朱建文(教授)
朱建文教授1980年毕业于台湾大学,获理学学士学位;1983年在UC Berkeley(加州大学伯克利分校)获得理学硕士学位;1986年在UC Berkeley获得哲学博士学位;1986—1987年于UC Berkeley(加州大学伯克利分校)和Stanford(斯坦福大学)做博士后;其后任职于美国Princeton(普林斯顿大学),并于90年代中任职UCLA土木与环境工程系终身教授至今。2015年6月22日朱建文受聘为西南交大名誉教授。
简介
朱建文 博士 UCLA(加州大学洛杉矶分校)土木与环境工程系终身教授 博士生导师
Jiann-Wen Woody Ju, Ph.D., P.E.
Department of Civil and Environmental Engineering,UniversityofCalifornia,Los Angeles
教育背景
o 1986~1987年,美国加州大学伯克利分校/美国斯坦福大学,1987年8月博士后出站
o 1983~1986年,美国加州大学伯克利分校,结构力学专业,1986年12月获哲学博士(Ph.D.)
o 1980~1983年,美国加州大学伯克利分校,结构工程专业,1983年6月获理学硕士(M.S.)
o 1976~1980年,国立台湾大学,土木工程专业,1980年6月获理学学士(B.S.)
o Post-Doctoral Fellow, (1986-87), University of California, Berkeley, and Stanford University
o Ph.D., (1986), University of California, Berkeley
o M.S., (1983), University of California, Berkeley
o B.S., (1980), National Taiwan University
职业经历
2009年6月1998年,广西大学土木建筑工程学院,博士生导师
主要研究领域(见下一节)
1998年7月至今,加州大学洛杉矶分校
1999年9月-2002年7月,土木与环境工程系,教授,系主任;
2001年7月至今,结构与力学研究组,组长,生物医学工程研究组教授
主要研究领域(见下一节):此外还研究:混凝土基础的损伤与弱化,地质材料的损伤与修复模型,先进复合材料和纤维增强复合材料的微观力学与纳米力学,建造物缺陷,结构损伤评估,薄膜的微机电系统,人骨的生物力学,纳米材料
1993年7月-1998年6月,加州大学洛杉矶分校
1994年7月-1998年6月,土木与环境工程系,副教授,副系主任;
1996年1月1998年9月,结构与力学研究组,组长
2015年6月22日,受聘于西南交通大学担任名誉教授。
研究领域
o 微观损伤力学:微裂隙或微孔洞弱化的脆性或韧性固体的微观损伤力学;多相复合材料的界面微观力学;微裂隙相互作用和演化;随机分布的微裂隙或微孔洞的固体;复合材料力学性能的宏观-微观的相关性;基于微观力学,微结构和断裂力学的整体损伤模量和微裂隙动力学;拉压载荷作用下二维和三维等效介质微观力学方法和统计微观力学方法;随机分布的界面和晶粒面的微裂隙和它们对复合材料的影响;微观力学实验;统计微观演化损伤模型的有效计算算法;统计微裂隙排列屏蔽和增强对宏观裂纹尖端的影响;高温作用下机场混凝土路面的热-机械-化学本构模型和损伤模型;机场混凝土路面的传热,物质转移和机械联合作用下应力-应变场。
o 连续介质弹塑性损伤力学:脆性和韧性固体的连续介质弹塑性损伤力学;基于能量的弹-(粘)塑性损伤理论和计算算法;热动力学;脆性和韧性损伤的物理特性;损伤准则和演化方程;弹-损伤和弹塑性-损伤的剪切模量;率相关损伤机理;微裂隙张开和闭合机理;各向同性和各向异性损伤模型;有限应变弹塑性损伤模型;有限元法框架内损伤演化模型的有效计算算法和因子辟裂法;结构损伤指标和评估。
o 含随机分布异质体的多相复合材料微观力学:纤维脆性或金属基复合材料;陶瓷和陶瓷复合材料;概率微结构和微几何;扫描电镜微观实验;纤维拉拔问题的弹性应力场;复合材料计算微观模型的数值算法。
o 塑性和粘塑性理论和计算算法:非光滑多面的塑性和粘塑性力学;因子辟裂和回归影射算法;塑性和粘塑性的剪切模量。塑性和粘塑性的联合计算。
o 非线性计算固体力学:非线性弹塑性和有限变形的摩擦接触问题;工程材料和结构的本构模型和有限元计算;非线性方程解决策略;应变软化,材料稳定,适定性和唯一性问题;大规模计算;结构动力学和有限元分析。
o 无损检测,有损检测,化学引起的混凝土损伤模型:混凝土基础损伤和结构物缺陷;水/水泥比例模型,胶体空隙和毛细空隙,化学和机械联合作用下渗透和损伤(微裂隙),弹性和拉伸强度折减,损伤机理,服务期限预测;低频超声波无损检测,混凝土结构试验。
讲授课程
o Course for Ph.D. & MS of Guangxi University: Damage Mechanics in Engineering Materials
o C&EE 137: Elementary Structural Dynamics
o C&EE 130L: Experimental Structural Mechanics
o C&EE M230C: Plasticity
o M&AE M256C: Plasticity
o C&EE 249: Selected Topics in Structural Engineering and Mechanics
o C&EE 296: Advanced Topics in Civil Engineering
o C&EE M237A: Dynamics of Structures (Online MS)
o M&AE M269A: Dynamics of Structures (Online MS)
获奖与荣誉
o IACM Fellow Award, the International Association of Computational Mechanics, Feb. 2010.
o Election as Ordinary Member of General Council of the Intl Association of Computational Mechanics, July 2009.
o Chang-Jiang Scholar Chair Professor, 2009-present, Ministry of Education, China. Kwang-Hua Chair Professor, 2010-present, Tongji University.
o ACI Fellow Election, the American Concrete Institute, Nov. 2008.
o Invited Chair Professor, LMT Cachan, ENS Cachan/CNRS, University of Paris VI, France, AY 2008-2009.
o Invited Visiting Professor, City University of Hong Kong, November to December 2009, under the Academic Exchange Fund of the City University of Hong Kong.
o 2008 Publication Award of Merit, the the Structural Engineers Association of Illinois, June 2008.
o Editorial Board, Acta Mechanica (An Intl. Journal), March 2008-present, Springer-Verlag GmbH.
o Editorial Board, Journal of Chongqing University (English Edition), April 2008-present.
o Editorial Board, Book Series in Computational and Experimental Methods in Structures, June 2008-present, Imperial College Press & World Scientific Publishing Co., USA, UK and Singapore
o Engineering Panel, Research Grant Council of Hong Kong, Sep. 2008- June 2010.
o USACM Fellow Award, the U.S. Association for Computational Mechanics, 2007.
o Distinguished Visiting Professor, the Chinese Academy of Sciences, Institute of Mechanics, July-August 2007.
o Election as General Council Member and Executive Council Member, the International Chinese Association for Computational Mechanics, July 2007-2015.
o Principal Co-Chair of ASME Award Endowments for the “Thomas J.R. Hughes AMD Young Investigator Award” and the “Theodore Belytschko Applied Mechanics Award”, the American Society of Mechanical Engineers, 2006-2007.
o ASCE Fellow Election, The American Society of Civil Engineers, 2006.
o Election as Member-at-Large and Executive Committee Member, the U.S. Association for Computational Mechanics, Dec. 2006.
o Editor, the International Journal of Damage Mechanics, Sage Publications, London, Sep. 2006-present.
o ACI-James Instruments Award for Research Paper in Non-destructive Testing, American Concrete Institute, 2000.
o ASME Fellow Election, The American Society of Mechanical Engineers, Feb. 1998.
o Walter L. Huber Civil Engineering Research Prize, The American Society of Civil Engineers, 1997.
o Associate Editor, The Journal of Applied Mechanics, ASME, 1995-2002.
o Associate Editor, The Journal of Engineering Materials and Technology, ASME, 1995-2001.
o Presidential Young Investigator Award (1991-98), National Science Foundation and White House, 1991.
o Alfred Rheinstein Faculty Award, Princeton University, 1991.
o Plenary/Keynote Speaker, the 2nd International Symposium on Computational Mechanics, and the 12th International Conference on the Enhancement and Promotion of Computational Methods in Engineering and Science, Hong Kong and Macau, November 30, 2009.
o Keynote Speaker, Symposium on Multiscale Damage and Failure Mechanics of Engineering Materials, 10th U.S. National Congress on Computational Mechanics, Greater Columbus Convention Center, Columbus, Ohio, July 18, 2009.
o Keynote Speaker, Symposium on Multiscale Damage and Failure Mechanics of Engineering Materials, 8th World Congress on Computational Mechanics, Venice Lido Convention Center, Lido, Venice, Italy, July 3, 2008.
o Semi-Plenary Speaker, International Symposium on Computational Mechanics, Beijing, China, July 30, 2007.
o Keynote Speaker, Symposium on Multiscale Damage and Failure Mechanics, 9th U.S. National Congress on Computational Mechanics, Hyatt Regency San Francisco, July 25, 2007.
o Citation in Who’s Who in the World, by Marquis Who’s Who.
o Citation in Who’s Who in America, by Marquis Who’s Who.
o Citation in Who’s Who in Science and Engineering, by Marquis Who’s Who.
o Citation in Who’s Who in American Education, by Marquis Who’s Who.
o Citation in Who’s Who in the West, by Marquis Who’s Who.
o Citation in Who’s Who in Finance and Business, by Marquis Who’s Who.
o Chairman of American Concrete Institute Committee 446 on “Fracture Mechanics” (2004-2008)
学术成果
1. Ragavendra, N., Ju, J.W., Klug, W., Salamanca, A., Grubweiser, S., and Kasper, H., “In Vivo Fracture Mechanics Method of Measuring the Toughness of Human Solid Cancers”, Invention Report, UCLA Intellectual Property, 5 pages; UCLA OIP Case No. 2008-606, March 14, 2008.
2. Ragavendra, N., Ju, J.W., Klug, W., Salamanca, A., Grubweiser, S., and Kasper, H., “Method and Apparatus for Measuring the Toughness of Solid Cancers”, U.S. Provisional Patent Application, Serial no. 61/100,602; UCLA OIP Case No. 2008-606-1, September 26, 2008.
3. Kao, W.H., Carlson, L., Yang, J.-M., and Ju, J.W., “Pothole Repair for Asphalt and Concrete Base Aggregates”, Invention Report, UCLA Intellectual Property, 10 pages; UCLA OIP Case No. 2009-731, June 3, 2009.
1. Simo, J.C., and Ju, J.W., “Strain and stress based continuum damage models, Part I: Formulation”, Int. J. Solids & Struct., Vol. 23, No. 7, pp. 821—840, 1987.
2. Simo, J.C., and Ju, J.W., “Strain and stress based continuum damage models, Part II: Computational Aspects”, Int. J. Solids & Struct., Vol. 23, No. 7, pp. 841—869, 1987.
3. Simo, J.C., Ju, J.W., Pister, K.S., and Taylor, R.L., “An assessment of the cap model: consistent return algorithms and rate-dependent extension”, J. of Eng. Mech., ASCE, Vol. 114, No. 2, pp. 191—218, Feb. 1988.
4. Ju, J.W., and Taylor, R.L., “A perturbed Lagrangian formulation for the finite element solution of nonlinear frictional contact problems”, Journal de Mecanique Theorique et Appliquee, Special Issue, Supplement No. 1 to Vol. 7, pp. 1—14, 1988.
5. Ju, J.W., Monteiro, P.J.M., and Rashed, A.I., “On continuum damage of cement paste and mortar as affected by porosity and sand concentration”, J. of Eng. Mech., ASCE, Vol. 115, No. 1, pp. 105—130, Jan. 1989.
6. Simo, J.C., and Ju, J.W., “On continuum damage-elastoplasticity at finite strains: A computational framework”, Computational Mechanics, Vol. 5, No. 5, pp. 375—400, 1989.
7. Ju, J.W., “On energy-based coupled elastoplastic damage theories: Constitutive modeling and computational aspects”, Int. J. Solids & Struct., Vol. 25, No. 7, pp. 803—833, 1989.
8. Ju, J.W., “On energy-based coupled elastoplastic damage models at finite strains”, J. of Eng. Mech., ASCE, Vol. 115, No. 11, pp. 2507—2525, 1989.
9. Simo, J.C., Ju, J.W., and Taylor, R.L., “Softening response, completeness condition and numerical algorithms for the cap models”, Int. J. for Numer. Meth. in Eng., accepted for publication (49 pages).
10. DiPasquale, E., Ju, J.W., Askar, A., and Cakmak, A.S., “On the relation between global damage indices and local stiffness degradation”, J. of Struct. Eng., ASCE, Vol. 116, No. 5, pp. 1440—1456, May 1990.
11. Ju, J.W., “Consistent tangent moduli for a new class of viscoplasticity”, J. of Eng. Mech., ASCE, Vol. 116, No. 8, pp. 1764—1779, August 1990.
12. Ju, J.W., “Isotropic and anisotropic damage variables in continuum damage mechanics”, J. of Eng. Mech., ASCE, Vol. 116, No. 12, pp. 2764—2770, Dec. 1990.
13. Ju, J.W., “On Two-dimensional self-consistent micromechanical damage models for brittle solids”, Int. J. Solids & Struct., Vol. 27, No. 2, pp. 227—258, 1991.
14. Ju, J.W., “A micromechanical damage model for uniaxially reinforced composites weakened by interfacial arc microcracks”, J. of Appl. Mech., ASME, Vol. 58, No. 4, pp. 923—930, Dec. 1991.
15. Ju, J.W., and Lee, X., “Micromechanical damage models for brittle solids. Part I: tensile loadings”, J. of Eng. Mech., ASCE, Vol. 117, No. 7, pp. 1495—1515, July 1991.
16. Lee, X., and Ju, J.W., “Micromechanical damage models for brittle solids. Part II: Compressive loadings”, J. of Eng. Mech., ASCE, Vol. 117, No. 7, pp. 1516—1537, July 1991.
17. Ju, J.W. and Tseng, K.H., “A three-dimensional statistical micromechanical theory for brittle solids with interacting microcracks”, Int. J. of Damage Mechanics, Vol. 1, No. 1, pp. 102—131, Jan. 1992.
18. Ju, J.W., and Chen, T.M., “Effective elastic moduli of two-dimensional brittle solids with interacting microcracks. Part I: basic formulations”, J. of Appl. Mech., ASME, Vol. 61, pp. 349—357, June 1994.
19. Ju, J.W., and Chen, T.M., “Effective elastic moduli of two-dimensional brittle solids with interacting microcracks. Part II: evolutionary damage models”, J. of Appl. Mech., ASME, Vol. 61, pp. 358—366, June 1994.
20. Ju, J.W., and Chen, T.M., “Micromechanics and effective moduli of elastic composites containing randomly dispersed ellipsoidal inhomogeneities”, Acta Mechanica, Vol. 103, pp. 103—121, 1994.
21. Ju, J.W., and Chen, T.M., “Effective elastic moduli of two-phase composites containing randomly dispersed spherical inhomogeneities”, Acta Mechanica, Vol. 103, pp. 123—144, 1994.
22. Ju, J.W., and Chen, T.M., “Micromechanics and effective elastoplastic behavior of two-phase metal matrix composites”, J. of Eng. Mater. & Technology, ASME, Vol. 116, pp. 310—318, July 1994.
23. Ju, J.W., and Tseng, K.H., “An improved two-dimensional micromechanical theory for brittle solids with many randomly located interacting microcracks”, Int. J. of Damage Mechanics, Vol. 4, No. 1, pp. 23—57, Jan. 1995.
24. Ju, J.W., “On micromechanical evolutionary damage models for polycrystalline ceramics”, Int. J. of Damage Mechanics, Vol. 5, No. 2, pp. 113—137, April 1996.
25. Ju, J.W., Comments and author’s reply on “Micromechanics and effective moduli of elastic composites containing randomly dispersed ellipsoidal inhomogeneities”, Acta Mechanica, Vol. 114, pp. 235—239, 1996. (Discussion)
26. Ju, J.W., and Tseng, K.H., “Effective elastoplastic behavior of two-phase ductile matrix composites: A micromechanical framework”, Int. J. Solids & Struct., Vol. 33, No. 29, pp. 4267—4291, Dec. 1996.
27. Ju, J.W., and Tseng, K.H., “Effective elastoplastic algorithms for two-phase ductile matrix composites”, J. of Eng. Mech., ASCE, Vol. 123, No. 3, pp. 260—266, March 1997.
28. Ju, J.W., “Rate dependent damage model for concrete in dynamics”, J. of Eng. Mech., ASCE, Vol. 123, No. 12, pp. 1326—1327, Dec. 1997. (Discussion)
29. Ju, J.W., and Zhang, Y., “A thermomechanical model for airfield concrete pavement under transient high temperature loadings”, Int. J. of Damage Mechanics, Vol. 7, No. 1, pp. 24—46, January 1998.
30. Ju, J.W., and Zhang, X.D., “Micromechanics and effective transverse elastic moduli of composites with randomly located aligned circular fibers”, Int. J. Solids & Struct., Vol. 35, No. 9-10, pp. 941—960, 1998.
31. Ju, J.W., and Zhang, Y., “Axisymmetric thermomechanical constitutive and damage modeling for airfield concrete pavement under transient high temperatures”, Mechanics of Materials, Vol. 29, pp. 307—323, 1998.
32. Ju, J.W., and Sun, L.Z., “A novel formulation for the exterior-point Eshelby’s tensor of an ellipsoidal inclusion”, J. of Appl. Mech., ASME, Vol. 66, pp. 570—574, June 1999.
33. Ju, J.W., and Lee, H.K., “A micromechanical damage model for effective elastoplastic behavior of ductile matrix composites considering evolutionary complete particle debonding”, Computer Meth. in Appl. Mech. and Eng., Vol. 183, No. 3—4, pp. 201—222, March 2000.
34. Ju, J.W., and Sun, L.Z., “Effective elastoplastic behavior of metal matrix composites containing randomly located aligned spheroidal inhomogeneities. Part I: micromechanics-based formulation”, Int. J. Solids & Struct., Vol. 38, No. 2, pp. 183—201, 2001.
35. Sun, L.Z., and Ju, J.W., “Effective elastoplastic behavior of metal matrix composites containing randomly located aligned spheroidal inhomogeneities. Part II: applications”, Int. J. Solids & Struct., Vol. 38, No. 2, pp. 203—225, 2001.
36. Ju, J.W., and Zhang, X.D., “Effective elastoplastic behavior of ductile matrix composites containing randomly located aligned circular fibers”, Int. J. Solids & Struct., Vol. 38, No. 22—23, pp. 4045—4069, 2001.
37. Stewart, J.P., Chu, D.B., Seed, R.B., Ju, J.W., and Perkins, W.J., et al., “Soil liquefaction from the Chi-Chi, Taiwan, Earthquake of September 21, 1999”, Earthquake Spectra, EERI, Supplement A to Volume 17, pp. 37—60, April 2001.
38. Ju, J.W., and Lee, H.K., “A micromechanical damage model for effective elastoplastic behavior of partially debonded ductile matrix composites”, Int. J. Solids & Struct., Vol. 38, No. 36—37, pp. 6307—6332, 2001.
39. Hossain, N., Ju, J.W., Warneke, B., and Pister, K.S.J., “Characterization of the Youngu2019s modulus of CMOS thin films”, in Mechanical Properties of Structural Films, ASTM STP 1413 (ISBN 0-8031-2889-4), Ed. by C. Muhlstein and S. Brown, pp. 139—151, Nov. 2001 (peer-reviewed).
40. Sun, L.Z., Ju, J.W., and Liu, H.T., “Elastoplastic modeling of metal matrix composites with evolutionary particle debonding”, Mechanics of Materials, Vol. 35, pp. 559—569, 2003 (published in 2002).
41. Sun, L.Z., Liu, H.T., and Ju, J.W., “Effect of particle cracking on elastoplastic behavior of metal matrix composites”, Int. J. for Numer. Meth. in Eng., Vol. 56, pp. 2183—2198, 2003.
42. Liu, H.T., Sun, L.Z., and Ju, J.W., “An interfacial debonding model for particle-reinforced composites”, Int. J. of Damage Mechanics, Vol. 13, No. 2, pp. 163-185, 2004.
43. Sun, L.Z., and Ju, J.W., “Elastoplastic modeling of metal matrix composites containing randomly located and oriented spheroidal particles”, J. of Appl. Mech., ASME, Vol. 71, pp. 774-785, Nov. 2004.