Please use this identifier to cite or link to this item: https://scidar.kg.ac.rs/handle/123456789/21382
Title: Experimental Characterization and Phase-Field Damage Modeling of Ductile Fracture in AISI 316L
Authors: Dunić, Vladimir
Gubeljak, Nenad
Zivkovic, Miroslav
Milovanović, Vladimir
Jagarinec, Darko
Djordjevic, Nenad
Journal: Metals
Issue Date: 2024
Abstract: (1) Modeling and characterization of ductile fracture in metals is still a challenging task in the field of computational mechanics. Experimental testing offers specific responses in the form of crack-mouth (CMOD) and crack-tip (CTOD) opening displacement related to applied force or crack growth. The main aim of this paper is to develop a phase-field-based Finite Element Method (FEM) implementation for modeling of ductile fracture in stainless steel. (2) A Phase-Field Damage Model (PFDM) was coupled with von Mises plasticity and a work-densities-based criterion was employed, with a threshold to propose a new relationship between critical fracture energy and critical total strain value. In addition, the threshold value of potential internal energy—which controls damage evolution—is defined from the critical fracture energy. (3) The material properties of AISI 316L steel are determined by a uniaxial tensile test and the Compact Tension (CT) specimen crack growth test. The PFDM model is validated against the experimental results obtained in the fracture toughness characterization test, with the simulation results being within 8% of the experimental measurements. (4) The novel implementation offers the possibility for better control of the ductile behavior of metallic materials and damage initiation, evolution, and propagation.
URI: https://scidar.kg.ac.rs/handle/123456789/21382
Type: article
DOI: 10.3390/met14070787
ISSN: 2075-4701
Appears in Collections:Faculty of Engineering, Kragujevac

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