黄筑平

黄筑平

北京大学力学与工程科学系 教授、博导

E-mail:  huangzp@pku.edu.cn
http://www.mech.pku.edu.cn/huangzp.htm

简 历

    黄筑平,男,1963年毕业于北京大学数学力学系,1963年至1966年为北京大学数学力学系研究生。现任北京大学力学与工程科学系教授,博士生导师,兼任中国科学院力学研究所非线性力学国家重点实验室特邀客座研究员,上海大学兼职教授和兼职博士生导师,中国力学学会固体力学专业委员会副主任,中国力学学会理性力学和力学中的数学方法专业委员会副主任,《力学学报》(中、英文版)特邀主审人等。1985年至1986年赴加拿大不列颠哥伦比亚大学从事研究工作。1993年上半年应英国皇家学会邀请在英国进行合作研究。曾先后在加拿大、美国、英国、日本、澳大利亚一些著名大学进行讲学和学术交流。

    近年来主要从事固体力学领域的教学和科研工作。主要研究方向有塑性动力学,有限变形弹塑性本构理论,材料动态损伤,粒子填充流变材料的强韧化机理等。承担或主持国家自然科学基金重大,重点和面上项目及博士点基金多项。在塑性动力学方面,给出了理想刚塑性动力学中的两个间断定理和任意凸加载面随动强化弹塑性结构的动力安定定理,并据此构造了最一般形式的结构塑性动力响应的位移上界;给出了国际上称之为“黄筑平定理”的位移下界估计,并推广到粘性材料和受任意载荷的情形;提出了最优模态的选取准则并得到了结构最终位移的近似表达式。在有限变形弹塑性本构理论方面,指出了当前国际某些权威理论所存在的问题,具体给出了单晶材料中用塑性应变率表示塑性旋率的解析表达式;在非平衡态热力学基础上,提出了一个计及温度效应的准热力学公设,并由此系统地给出了有限变形热弹塑性本构理论,讨论了应变度量改变时的不变性关系在材料动态损伤方面,导出了新的韧性材料的孔洞增长模型,并从不同角度对其作了推广;他还首次从实验和理论方面对韧性材料中微损伤演化的统计规律和随机特征进行了系统研究;在粒子填充流变材料的强韧化机理方面,给出了广义自洽模型上、下界的显式表达式,讨论了材料的粘性效应对损伤演化规律的影响,导出了孔洞开始汇合的临界条件,提出了新的有限变形热粘弹性的内变量理论等。
发表论文100余篇。作为完成人之一,获95年国家教委科技进步一等奖。主要著作有《连续介质力学基础》(高等教育出版社,2003);合著《塑性力学引论》(修订版)(北京大学出版社,1992),该书于1996年获北京大学优秀教材奖;主编《塑性力学及其应用》(北京理工大学出版社,1998)等。
 

PUBLICATION  (SELECTED)

1.黄筑平,理想刚-塑性动力分析中的间断性质,力学学报,5, (1983), 500-508.

2.R. Wang, M. Han,Z.P.Huang and Q. Yang, An experimental study on the dynamic axial plastic buckling of cylindrical shell, Int. J. Impact Engng. , 1(3), (1983), 249-256.

3.黄筑平,王仁,塑性动力响应中的模态近似方法,力学进展,15(1), (1985),1-20.

4.Z.P.Huang, Two theorems concerning discontinuities in dynamics rigid-perfectly plastic continua under finite deformation, Applied Mathematics and Mechanics, 6(1), (1985), 61-66.

5.Z.P.Huang, Revised lower displacement bounds of impulsively-loaded rigid-plastic structures, (presented at Tenth Canadian Congress Of Applied Mechanics, The University of Western Ontario, June 2-7, 1985), Mechanics Research Communicstions 12(5), (1985), 257-264.

6.Z.P.Huang, H. Vaughan,A displacement lower bound for viscous continuum subjected to impulsive loading, Int. J. Nonlinear Mech., 22(4), (1987), 291-296.

7.Z.P.Huang, An upper displacement bound in dynamic shakedown problems for elasto-kinematic work-hardening materials, Science in China (Series A), 32(11), (1989), 1316-1324.

8.Q.Zhou, T. X. Yu, Z.P.Huang, The large deflection of a rigid-perfectly plastic portal frame subjected to impulsive loading, Int. J. Solids & Structures 26(11), (1990), 1225-1242.

9.Z.P.Huang, R. Wang, The spin of the substructural orientation in single crystals, in Topics in Plasticity (Anniversary Volume in Honor of Professor E. H. Lee), (Ed. Wei H. Yang) AM Press. (1991), 31-36.

10.Z.P.Huang, A thermomechanical postulate in finite plasticity, Acta Scientiarum Naturalium Universitatis Pekineneis 27(3), (1991), 317-322.

11.Z.P.Huang, L.Z.Sun, The optimal mode and an approximate expression of final displacement in dynamic plastic response of structures, Trans. ASME. , J. Appl. Mech., 59(1), (1992), 33-38.

12.L.Z. Sun, Z.P.Huang, The dynamic void growth in rate sensitive plastic solids, Int. J. Plasticity, 8 (1992),903-924.

13.Z.P.Huang, L.Z. Sun, A New void growth model in dynamically loaded ductile materials, Science in China, (Series A). 36(4)(1993), 437-448.

14.H. Vaughan, Z.P.Huang, Three dimensional axisymmetric flow in perfectly plastic metals, Acta Mechanica Sinica (the Englich edition), 9(4), (1993), 337-344.

15.黄筑平等,材料的动态损伤和失效,力学进展,23(4), (1993), 433-467.

16.Z.P.Huang, K.L.Pan and S.R.Reid, Dynamic cavitation in elastic-plastic materials, Proc. of IMMM 93, International Seminar on Microstructures and Mechanical Properties of New Engineering Materials (eds. M. Toluda, B. Xu and M. Senoo), Mie Academic Press, (1993), 473-480.

17.K.L. Pan, Z.P.Huang, A cylindrical void growth model in visco-plastic materials, Int. J. of Damage Mechanics, 3(1), (1994), 87-106.

18.Z.P.Huang, et al., Dynamic void growth models in ductile materials, in Proceedings of IUTAM Symposium on Impact Dynamics, (Oct 15-17,1993, Beijing; eds. Zheng Zhemim and Tan Qingming), Peking Univ. Press, (1994), 310-322.

19.Z.P.Huang, A rate independent thermoplastic theory at finite deformation, Arch, Mech., 46(6), (1994), 855-879.

20.K.L. Pan, Z.P.Huang, Elliptical void growth in shear, Proc. R. Soc. Lond. A, 451, (1995), 553-570.

21.Z.P.Huang, et al., Dynamic yield loci of a porous visco-plastic material by using a lower bound approach, Proceedings of IUTAM Symposium on Constitutive Relation in High/Very High Strain Rates (K. Kawata, J. Shioiri, eds), Springer, 1996, 155-162.

22.H. L. Li, Z.P.Huang, Effect of strain rate-sensitivity on statistical evolution of microvoids, Science in China (Series A), English edition, 39(12), 1996, 1332-1339.

23.Z.P.Huang, et al., A constitutive model of a particle reinforced viscoelastic composite material with debonded microvoids, Proc. IUTAM. Sym. on Rheology of Bodies with Defects.”(1998), (R. Wang ed.) Kluwer Academic Publishers, pp133-144.

24.L.H Dai, Z.P. Huang, R. Wang, “An explicit expression of the effective moduli for composite materials filled with coated inclusions”, Acta Mechnica Sinica, 1998, 14(1), pp37-52.

25.L.H Dai, Z.P. Huang, R. Wang, “A generalized self-consistent Mori-Tanaka scheme for prediction of the effective elastic moduli of hybrid multiphase particulate composites”, Polymer Composites, 1998, 19(5), pp506-513.

26.J.G. Ning, Z.P. Huang, “Necessary conditions of internal necking between microvoids in ductile materials”, Progress in Natural Science, 1998, 8(6), pp726-732.

27.H.L. Li, Z.P. Huang, “A statistical model of microvoids evolution in rate sensitive ductile materials”, Int. J. Damage Mechanics, 8(1), (1999), pp41-60.

28.L.H Dai, Z.P. Huang, R. Wang, “Explicit expressions for bounds for the effective moduli of multi -phased composites by the generalized self-consistent method”, Composites Science and Technology, 59, (1999), pp1691-1699.

29.Z.P.Huang, A constitutive theory in thermo-viscoelasticity at finite deformation, Mechanics Research Communications, 26(6), (1999), pp679-686.

30.Z.P.Huang, et al., An internal-variable theory of thermo-viscoelastic constitutive relation at finite strain, Science in China (Series A), 43(5), (2000), pp545-551.

31.Z.P.Huang, H.L. Li, Statistical and stochastic description of microvoid evolution observed in dynamic failure of ductile materials, Key Engineering Materials (Special Issue on “Advances in Engineering Plasticity”), (2000), 1-12.

32.Z.P.Huang, J. Wang , Mechanics of Porous Materials, Lecture Notes in IUTAM Summer School on “Nonlinear Mechanics of Heterogeneous Materials, Sept., 2002, Beijing.

33.Liu Y., Huang, Z.P., Macroscopic strain potentials in nonlinear porous materials, Acta Mechanica Sinica (English Series), 19(1), 2003, 52-58

34.黄筑平,杜森田,动载荷下弹塑性随动强化结构的安定问题,力学学报第17卷第5期(1985),445-452.

35.黄筑平,“单晶体弹塑性变形的Lagrange描述”刊于《塑性力学和细观力学》---林同骅教授八十寿辰纪念文集,(王自强,徐秉业,黄筑平编》,(1992)北京大学出版社,12-19。

36.黄筑平,“有限变形塑性理论中的本构不等式和正交法则”,力学与实践10(4)(1998)1-14。

37.黄筑平,段祝平,“有限弱塑性变形中应变及应变率的分解”力学进展20(1),(1990),24-39。

38.黄筑平,“有限变形塑性本构理论中的几个基本问题”,刊于《塑性力学和地球动力学进展》---王仁院士八十寿辰庆贺文集(徐秉业,黄筑平主编),万国学术出出版式社,(2000),1-14。

39.宁建国,黄筑平,刘 “塑性介质中的双孔问题”刊于《塑性力学及其应用》(黄筑平主编),北京理工大学出版社,(1999),88-97。

北京大学力学与工程科学系

姓名:黄筑平

职称:教授

电话:

邮箱:huangzp@pku.edu.cn

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更新时间:2013-09-18