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Fracture Simulation of Low-Temperature High-Strength Steel (EH36) using User-Subroutine of Commercial Finite Element Code
Joonmo Choung, Woongshik Nam, Younghun Kim
J. Ocean Eng. Technol.. 2014;28(1):34-46. Published online 2014 Feb 28 DOI: https://doi.org/10.5574/KSOE.2014.28.1.034
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Citations to this article as recorded by
 Ductile Fracture of a Marine Structural Steel based on HC-DSSE Combined Fracture Strain Formulation
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Journal of the Society of Naval Architects of Kore.2019; 56(1): 82. CrossRef Ductile Fracture Predictions of High Strength Steel (EH36) using Linear and Non-Linear Damage Evolution Models
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Journal of Ocean Engineering and Technology.2017; 31(4): 288. CrossRef Punching Fracture Simulations of Circular Unstiffened Steel Plates using Three-dimensional Fracture Surface
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Journal of Ocean Engineering and Technology.2016; 30(6): 474. CrossRef Failure strain prediction of an arctic class marine steel (EH36) in average stress triaxiality regime
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Modern Physics Letters B.2015; 29(06n07): 1540008. CrossRef Development of Three Dimensional Fracture Strain Surface in Average Stress Triaxiaility and Average Normalized Lode Parameter Domain for Arctic High Tensile Steel: Part I Theoretical Background and Experimental Studies
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Journal of Ocean Engineering and Technology.2015; 29(6): 445. CrossRef Development of Three-Dimensional Fracture Strain Surface in Average Stress Triaxiaility and Average Normalized Lode Parameter Domain for Arctic High Tensile Steel: Part II Formulation of Fracture Strain Surface
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Journal of Ocean Engineering and Technology.2015; 29(6): 454. CrossRef
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