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袁荒   教授  博士生导师

地址:北京市海淀区清华大学

邮编:100084

座机:6279 7796

邮件:yuan.huang@tsinghua.edu.cn

教育背景

1978.02-1982.02 工学学士,合肥工业大学车辆工程系

1982.02-1984.11 工学硕士,浙江大学力学系

1990.03 工学博士(Dr.-Ing.),德国柏林工业大学物理工程科学系

2002.01 教授资格博士(Dr.-Ing.habil.),德国慕尼黑工业大学机械系

工作履历

1984.11-1985.09 浙江大学力学系,助教

1986.10-1989.06 德国联邦材料研究院 (BAM),科研工程师

1989.07-1993.03 德国GKSS研究中心材料研究所,科研工程师

1993.04-1997.10 瑞士国家研究院(Paul Scherrer Institut),核能及核结构安全研究部,材料力学研究室主任

1997.10-2005.09 德国MTU Aero Engines AG,高级工程师

2002.02-2005.09 德国慕尼黑工业大学机械系,兼职教授(Priv.-Dozent)

2005.10-2014.02 德国伍伯特尔大学(Universit?t Wuppertal)机械系,终身大学教授,工程力学主任

2010.05-2015.04 北京理工大学机械与车辆学院,特聘教授、博士生导师

2011.03-2012.12 中航工业商用航空发动机有限责任公司,首席专家, 副总设计师

2014.03至今 清华大学航天航空学院,特聘教授、博士生导师

2019.03至今 清华大学澳门信誉最好的十大平台,教授、博士生导师

社会兼职

- SCI期刊编委: Computational Materials Science (2006-2016), Int. J. Aerospace Engineering (2011-), Mathematical Problems in Engineering (2011-), Engineering Fracture Mechanics (2012- );

- 2014.06 欧洲结构完整性协会, Fellow;

- 2008.07起 欧洲结构完整性协会(European Structural Integrity Society,ESIS)计算方法专业委员会主任

研究概况

航空发动机、燃气轮机结构设计及其结构完整性研究;

高温结构完整性,包括疲劳寿命评估、可靠性分析;

高温金属材料的本构理论研究、疲劳损伤模型、疲劳寿命评估方法;

高速旋转结构动力学特性和热结构温度分析;

奖励与荣誉

2014.06 欧洲结构完整性协会, Fellow(唯一华裔)

学术成果

[1] Huang Yuan: Numerical Assessments of Cracks in Elastic-Plastic Materials. Springer-Verlag, Berlin Heidelberg, ISBN: 3-540-43336-8, 2002.

[2] Huang Yuan, Gengkai Hu, Siegfried Schmauder (主编): Multiscale Modelling of Complex Materials. Proceedings of the 18th International Symposium on Computational Materials and Mechanics, 07-11 Oct. 2008, Beijing. Special Issue of Computational Materials Science, Band 46 (2010).

[3] Huang Yuan (主编): Computational Meso-Mechanical Modelling of Material’s Failure. Proceedings of the 2009 ESIS-Workshop on Computational Fracture Mechanics, 23-24 April 2009, Wuppertal. Special Issue of Engineering Fracture Mechanics. Band 78 (2011).

[4] Huang Yuan, Shouwen Yu (主编): Micro and Macro Materials Mechanics. Proceedings of the 2nd Sino-German Workshop on Computational Materials and Mechanics, 30.Sep.-03 Oct. 2010, Dresden. Special Issue of Computational Materials Science. Band 57 (2012).

[5] Wolfgang Brocks,Huang Yuan (主编): Cracks in micro-structures and engineering components. Proceedings of the 18th European Fracture Mechanics, 28. August-04. September 2010, Dresden. Special Issue of Engineering Fracture Mechanics, Vol. 95. 2012.

[6] Huang Yuan*, Xiao Li. Critical remarks to cohesive zone modeling for three-dimensional elastoplastic fatigue crack propagation. Engineering Fracture Mechanics, Volume 202, 2018, Pages 311-331

[7] Jingyu Sun, Huang Yuan*. Cyclic plasticity modeling of nickel-based superalloy Inconel 718 under multi-axial thermo-mechanical fatigue loading conditions. International Journal of Fatigue 119 (2019) 89-101

[8] Zhengmao Yang, Huang Yuan*, Hui Liu: Evolution and characterization of cyclic thermal shock-induced thermomechanical damage in oxide/oxide ceramics matrix composites. International Journal of Fatigue, Volume 120, March 2019, Pages 150-161.

[9] Huang Yuan*, Long Zhang, Songyun Ma: Damage evolution and characterization for sintered powder metals with the varying porosity. Engineering Fracture Mechanics, Volume 207, 15 February 2019, Pages 86-98.

[10] Changhao Pei, Wu Zeng, Huang Yuan*. A damage evolution model based on micro-structural characteristics for an additive manufactured superalloy under monotonic and cyclic loading conditions. International Journal of Fatigue, Volume 131, February 2020, Article 105279

[11] Hui Liu, Zhengmao Yang, Huang Yuan*. A novel elastoplastic constitutive model for woven oxide/oxide ceramic matrix composites with anisotropic hardening. Composite Structures, Volume 229, 1 December 2019, Article 111420

[12] Zhengmao Yang, Hui Liu, Huang Yuan*. Micro-porosity as damage indicator for characterizing cyclic thermal shock-induced anisotropic damage in oxide/oxide ceramic matrix composites. Engineering Fracture Mechanics, Volume 220, 15 October 2019, Article 106669

[13] Changhao Pei, Dong Shi, Huang Yuan*, Huaixue Li. Assessment of mechanical properties and fatigue performance of a selective laser melted nickel-base superalloy Inconel 718. Materials Science and Engineering: A, Volume 759, 2019, Pages 278-287

[14] Jingyu Sun, Huang Yuan*. Life assessment of multiaxial thermomechanical fatigue of a nickel-based superalloy Inconel 718. International Journal of Fatigue, Volume 120, 2019, Pages 228-240.

[15] Zhengmao Yang, Huang Yuan*, Bernd Markert. Representation of micro-structural evolution and thermo-mechanical damage in thermal shocked oxide/oxide ceramic matrix composites. International Journal of Fatigue, Volume 126, 2019, Pages 122-129

[16] Tinglian Zhang, Huang Yuan*, Shun Yang. Fracture energy and tensile strength depending on stress triaxiality along the crack front in three-dimensional compact tension specimens. Engineering Fracture Mechanics. Volume 227, 15 March 2020, Article 106919.

[17] Jingyu Sun, Huang Yuan*, Michael Vormwald. Thermal Gradient Mechanical Fatigue Assessment of a Nickel-Based Superalloy. International Journal of Fatigue. Volume 135, June 2020, Article 105486

[18] Cheng Luo, Wu Zeng, Jingyu Sun, Huang Yuan*. Plasticity modeling for a meta-stable austenitic steel with strain-induced martensitic transformation under multi-axial cyclic loading conditions. Materials Science and Engineering A. Volume 775, 21 February 2020, Article 138961

[19] Jingyu Sun, Huang Yuan*. Investigation of thermal gradient mechanical fatigue test methods for nickel-based superalloy. Experimental Mechanics. Dec. 1, 2019. In press.

[20] Keji Pang, Huang Yuan*. Quantitative description of casting defects in fatigue life for a nickel-based superalloy. International Journal of Fatigue, Volume 136, July 2020, Article 105575.