1 김재현, "페리다이나믹스 이론과 병렬연산을 이용한 균열진전 문제의 형상 설계민감도 해석" 한국전산구조공학회 27 (27): 297-304, 2014
2 Ha, Y.D., "Studies of Dynamic Crack Propagation and Crack Branching with Peridynamics" 162 : 229-244, 2010
3 Silling, S.A., "Reformulation of Elasticity Theory for Discontinuities and Long-range Force" 48 : 175-209, 2000
4 Hu, W., "Peridynamic Models for Dynamic Brittle Fracture" 28-, 2012
5 Nam, K.H., "Patterning by Controlled Cracking" 485 : 221-224, 2012
6 Belytschko, T., "Elastic Crack Growth in Finite Elements with Minimal Remeshing" 45 : 601-620, 1999
7 Cho, S., "Design Sensitivity Analysis and Optimization of Non-linear Transient Dynamics Part I-sizing Design" 48 : 351-373, 2000
8 Bowden, F.P., "Controlled Fracture of Brittle Solids and Interruption of Electrical Current" 216 : 38-42, 1967
9 Jang, H. -J., "Adjoint Design Sensitivity Analysis of Molecular Dynamics in Parallel Computing Environment" 10 : 379-394, 2014
1 김재현, "페리다이나믹스 이론과 병렬연산을 이용한 균열진전 문제의 형상 설계민감도 해석" 한국전산구조공학회 27 (27): 297-304, 2014
2 Ha, Y.D., "Studies of Dynamic Crack Propagation and Crack Branching with Peridynamics" 162 : 229-244, 2010
3 Silling, S.A., "Reformulation of Elasticity Theory for Discontinuities and Long-range Force" 48 : 175-209, 2000
4 Hu, W., "Peridynamic Models for Dynamic Brittle Fracture" 28-, 2012
5 Nam, K.H., "Patterning by Controlled Cracking" 485 : 221-224, 2012
6 Belytschko, T., "Elastic Crack Growth in Finite Elements with Minimal Remeshing" 45 : 601-620, 1999
7 Cho, S., "Design Sensitivity Analysis and Optimization of Non-linear Transient Dynamics Part I-sizing Design" 48 : 351-373, 2000
8 Bowden, F.P., "Controlled Fracture of Brittle Solids and Interruption of Electrical Current" 216 : 38-42, 1967
9 Jang, H. -J., "Adjoint Design Sensitivity Analysis of Molecular Dynamics in Parallel Computing Environment" 10 : 379-394, 2014