杨劼人


的个人主页 http://teacher.nwpu.edu.cn/yangjieren

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基本信息 The basic information

杨劼人

材料学院

博士研究生毕业

工学博士

副教授

材料科学与工程

工作经历 Work Experience

2017/09 - 2018/09,京都大学,材料工学部,访问学者

2013/09 - 至今,西北工业大学,材料学院材料系,副教授

教育经历 Education Experience

■ 2009/09–2013/07,哈尔滨工业大学,材料加工工程,工学博士

■ 2007/09–2009/07,哈尔滨工业大学,材料加工工程,工学硕士

■ 2003/09–2007/07,上海大学,金属材料与工程,工学学士 

教育教学 Education And Teaching

研究生课程:

《Electron Microscopy and Analysis for Materials》春季

本科生课程:

《工程材料》秋季

《Alloy Systems and Heat Treatment》春季

《凝固原理》在线课程建设


招生信息 Admission Information

每年可招收2名硕士研究生,2名博士研究生(含1名工程博士)。

荣誉获奖 Awards Information

2017年获黑龙江省技术发明一等奖“电磁冷坩埚及其熔炼和凝固关键技术“(6/10)

科学研究 Scientific Research

杨劼人,1984年10月生,四川成都人,副教授/博导。2007年6月本科毕业于上海大学金属材料工程专业,随后进入哈尔滨工业大学攻读材料加工工程,师从傅恒志院士、陈瑞润教授,开展钛铝合金冷坩埚定向凝固研究,于2013年6月获工学博士学位。2013年9月进入西北工业大学材料学院工作,2017.09-2018.09京都大学访问学者,在Haruyuki Inui教授领导的晶体结构与物性课题组开展Ir基超高温合金和难熔高熵合金的研究工作。

研究方向:长期从事钛铝合金、贵金属、高温合金材料的理论设计、凝固加工、结构调控及相变行为研究。中国机械工程学会铸造分会特种铸造及有色合金专委会委员,主持国家自然科学基金2项、航空基金、973专题、陕西省自然科学基金、国家重点实验室开放基金等项目,参与973、重点研发计划、自然科学联合基金等多个国家级项目。

多次参加国际及国内学术会议,在2017年TMS会议的TiAl专会上,担任分会主席并做口头报告。在Energy, Metallurgical and Materials Transactions A, Intermetallics等SCI期刊上发表论文40余篇,被Appl. Therm. Eng., Int. J. Heat. Mass. Tran., J. Alloy. Compound., J. Mater. Process. Tech., J. Clean. Prod.期刊评为优秀审稿人。

学术成果 Academic Achievements

学术论文

[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]   杨劼人, 陈瑞润, 郭景杰, 丁宏升, 傅恒志. Nb-TiAl合金定向凝固研究现状及展望. 稀有金属材料与工程. 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 the Mushy Zone 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 electromagnetic cold crucible 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 oC. 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, 胡锐, 吴与伦, 杨劼人*. TiAl基合金片层结构粗化行为研究进展. 稀有金属材料与工程. 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.


专利 

[1] 获得过包晶铸造TiAl合金近片层组织的热处理方法.

[2] 一种适用于800 oC的铸造gamma-TiAl合金.

[3] 一种TiAl基合金铸造用模壳的制备方法. 

[4] 一种底部拔塞浇注控制装置.

[5] 一种高效率电热转换的熔化与电磁约束成形系统.

[6] 一种高铌钛铝金属间化合物的无污染定向凝固方法.

专著

《航空航天材料定向凝固》. 科学出版社. 2015年. (作者之一)

社会兼职 Social Appointments

中国机械工程学会铸造分会特种铸造及有色合金专委会委员.