Kim, Jeongho

Jeongho Kim

Professor, Civil and Environmental Engineering

Email jeongho.kim@uconn.edu
Phone 860-486-2746
Mailing Address Civil and Environmental Engineering 261 Glenbrook Road, Unit 3037 Storrs, CT 06269-3037
Campus Storrs
Link Lab Website
Google Scholar Link

Brief Bio

Dr. Jeongho Kim is a Professor of Civil and Environmental Engineering at the University of Connecticut (UConn). He holds a Ph.D. from the University of Illinois at Urbana-Champaign. He is also the Director of the Connecticut Manufacturing Simulation Center (CMSC). He utilizes finite element methods and computational solid mechanics in his work, applying them to tackle various engineering problems and optimize product design.Professor Kim has received awards such as the National Science Foundation CAREER Award and the ASEE Air Force Summer Faculty Fellowship. He is also affiliated with the Institute of Materials Science at UConn. His lab, the Computational Mechanics Research Laboratory (CMRL), is actively engaged in various research projects.

  • Virtual Prototyping & Manufacturing Simulation using HPC – CMSC, DOE
  • Welding Simulation – AFRL, ONR, CMSC
  • Machine Learning and Topology Optimization- CMSC, REP
  • Machining (Cutting, Milling) and Heat Treat Simulations – AFRL, CMSC
  • Viscoelastic Analysis for Dental Crowns – NIH, VITA
  • Fatigue Crack Growth Simulations in Metal-Polymer System – ONR
  • Composites Damage Modeling – Pratt & Whitney, NASA
  • Composite Manufacturing: Computational Fluid Dynamics & Thermomechanical Analysis – GKN Aerospace
  • Modeling of Functionally Graded Materials – NSF, DHS
  • CE3610: Introduction to Structural Analysis and Design
  • CE 5163. Fracture Mechanics
  • CE 5164. Finite Elements I (fully online through huskyct, offered in every fall semester)
  • CE 5166. Finite Elements II
Isoparametric graded finite elements for nonhomogeneous isotropic and orthotropic materials
JH Kim, GH Paulino
J. Appl. Mech. 69 (4), 502-514
Finite element evaluation of mixed mode stress intensity factors in functionally graded materials
JH Kim, GH Paulino
International Journal for Numerical Methods in Engineering 53 (8), 1903-1935
Mixed-mode fracture of orthotropic functionally graded materials using finite elements and the modified crack closure method
JH Kim, GH Paulino
Engineering Fracture Mechanics 69 (14-16), 1557-1586
T-stress, mixed-mode stress intensity factors, and crack initiation angles in functionally graded materials: a unified approach using the interaction integral method
JH Kim, GH Paulino
Computer methods in applied mechanics and engineering 192 (11-12), 1463-1494
The interaction integral for fracture of orthotropic functionally graded materials: evaluation of stress intensity factors
JH Kim, GH Paulino
International journal of solids and structures 40 (15), 3967-4001
Consistent formulations of the interaction integral method for fracture of functionally graded materials
JH Kim, GH Paulino
An accurate scheme for mixed‐mode fracture analysis of functionally graded materials using the interaction integral and micromechanics models
JH Kim, GH Paulino
International Journal for Numerical Methods in Engineering 58 (10), 1457-1497
Interaction integrals for thermal fracture of functionally graded materials
KC Amit, JH Kim
Engineering Fracture Mechanics 75 (8), 2542-2565
A new approach to compute T-stress in functionally graded materials by means of the interaction integral method
GH Paulino, JH Kim
Engineering Fracture Mechanics 71 (13-14), 1907-1950
Thermal stress and probability of failure analyses of functionally graded solid oxide fuel cells
G Anandakumar, N Li, A Verma, P Singh, JH Kim
Journal of Power Sources 195 (19), 6659-6670
Mixed-mode J-integral formulation and implementation using graded elements for fracture analysis of nonhomogeneous orthotropic materials
JH Kim, GH Paulino
Mechanics of Materials 35 (1-2), 107-128
Simulation of crack propagation in functionally graded materials under mixed-mode and non-proportional loading
JH Kim, GH Paulino
Mechanics and Materials in Design 1 (1), 63-94
On fracture criteria for mixed-mode crack propagation in functionally graded materials
JH Kim, GH Paulino
Mechanics of Advanced Materials and Structures 14 (4), 227-244
Dynamic response of corrugated sandwich steel plates with graded cores
L Zhang, R Hebert, JT Wright, A Shukla, JH Kim
International Journal of Impact Engineering 65, 185-194
Viscoelastic finite element analysis of residual stresses in porcelain-veneered zirconia dental crowns
J Kim, S Dhital, P Zhivago, MR Kaizer, Y Zhang
Journal of the mechanical behavior of biomedical materials 82, 202-209
T-stress in orthotropic functionally graded materials: Lekhnitskii and Stroh formalisms
JH Kim, GH Paulino
International Journal of Fracture 126 (4), 345-384
Development of a baseline for structural health monitoring for a curved post-tensioned concrete box–girder bridge
C Liu, JT DeWolf, JH Kim
Engineering Structures 31 (12), 3107-3115
Silica-based infiltrations for enhanced zirconia-resin interface toughness
NC Ramos, MR Kaizer, TMB Campos, J Kim, Y Zhang, RM Melo
Journal of dental research 98 (4), 423-429
A generalized interaction integral method for the evaluation of the T-stress in orthotropic functionally graded materials under thermal loading
JH Kim, A Kc
Microstructure-sensitive estimation of small fatigue crack growth in bridge steel welds
H Yuan, W Zhang, GM Castelluccio, J Kim, Y Liu
International Journal of Fatigue 112, 183-197