Research professor
Hyung-Rim Lee
02-880-7058
lhl@snu.ac.kr
Incremental forming, finite element modeling and simulation, anisotropic plasticity and its applications
석박통합과정
Jung Yun Won
02-880-7058
jywon@snu.ac.kr
Computational tribology in automotive brakes; Fracture and crush characteristics of Al extrusions
석박통합과정
Seojun Hong
02-880-7058
tjwns879@snu.ac.kr
Identification of multi-scale material properties via virtual field methods
석박통합과정
Geonjin Shin
02-880-7058
rjswls1143@snu.ac.kr
New finite element development for simulating hydrogen embrittlement, Deformation of semiconductor structure
석박통합과정
Gyu-Jang Sim
02-880-7058
gyujang95@snu.ac.kr
GNN based surrogate modeling for CPFEM, SGCP-FEM modeling, 3D Coupled DDD-FEM modeling
석박통합과정
Jin Mo Koo
02-880-7058
rnwlsah@snu.ac.kr
Coupled phase fields (PF) and crystal plasticity modeling for steels and welded structure
석박통합과정
Yeongjae Kim
02-880-7058
Computational materials science, Friction and wear of disc brake
Hyundai Motor Company
박사과정
Tae-Hyun Kim
02-880-7058
rlaxogus20@snu.ac.kr
Electrode process optimization, calendering modeling and simulation
석박통합과정
Junghyeon Park
02-880-7058
jhoo707@snu.ac.kr
Experimental–numerical forming limit evaluation of multi-layered film
석박통합과정
Minkwang Baek
02-880-7058
baekmk12@snu.ac.kr
Semi-solid forging and finite ele ment modeling; Fracture and crush characteristics of Al extrusions
석박통합과정
Jehyun You
02-880-7058
98dani@snu.ac.kr
Crystal Plasticity modeling for HCP materials (cp-Ti)
박사과정
Hoyoung Lee
02-880-7058
Multi-scale computational modeling for additive manufacturing
Hyundai Motor Company
석박통합과정
Seungwoo Kim
02-880-7058
tmznfqjtm4@snu.ac.kr
Anisotropic plasticity model development and finite element simulation
석사과정
Donggun Kim
02-880-7058
Modeling and simulations for welded automotive parts
KITECH, co-advised by Dr. J.H. Song
석박통합과정
Hyeongseo Kim
02-880-7058
tardando01@snu.ac.kr
Crystal plasticity Modeling of Additively Manufactured Nickel-Based Superalloy
박사과정
Dajeong Yun
02-880-7058
yundj22@snu.ac.kr
Damage and fracture of polymers for semi-conductor applications
Samsung Electronics
석박통합과정
Hyeongju Jeon
02-880-7058
beryl0102@snu.ac.kr
Physics-based modeling of hybrid bonding for process optimization and reliability assessment
석박통합과정
Taehyeok Choi
02-880-7058
th980906@snu.ac.kr
Elucidating microstructural factors governing surface defects in low-carbon steel
석박통합과정
Seunghyo Hong
02-880-7058
shhong0816@snu.ac.kr
Mechanical beahvior, creep and fracture modeling of Li-ion battery components
