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  Mechanics of Advanced Materials & Systems Lab

 

Assistant Professor Jeong-Ho Kim

Office: Castleman (CAST) #320

 

University of Connecticut

Department of Civil & Environmental Engineering

261 Glenbrook Rd. Unit 2037

Storrs, Connecticut 06269-2037

Phone: (860) 486-2746

Fax: (860) 486-2298

E-mail: jhkim@engr.uconn.edu

 

Job Opening:

 

PhD Student with experimental

and FEM modeling background

Education:     

Ph.D.   2000-2003    Dept. of Civil & Env. Engineering, University of Illinois at Urbana-Champaign    

M.S.     1998-2000    Dept. of Civil & Env. Engineering, University of Illinois at Urbana-Champaign

B. S.    1989-1996    Dept. of Architectural Engineering, Hanyang University, Seoul, South Korea

                              

Employment:

Jan. 2004-present   Assistant Professor, Dept. of Civil & Envir. Engineering, University of Connecticut

Nov. 2007-present  Joint Appointment,    Dept. of Mechanical Engineering,   University of Connecticut

1999-2003               Graduate Research Assistant, University of Illinois  at Urbana-Champaign

 

Affiliation:    

Department of Mechanical Engineering  

Institute of Materials Science (IMS)

Booth Engineering Center for Advanced Technologies (BECAT)

Center for Clean Energy Engineering (C2E2)

 

Research Interests

¡¤  Integrated Computational-Experimental Fracture Mechanics

¡¤  Functionally Graded Fuel Cells

¡¤  Functionally Graded Materials

¡¤  Advanced High-Temperature Ceramics

¡¤  Finite Element Methods  

                                 

Teaching Workshop

Participated in an NSF-sponsored Undergraduate Teaching Workshop ¡°How to Engineer Engineering Education¡± at Bucknell University, Lewisburg, PA, July 18-23, 2004

 

Outreach Programs

Engineering 2000 (2007- present)

Da Vinci Workshop (2007- present)

Connecticut Invention Convention (2008-present)

 

Professional Services

¡¤   Member of International Advisory Committee on Functionally Graded Materials 

¡¤   Member of International Scientific Committee on Functionally Graded Materials 

¡¤   Member of American Society of Civil Engineers (ASCE)

¡¤   Member of American Society of Mechanical Engineers (ASME)

¡¤   Member of American Ceramic Society (ACS)

¡¤   Past Member of American Society for Bone and Mineral Research (ASBMR)

¡¤   NSF Proposal Review Panel (2004,2005,2007,2009(CAREER))

¡¤   Review of Many Journal Papers

¡¤   Organizer of Structures and Applied mechanics Seminar Series within the CEE Dept (2006-2009).

¡¤   Session Chair in Modeling and Simulation at the 8th International Symposium on Multifunctional

    and Functionally Graded Materials, Leuven, Belgium, July 11-14, 2004

¡¤  Mini-symposium Organizer of Functionally Graded Materials at 11th International  

   Conference on Fracture, Turin, Italy, March 20-25, 2005

¡¤   Mini-symposium Organizer of Modeling and Simulation (29 presentations) in the 9th Multiscale &

   Functionally Graded Materials Conference, Hawaii, October 15-18, 2006

¡¤   Mini-symposium Organizer of Recent Advances in Modeling Functionally Graded Materials in the

    9th US National Congress on Computational Mechanics, San Francisco, July 23-26, 2007

¡¤   Judge of USACM Student Presentation Competition in the 9th USNCCM, San Francisco, July 2007

¡¤   Mini-symposium Organizer of Recent Advances in Modeling Functionally Graded Materials at the 10th US

    National Congress on Computational Mechanics, Columbus, Ohio, USA, July 16-19, 2009.

 

Honors and Awards

¡¤   National Science Foundation CAREER Award, 2006

¡¤   Inaugural USACM & ASME PTC 60 Student Benchmark Competition Award,

    the Seventh U.S. National Congress on Computational Mechanics, July 2003.    

¡¤   Young Researcher Fellowship Award in the Second M.I.T. Conference, June 2003

¡¤   Ambassadorial Scholar Award, The Rotary International, 1998-1999

 

Selected Journal Publications

 

      2004– present:

 

L. Zhang and J.-H. Kim, ¡°A complex variable approach for asymptotic mode-III crack-tip fields in an anisotropic functionally graded material,¡± Engineering Fracture Mechanics, Vol 76: 2512-2525, 2009.

 

J.-H. Kim and A. KC, ¡°A Generalized Interaction Integral Method for the Evaluation of the T-stress in Orthotropic Functionally Graded Materials under Thermal Loading,¡± Journal of Applied Mechanics, 75:051112:1-11.

 

A. KC and J.-H. Kim, ¡°Interaction Integrals for Thermal Fracture of Functionally Graded Materials,¡± Engineering Fracture Mechanics,75(8):2542-2565, 2008.

 

      J.-H. Kim and G. H. Paulino, ¡°On Fracture Criteria for Mixed-mode Crack Propagation in Functionally 

      Graded Materials,¡± Mechanics of Advanced Materials and Structures, 14:227-244, 2007.

.

G. H. Paulino and J.-H. Kim, ¡°The Weak Patch Test for Nonhomogeneous Materials Modeled with Graded Finite Elements,¡± Journal of the Brazilian Society of Mechanical Sciences and Engineering, 29: 63-81, 2007.

 

 J.-H. Kim and G. H. Paulino, ¡°Consistent formulations of the interaction integral method

 for fracture of functionally graded materials,¡± Journal of Applied Mechanics, 72(3):351- 364, 2005.

 

 G. H. Paulino and J.-H. Kim, ¡°On the Poisson¡¯s Ratio Effect in Mixed-mode Stress  

 Intensity Factors and T-stress in Functionally Graded Materials,¡± International Journal 

 of Computational Engineering Science, 5(4):833-861, 2004.

 

J.-H. Kim and G. H. Paulino, ¡°Simulation of  Crack  Propagation  in Functionally Graded Materials under Mixed-mode and Non-proportional Loading,¡± International Journal of Mechanics and Materials in Design, 1(1):63-94, 2004.

 

J.-H. Kim and G. H. Paulino, ¡°T-stress in Orthotropic Functionally Graded Materials: Lekhnitskii and Stroh Formalisms,¡± International Journal of Fracture, 126 (4):345-384, 2004.

 

G. H. Paulino and J.-H. Kim, ¡°A New Approach to Compute T-stress in Functionally Graded Materials Using the Interaction  Integral Method,¡± Engineering Fracture Mechanics, 71 (13-14):1907-1950, 2004.

 

2002-2003:

 

J.-H. Kim and G. H. Paulino, ¡°The Interaction Integral for Fracture of Orthotropic Functionally Graded Materials: Evaluation of Stress Intensity Factors,¡± International Journal of Solids and Structures, 40 (15):3967-4001, 2003.

 

J.-H. Kim and G. H. Paulino, ¡°An Accurate Scheme for Mixed-mode Fracture Analysis of  Functionally Graded Materials Using the Interaction Integral and Micromechanics Models,¡± International Journal for Numerical Methods in  Engineering, 58 (10): 1457-1497, 2003.

 

J.-H. Kim and G. H. Paulino, ¡°T-stress, Mixed-mode Stress Intensity Factors, and Crack Initiation Angles in Functionally Graded Materials: A Unified Approach Using the Interaction Integral Method,¡± Computer Methods in Applied Mechanics and Engineering, 192 (11-12): 1463-1494, 2003.

 

J.-H. Kim and G. H. Paulino, ¡°Mixed-mode J-integral Formulation and Implementation Using Graded Finite Elements for Fracture Analysis of Nonhomogeneous Orthotropic Materials,¡± Mechanics of Materials, 35 (1-2): 107-128, 2003.

 

J.-H. Kim and G. H. Paulino, ¡°Mixed Mode Fracture of Orthotropic Functionally Graded Materials Using Finite Elements and the Modified Crack Closure Method,¡± Engineering Fracture Mechanics, 69 (14-16): 1557-1586, 2002.

 

J.-H. Kim and G. H. Paulino, ¡°Isoparametric Graded Finite Elements for Nonhomogeneous  Isotropic and Orthotropic Materials,¡± ASME Journal of Applied Mechaincs, 69 (4): 502-514, 2002.

 

J.-H. Kim and G. H. Paulino, ¡°Finite Element Evaluation of Mixed Mode Stress Intensity Factors in Functionally Graded Materials,¡± International Journal for Numerical Methods in Engineering, 53 (8): 1903-1935, 2002.