Simulation of the kinematic hardening of AISI 316 steel by nonlinear finite element analysis
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The coupled non-linear transient calculation is performed and explained in order to simulate the kinematic hardening behavior of AISI 316 steel and the Finite Element Method (FEM) is used for presented simulation. The material non-linear models features in Finite Element Analysis (FEA) are explained with special attention in non-linear kinematic hardening material models.
For simulating of non-linear kinematic hardening and ratcheting effects of AISI 316 steel the Chaboche constitutive material model is used. The Finite Element Model of rectangular block modeled for material behavior simulation is shown. Definition of constraints and input stresses is explained in detail.
The results obtained after six cycles of input stresses give the excellent superposition with theoretical results of other authors. The created diagrams show the ratcheting phenomenon of research material. Therefore, the FEM model developed for non-linear kinematic hardening research is verified and could be used fo...r wide research of different materials under different input loads.
Keywords:
Non-linear material characteristics / kinematic hardening / large deformation / Finite Element AnalysisSource:
International Congress of Serbian Society of Mechanics, Aranđelovac, Srbija, 2015Publisher:
- Serbian Society of Mechanics and Faculty of Technical Sciences Novi Sad, Serbia
Funding / projects:
- Development of Methodology for Improvement of Operational Performance, Reliability and Energy Efficiency of Machine Systems used in the Resource Industry (RS-35029)
- Dynamics of hybrid systems with complex structures. Mechanics of materials. (RS-174001)
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Institut za ispitivanje materijalaTY - CONF AU - Atanasovska, Ivana AU - Vukšić-Popović, Marija AU - Momčilović, Dejan PY - 2015 UR - http://rims.institutims.rs/handle/123456789/463 AB - The coupled non-linear transient calculation is performed and explained in order to simulate the kinematic hardening behavior of AISI 316 steel and the Finite Element Method (FEM) is used for presented simulation. The material non-linear models features in Finite Element Analysis (FEA) are explained with special attention in non-linear kinematic hardening material models. For simulating of non-linear kinematic hardening and ratcheting effects of AISI 316 steel the Chaboche constitutive material model is used. The Finite Element Model of rectangular block modeled for material behavior simulation is shown. Definition of constraints and input stresses is explained in detail. The results obtained after six cycles of input stresses give the excellent superposition with theoretical results of other authors. The created diagrams show the ratcheting phenomenon of research material. Therefore, the FEM model developed for non-linear kinematic hardening research is verified and could be used for wide research of different materials under different input loads. PB - Serbian Society of Mechanics and Faculty of Technical Sciences Novi Sad, Serbia C3 - International Congress of Serbian Society of Mechanics, Aranđelovac, Srbija T1 - Simulation of the kinematic hardening of AISI 316 steel by nonlinear finite element analysis UR - https://hdl.handle.net/21.15107/rcub_rims_463 ER -
@conference{ author = "Atanasovska, Ivana and Vukšić-Popović, Marija and Momčilović, Dejan", year = "2015", abstract = "The coupled non-linear transient calculation is performed and explained in order to simulate the kinematic hardening behavior of AISI 316 steel and the Finite Element Method (FEM) is used for presented simulation. The material non-linear models features in Finite Element Analysis (FEA) are explained with special attention in non-linear kinematic hardening material models. For simulating of non-linear kinematic hardening and ratcheting effects of AISI 316 steel the Chaboche constitutive material model is used. The Finite Element Model of rectangular block modeled for material behavior simulation is shown. Definition of constraints and input stresses is explained in detail. The results obtained after six cycles of input stresses give the excellent superposition with theoretical results of other authors. The created diagrams show the ratcheting phenomenon of research material. Therefore, the FEM model developed for non-linear kinematic hardening research is verified and could be used for wide research of different materials under different input loads.", publisher = "Serbian Society of Mechanics and Faculty of Technical Sciences Novi Sad, Serbia", journal = "International Congress of Serbian Society of Mechanics, Aranđelovac, Srbija", title = "Simulation of the kinematic hardening of AISI 316 steel by nonlinear finite element analysis", url = "https://hdl.handle.net/21.15107/rcub_rims_463" }
Atanasovska, I., Vukšić-Popović, M.,& Momčilović, D.. (2015). Simulation of the kinematic hardening of AISI 316 steel by nonlinear finite element analysis. in International Congress of Serbian Society of Mechanics, Aranđelovac, Srbija Serbian Society of Mechanics and Faculty of Technical Sciences Novi Sad, Serbia.. https://hdl.handle.net/21.15107/rcub_rims_463
Atanasovska I, Vukšić-Popović M, Momčilović D. Simulation of the kinematic hardening of AISI 316 steel by nonlinear finite element analysis. in International Congress of Serbian Society of Mechanics, Aranđelovac, Srbija. 2015;. https://hdl.handle.net/21.15107/rcub_rims_463 .
Atanasovska, Ivana, Vukšić-Popović, Marija, Momčilović, Dejan, "Simulation of the kinematic hardening of AISI 316 steel by nonlinear finite element analysis" in International Congress of Serbian Society of Mechanics, Aranđelovac, Srbija (2015), https://hdl.handle.net/21.15107/rcub_rims_463 .