三絲共熔池全位置焊充熔體金屬的動力學理論研究;項目類別:中國博士後面上資助項目;起止時間:2013/08-2014/07;
5、 項目名稱:航空發動機用陶瓷深小孔電化學放電加工關鍵技術研究;項目類別:天津大學自主創新基金;起止時間:2014.01-2014.12;
6、 項目名稱:航空用鈦合金的深孔/長軸類超精密電解加工技術;項目類別:天津大學自主創新基金;起止時間:2013.01-2013.12;
榮譽獎項
中國包裝總公司 科學技術發明一等獎(省部級一等獎),項目名稱:新型綠色環保材料泡沫鋁在包裝上的套用研製與開發,項目完成單位:天津大學,中國包裝總公司,2014,(排名第四)
學術成果
形狀記憶合金超音波焊接方向:
[1] Wei Zhang,Sansan Ao*, Joao Pedro Oliveira, Zhi Zeng, Zhen Luo and Zhizhuang Hao, Effect of ultrasonic spot welding on the mechanical behaviour of NiTi shape memory alloys. Smart Materials and Structures. 2018.27(8):1-6.
[2] Zhang Wei, Ao Sansan*, Oliveira Joao Pedro, Zeng, Zhi,Huang, Yifei, Luo, Zhen,Microstructural Characterization and Mechanical Behavior of NiTi Shape Memory Alloys Ultrasonic Joints Using Cu Interlayer, Materials, 2018,11(10): 1830.
[3] W. Zhang, S.S. Ao*, J.P. Oliveirab, Z. Zeng. C.J Li, Z. Luo, Effects of ultrasonic spot welding parameters on the microstructure and mechanical properties of NiTi shape memory alloys,JMSE. 2019.
[4] 張威, 敖三三*, 羅震, 郝志壯, 陳瑤, 馮夢楠, 解龑. 焊接能量對鋁鎳超音波焊接接頭性能的影響.(上海交通大學學報,2018,)
雷射焊接過方向:
[1] Zhen Luo,Sansan Ao, Yuh Jin Chao, Xuetuan Cui, Yang Li, Ye Lin. Application of Pre-heating to Improve the Consistency and Quality in AA5052 Resistance Spot Welding, Journal of Materials Engineering and Performance, 2015, 24(10):3881-3891.
[2]Ao Sansan, Luo Zhen, Feng Mengnan, Yan, Fuyu. Simulation and experimental analysis of acoustic signal characteristics in laser welding, International Journal of Advanced Manufacturing Technology, 2015, 81(1-4): 277-287.
[3]敖三三,羅震,單平,步賢政,劉為東. Inconel 601鎳基高溫合金雷射焊焊縫的顯微組織,中國有色金屬學報, 2015,08: 2099-2107. ( 2015/8/15)
[4] 黃尊月,羅震,敖三三,姚杞,趙玉津.雷射光束位置對水下雷射焊接熔深和微觀組織的影響,上海交通大學學報, 2016, 10: 1609-1612+1617.
[5] 黃尊月,羅震,敖三三,董建濤.焊接順序對某飛行器叉形結構焊接變形的影響,焊接學報, 2016, 37(8): 31-34+44+130.
[6] Zhen Luo, Weidong Liu, Zhengming Wang,Sansan Ao. Monitoring of laser welding using source localization and tracking processing by microphone array, International Journal of Advanced Manufacturing Technology, 2016, 86(1-4): 21-28.
[7] 山河,羅震,張成大,敖三三,孟繁亮.雷射深熔焊聲源發聲機理,焊接學報, 2016, 8: 26-30+130. (2016/8/25)
[8]敖三三,羅震,黃尊月,馮夢楠.雷射深熔焊過程熔池小孔發聲數值計算與試驗分析,焊接學報, 2016,11:93-98+133. (2016/11/25);
[9]Sansan Ao, Zhen Luo, Chunfeng Zhao, Mengnan Feng, Weidong Liu. Numerical and Experimental Study of the Acoustic Signal Generated by Vapour Flow in Laser Welding, Lasers in Engineering, 2016, 34(1-3): 145-165.
[10]Sansan Ao, Zhen Luo, Mengnan Feng, Fuyu Yan. Extraction of the Acoustic Signal from Laser Welding in a Noisy Environment with a Microphone Array, Lasers in Engineering, 2016, 33(1-3):129-148.
[11]Sansan Ao, He Shan, Xuetuan Cui, Zhen Luo, Yuh J Chao, Mingtu Ma. Effect of specimen width on the failure behavior in resistance spot weld tensile shear testing, Welding in the World, 2016, 60(6): 1095-1107. ZunYue Huang,·Zhen Luo*,SanSan Ao, YangChuan Cai, Underwater laser weld bowing distortion behavior and mechanism of thin 304 stainless steel plates. Optics& Laser Technology, 2018.106:123-135. (DOI:10.1016/j.optlastec.2018.03.025) (3區,IF=2.109,有Web of SCi檢索證明)
[12] Hao, Zhizhuang,Ao, Sansan, Cai, Yangchuan, Zhang, Wei, Luo, Zhen, Formation of SUS304/Aluminum Alloys Using Wire and Arc Additive Manufacturing, METALS, 8(8): 1-12.DOI: 10.3390/met8080595. (3區,IF=1.704)
精密電解加工方向:
[1] Weidong Liu,Sansan Ao, Yang Li, Zuming Liu, Hui Zhang, Zhen Luo, Hongli Yu.Investigation on the profile of microhole generated by electrochemical micromachining using retracted tip tool, International Journal of Advanced Manufacturing Technology, 2016, 87(1-4):877-889.
[2] Weidong Liu,Sansan Ao, Yang Li, Chunfeng Zhao, Zhen Luo, Q. Li, T. Luo. Elimination of the over cut from a repaired turbine blade tip post-machined by electrochemical machining,Journal of Materials Processing Technology,2016, 231: 27-37.
[3] 劉為東,羅震,敖三三,談輝.基於渦輪葉片修復的電解修型非加工面保護工藝,材料工程, 2016, 11: 16-21
[4] 劉為東,羅震,敖三三,李洋,劉祖明,張輝.TC4鈦合金渦輪葉片修復層的電解修形技術,天津大學學報(自然科學與工程技術版), 2017, 1: 49-53.
[5] Weidong Liu,Sansan Ao, Yang Li, Zuming Liu, Hui Zhang, Sunusi Marwana Manladan, Zhen Luo*, Zhipin Wang. Effect of Anodic Behavior on Electrochemical Machining of TB6 Titanium Alloy, Electrochimica Acta,2017, 233:190-200. (2017/4/10)
[6] Hui Zhang,Sansan Ao, Weidong Liu, Zhen Luo*, Wenjie Niu, Ke Guo. Electrochemical micro-machining of high aspect ratio micro tools using quasi-solid electrolyte. International Journal of Advanced Manufacture Technology, 2017, 91(9-12):2965-2973.
[7] Weidong Liu, Zhen Luo, Tao Yuan, Yang Li, Hui Zhang,Sansan Ao*. The multi-physics analysis for a novel tool structure to improve the accuracy in electrochemical micro-machining, International Journal of Advanced Manufacture Technology,2018,94(5-8):1991-2001.
[8] Weidong Liu,Sansan Ao, Yang Li, Zuming Liu, Zhen Luo, Zhiping Wang, Renfeng Song. Modeling and fabrication of microhole by electrochemical micromachining using retracted tip tool. Precision Engineering, 2017, 50:77-84.
[9] Weidong Liu, Sansan Ao, Yang Li, Zuming Liu, Zhengming Wang, Zhen Luo*, Zhiping Wang, Renfeng Song. Jet electrochemical machining of TB6 titanium alloy. International Journal of Advanced Manufacture Technology, 2017,90(5-8):2397-2409 DOI:10.1007/s00170-016-9500-9.
[10] Chunfeng Zhao, Zhen Luo*,Sansan Ao, Mengnan Feng, Weidong Liu, Rui Zhang. A novel method to join carbon nanotube fibers with metal substrates, Carbon, 2017,125:269-279
[11] 張輝, 劉為東,敖三三,解龑,劉祖明,羅震.基於微孔電解加工的新型陰極結構,上海交通大學學報, 2017,51(8): 1000-1005 (2017.8.28)
[12] Weidong Liu, Hui Zhang, Zhen Luo, Chunfeng Zhao, Sansan Ao*, Feng Gao, Yubo Sun. Electrochemical micromachining on titanium using the NaCl-containing ethylene glycol electrolyte, Journal of Materials Processing Technology. 2018, 255: 784-794.
[13] 敖三三*,李康柏,劉為東, 張輝, 張威, 羅震.基於非水基電解液的鈦合金微細電解加工工藝最佳化.天津大學學報,2019,52(2): 217-223
[14] 羅震,徐劍祥,敖三三*, 劉為東,李康柏, 張威.陣列微坑的固態微細電解加工工藝試驗研究.天津大學學報,2019, 52(3):236-241,
[15] Weidong Liu, Zhen Luo, Yang, Zuming Liu, Kangbai Li, Jianxiang Xu, Sansan Ao*, Investigation on parametric effects on groove profile generated on Ti1023 titanium alloy by jet electrochemical machining, The International Journal of Advanced Manufacturing Technology, 2018, 1-14.
