Simulation of the small punch test of AISI 316L austenitic steel

Simulation of the small punch test of AISI 316L austenitic steel

Paper in proceedings (conference paper)

Present paper deals with numerical simulation of the small punch test of austenitic stainless steel, AISI 316L, which is often used in the nuclear industry. In order to model the plastic material behavior, the well-known von Mises yield criterion with isotropic hardening and associated flow rule was adopted. The ductile fracture was modeled using two widespread ductile fracture criteria which were calibrated using various fracture tests. The whole material model was implemented into the explicit finite element code using the user subroutine of Abaqus/Explicit commercial software. The results were compared to those obtained experimentally.

Present paper deals with numerical simulation of the small punch test of austenitic stainless steel, AISI 316L, which is often used in the nuclear industry. In order to model the plastic material behavior, the well-known von Mises yield criterion with isotropic hardening and associated flow rule was adopted. The ductile fracture was modeled using two widespread ductile fracture criteria which were calibrated using various fracture tests. The whole material model was implemented into the explicit finite element code using the user subroutine of Abaqus/Explicit commercial software. The results were compared to those obtained experimentally.

Small punch test; AISI 316L; Multi-linear material model; Ductile fracture; Element deletion technique

Small punch test; AISI 316L; Multi-linear material model; Ductile fracture; Element deletion technique

KUBÍK, P.; PETRUŠKA, J.; HŮLKA, J.; ŠEBEK, F.

2018

15.05.2017

978-80-214-5497-2

Engineering Mechanics 2017

542

545

4

http://hdl.handle.net/