Jaehong Lee
Jaehong Lee
Professor of Architectural Engineering, Sejong University
Verified email at sejong.ac.kr
Cited by
Cited by
Free vibration analysis of delaminated composite beams
J Lee
Computers & Structures 74 (2), 121-129, 2000
Analysis of functionally graded sandwich plates using a new first-order shear deformation theory
HT Thai, TK Nguyen, TP Vo, J Lee
European Journal of Mechanics-A/Solids 45, 211-225, 2014
Experimental study of RC beam–column joints strengthened using CFRP composites
K Le-Trung, K Lee, J Lee, DH Lee, S Woo
Composites Part B: Engineering 41 (1), 76-85, 2010
An efficient computational approach for size-dependent analysis of functionally graded nanoplates
NT Nguyen, D Hui, J Lee, H Nguyen-Xuan
Computer Methods in Applied Mechanics and Engineering 297, 191-218, 2015
Finite element model for vibration and buckling of functionally graded sandwich beams based on a refined shear deformation theory
TP Vo, HT Thai, TK Nguyen, A Maheri, J Lee
Engineering Structures 64, 12-22, 2014
Advanced form-finding of tensegrity structures
HC Tran, J Lee
Computers & structures 88 (3-4), 237-246, 2010
A two variable refined plate theory for laminated composite plates
SE Kim, HT Thai, J Lee
Composite Structures 89 (2), 197-205, 2009
Buckling analysis of plates using the two variable refined plate theory
SE Kim, HT Thai, J Lee
Thin-Walled Structures 47 (4), 455-462, 2009
Layer-wise approach for the bifurcation problem in laminated composites with delaminations
J Lee, Z Gurdal, OH Griffin Jr
AIAA journal 31 (2), 331-338, 1993
Flexural–torsional behavior of thin-walled composite beams
J Lee, S Lee
Thin-walled structures 42 (9), 1293-1305, 2004
Size-dependent behavior of functionally graded sandwich microbeams based on the modified couple stress theory
HT Thai, TP Vo, TK Nguyen, J Lee
Composite Structures 123, 337-349, 2015
Flexural analysis of thin-walled composite beams using shear-deformable beam theory
J Lee
Composite Structures 70 (2), 212-222, 2005
A quasi-3D theory for vibration and buckling of functionally graded sandwich beams
TP Vo, HT Thai, TK Nguyen, F Inam, J Lee
Composite Structures 119, 1-12, 2015
Flexural–torsional buckling of thin-walled I-section composites
J Lee, SE Kim
Computers & Structures 79 (10), 987-995, 2001
Thermally induced buckling of laminated composites by a layerwise theory
J Lee
Computers & structures 65 (6), 917-922, 1997
Static behaviour of functionally graded sandwich beams using a quasi-3D theory
TP Vo, HT Thai, TK Nguyen, F Inam, J Lee
Composites Part B: Engineering 68, 59-74, 2015
Initial self-stress design of tensegrity grid structures
HC Tran, J Lee
Computers & structures 88 (9-10), 558-566, 2010
Lateral buckling of I-section composite beams
J Lee, SE Kim, K Hong
Engineering Structures 24 (7), 955-964, 2002
Isogeometric analysis for nonlinear thermomechanical stability of functionally graded plates
LV Tran, P Phung-Van, J Lee, MA Wahab, H Nguyen-Xuan
Composite Structures 140, 655-667, 2016
Flexural–torsional behavior of thin-walled closed-section composite box beams
TP Vo, J Lee
Engineering Structures 29 (8), 1774-1782, 2007
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