楊劼人,男,博士,1984年生,四川成都人,現任四川大學材料學院特聘研究員。
基本介紹
- 中文名:楊劼人
- 出生地:四川成都
- 出生日期:1984年
- 畢業院校:哈爾濱工業大學
- 學位/學歷:博士
- 職業:教師
- 專業方向:鈦鋁合金、貴金屬、高溫合金材料的理論設計
- 任職院校:四川大學
個人經歷,主講課程,研究方向,學術成果,榮譽獎項,
個人經歷
工作經歷 Work Experience
2017/09 - 2018/09,京都大學,材料工學部,訪問學者
2013/09 - 2020年,西北工業大學,材料學院材料系,副教授
2020年— 四川大學 材料學院 特聘研究員/博導
教育經歷 Education Experience
■ 2009/09–2013/07,哈爾濱工業大學,材料加工工程,工學博士
■ 2007/09–2009/07,哈爾濱工業大學,材料加工工程,工學碩士
■ 2003/09–2007/07,上海大學,金屬材料與工程,工學學士
中國機械工程學會鑄造分會特種鑄造及有色合金專委會委員.
主講課程
研究生課程:
《Electron Microscopy and Analysis for Materials》春季
本科生課程:
《工程材料》秋季
《Alloy Systems and Heat Treatment》春季
《凝固原理》線上課程建設
研究方向
長期從事鈦鋁合金、貴金屬、高溫合金材料的理論設計、凝固加工、結構調控及相變行為研究。
學術成果
中國機械工程學會鑄造分會特種鑄造及有色合金專委會委員,主持國家自然科學基金2項、航空基金、973專題、陝西省自然科學基金、國家重點實驗室開放基金等項目,參與973、重點研發計畫、自然科學聯合基金等多個國家級項目。
多次參加國際及國內學術會議,在2017年TMS會議的TiAl專會上,擔任分會主席並做口頭報告。在Energy, Metallurgical and Materials Transactions A, Intermetallics等SCI期刊上發表論文40餘篇,被Appl. Therm. Eng., Int. J. Heat. Mass. Tran., J. Alloy. Compound., J. Mater. Process. Tech., J. Clean. Prod.期刊評為優秀審稿人。
學術論文
[1]Yang JR, Chen RR, Ding HS, Su YQ, Guo JJ, Huang F, Fu HZ. Uniformity analysis of magnetic field in an electromagnetic cold crucible used for directional solidification. Compel-the international journal for computation and mathematics in electrical and electronic engineering. 2013, 32(3): 997-1008.
[2]Yang JR, Chen RR, Ding HS, Guo JJ, Han JC, Fu HZ. Mechanism and evolution of heat transfer in mushy zone during cold crucible directionally solidifying TiAl alloys. International Journal of Heat and Mass Transfer. 2013, 63: 316-223.
[3] Yang JR, Chen RR, Ding HS, Guo JJ, Su YQ, Fu HZ. Flow field and its effect on microstructure in cold crucible directional solidification of Nb containing TiAl alloy. Journal of Materials Processing Technology. 2013, 213(8): 1355-1363.
[4] Yang JR, Chen RR, Ding HS, Guo JJ, Han JC, Fu HZ. Heat transfer and macrostructure formation of Nb containing TiAl alloy directionally solidified by square cold crucible. Intermetallics. 2013, 42:184-191.
[5]楊劼人, 陳瑞潤, 郭景傑, 丁宏升, 傅恆志. 高Nb-TiAl合金定向凝固研究現狀及展望. 稀有金屬材料與工程. 2016, 45(5): 1357-1363.
[6] P. Han, H.C. Kou, J.R. Yang*, G. Yang, J.S. Li. Solidification microstructure characteristics of Ti-44Al-4Nb-2Cr-0.1B alloy under various cooling rates during mushy zone. Rare Metals, 2016, 35(1): 35-41.
[7]J.R. Yang*, B. Xiao, P. Han, H.C. Kou, J.S. Li. Microstructure Evolution in theMushyZone of a beta-Solidifying TiAl Alloy under Different Cooling Processes. Advanced Engineering Materials. 2016, 18(9): 1667-1673.
[8]J.R. Yang*, R.R. Chen, J.J. Guo, H.Z. Fu. Temperature distribution in bottomless electromagneticcoldcrucible applied to directional solidification. International Journal of Heat and Mass Transfer. 2016, 100: 131-138.
[9] X.Y. Wang, J.R. Yang*, L. Song, H.C. Kou, J.S. Li, H.Z. Fu. Evolution of B2(ω) region in high-Nb containing TiAl alloy in intermediate temperature range. Intermetallics. 2017, 8: 32-39.
[10] B. Cao, J.R. Yang*, X.Y. Wang, R. Hu. The Effect of Pressure Stress on the Evolution of B2(v) Phase in High Nb Containing TiAl Alloy. Advanced Engineering Materials. 2017, 19(6): 1600844 (Back Cover)
[11] J.R. Yang*, X.Y. Wang, B. Cao, Y.L. Wu, K.R. Zhang, R. Hu. Tailoring the Microstructure of a beta-Solidifying TiAl Alloy by Controlled Post-solidification Isothermal Holding and Cooling. Metallurgical and Materials Transactions A. 2017, 48(10): 5095-5105.
[12] J.R. Yang*, H. Wang, B.Q. Wang, R. Hu, Y. Liu, X.M. Luo. Numerical and experimental study of electron beam floating zone melting of Iridium single crystal. Journal of Materials Processing Technology. 2017, 250: 239-246.
[13] X.Y. Wang, J.R. Yang*, K.R. Zhang, R. Hu, L. Song, H.Z. Fu. Atomic-scale observations of B2→omega-related phases transition in high-Nb containing TiAl alloy. Materials Characterization. 2017, 130: 135-138.
[14] X.Y. Wang, J.R. Yang*, Y.L. Wu, K.R. Zhang, R. Hu, H.Z. Fu. Nucleation behaviour of ωo phase in TiAl alloys at different elevated temperatures. Journal of Materials Science. 2018, 53(7): 5287-5295.
[15] J.R. Yang*, H. Wang, Y.L. Wu, X.Y. Wang, R. Hu. A Combined Electromagnetic Levitation Melting, Counter-Gravity Casting, and Mold Preheating Furnace for Producing TiAl Alloy. Advanced Engineering Materials. 2018, 20(2): 1700526
[16] B. Cao, J.R. Yang*, X.Y. Wang, Y.L. Wu, R. Hu. Microstructure evolution and mechanical properties of a Ti-45Al-8.5Nb-(W, B, Y) alloy obtained by controlled cooling from a single β region. Journal of Alloys and Compounds. 2018, 740: 1140-1148.
[17] J.R. Yang*, H. Wang, Y.L. Wu, K.R. Zhang, X.Y. Wang, R. Hu. Numerical calculation and experimental evaluation of counter-gravity investment casting of Ti-48Al-2Cr-2Nb alloy. International Journal of Advanced Manufacturing Technology. 2018, 96(9-12): 3295-3309.
[18] J.R. Yang, H. Wang, R. Hu*, S.M. Li, Y. Liu, X.M. Luo. Anomalous tensile strength and fracture behaviour of polycrystalline Iridium from room temperature to 1600 C. Advanced Engineering Materials. 2018, 20(7): 1701114.
[19] J.G. Li, R. Hu, J.R. Yang*, Y.S. Liu. Competitive Growth of Si and YSi2 Phases in a Eutectic Si-Y Ceramic Prepared by the Bridgeman Method. Ceramics International. 2018, 44(11): 13232-13239.
[20] J.R. Yang, R.R. Chen, Y.Q. Su, H.S. Ding, J.J. Guo, H.Z. Fu. Optimization of electromagnetic energy in cold crucible used for directional solidification of TiAl alloy. Energy. 2018, 161: 143-155.
[21] Y.L. Wu, R. Hu, J.R. Yang*, X.Y. Xue, High-temperature rotary-bending fatigue characteristics of a high Nb-containing beta-gamma TiAl alloy. Materials Science and Engineering A. 2018, 735(26): 40-48.
[22] J.R. Yang*, B. Cao, Y.L. Wu, Z.T. Gao, R. Hu, Continuous cooling transformation(CCT) behavior of a high Nb-containing TiAl alloy. Materialia. 2019, 5: 100169.
[23] Yu Guo, Ye Wang*, Jieren Yang*, Hongyu Xu, Maoliang Hu, Zesheng Ji. A study of the mechanical and thermal characteristics of an Al-Si-Fe alloy fabricated by rolling and heat treatment. Metals. 2019, 9(9): 1-10.
[24] Y.L. Wu, R. Hu, J.R. Yang*, On the eutectoid decomposition of α→γ+τ1 in a Ru-containing TiAl alloy. Journal of Alloys and Compounds. 2019, 790: 42-47.
[25] 高子彤, 胡銳, 吳與倫, 楊劼人*. TiAl基合金片層結構粗化行為研究進展. 稀有金屬材料與工程. 2019, on-line.
[26] J.R. Yang, H. Wang, R. Hu*, F. Zhang, S.M. Li, Y. Liu, X.M. Luo. Atomistic Simulation of the Orientation-dependent Tension Deformation Behavior of Single Crystal Iridium. In publishing, Rare Metal Materials and Engineering. 2019, 48(5): 1380-1385.
專利
[1] 獲得過包晶鑄造TiAl合金近片層組織的熱處理方法.
[2]一種適用於800C的鑄造gamma-TiAl合金.
[3]一種TiAl基合金鑄造用模殼的製備方法.
[4]一種底部拔塞澆注控制裝置.
[5]一種高效率電熱轉換的熔化與電磁約束成形系統.
[6] 一種高鈮鈦鋁金屬間化合物的無污染定向凝固方法.
專著
《航空航天材料定向凝固》. 科學出版社. 2015年. (作者之一)
榮譽獎項
2017年獲黑龍江省技術發明一等獎“電磁冷坩堝及其熔煉和凝固關鍵技術“(6/10)
