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Failure Prediction Capability of Generalized Plastic Work Criterion

Toros Arda Akşen, Bora Şener, Mehmet Fırat

2020Procedia Manufacturing12 citationsDOIOpen Access PDF

Abstract

In this study, failure prediction capability of the generalized plastic work criterion was evaluated. Criterion was applied to the uniaxial tensile and Nakajima stretch forming tests to predict the forming limits of an advanced high strength steel sheet. Firstly, critical damage value of the material was calculated for two different cases. Energy value till uniform elongation range was considered for in the first case, while total energy value was considered in the second case. Finite element simulations of the uniaxial tensile and Nakajima stretch forming tests were performed for both cases. The fracture strain in the uniaxial tensile test and limit strains of each Nakajima sample were predicted and the predicted results were compared with the experimental results. Comparisons showed that the onset of the diffuse necking and the fracture strain were predicted successfully in the uniaxial tensile test. However, it was observed from Nakajima tests that limit strains at the left side of the forming limit diagram (FLD) were predicted successfully by the criterion, while they weren’t accurately predicted at the right side of the FLD.

Topics & Concepts

NeckingMaterials scienceForming limit diagramUltimate tensile strengthTensile testingUniaxial tensionFracture (geology)Composite materialElongationFinite element methodWork (physics)Structural engineeringSheet metalEngineeringMechanical engineeringMetal Forming Simulation TechniquesMetallurgy and Material FormingMicrostructure and Mechanical Properties of Steels