Numerical modeling of austenite-ferrite weldment tensile test
2014
Authors
Sedmak, SimonTatić, Uroš
Jovičić, Radomir
Sedmak, Aleksandar
Milošević, Miloš
Bakić, Ramo
Sedmak, Stojan
Conference object (Published version)
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The aim of this paper was to numerically simulate the plastic behavior of a three-material body specimen and compare the results with physical experiments performed on the same specimen. Both the physical and numerical models were subjected to tensile load which lead to the forming of a neck in the specimen due to significant plastic strain. Specimens were made by welding two materials, steel M (ferrite) and steel X (austenite) using filler metal with yield strength higher than the other two materials, producing the overmatched welded joint. Plastic behavior of the specimen was simulated using the finite element method (FEM). As for the physical experiment, in addition to tensile tests of the three-material body specimen, each material was tested individually in order to obtain stress-strain diagrams. These diagrams were then used to determine the input parameters required for the numerical simulation of plastic strain. The results have confirmed that FEM can be used to effectively and... accurately simulate the plastic behavior of a specimen made of three different materials.
Keywords:
tensile properties / storage tank / Numerical model / austenite-ferrite weldmentSource:
20th European Conference on Fracture, 2014, 3, 1123-1128Publisher:
- Elsevier Science Bv, Amsterdam
Funding / projects:
- Ministry of Education, Science and Technological Development, Republic of Serbia
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Inovacioni centarTY - CONF AU - Sedmak, Simon AU - Tatić, Uroš AU - Jovičić, Radomir AU - Sedmak, Aleksandar AU - Milošević, Miloš AU - Bakić, Ramo AU - Sedmak, Stojan PY - 2014 UR - https://machinery.mas.bg.ac.rs/handle/123456789/1869 AB - The aim of this paper was to numerically simulate the plastic behavior of a three-material body specimen and compare the results with physical experiments performed on the same specimen. Both the physical and numerical models were subjected to tensile load which lead to the forming of a neck in the specimen due to significant plastic strain. Specimens were made by welding two materials, steel M (ferrite) and steel X (austenite) using filler metal with yield strength higher than the other two materials, producing the overmatched welded joint. Plastic behavior of the specimen was simulated using the finite element method (FEM). As for the physical experiment, in addition to tensile tests of the three-material body specimen, each material was tested individually in order to obtain stress-strain diagrams. These diagrams were then used to determine the input parameters required for the numerical simulation of plastic strain. The results have confirmed that FEM can be used to effectively and accurately simulate the plastic behavior of a specimen made of three different materials. PB - Elsevier Science Bv, Amsterdam C3 - 20th European Conference on Fracture T1 - Numerical modeling of austenite-ferrite weldment tensile test EP - 1128 SP - 1123 VL - 3 DO - 10.1016/j.mspro.2014.06.183 ER -
@conference{ author = "Sedmak, Simon and Tatić, Uroš and Jovičić, Radomir and Sedmak, Aleksandar and Milošević, Miloš and Bakić, Ramo and Sedmak, Stojan", year = "2014", abstract = "The aim of this paper was to numerically simulate the plastic behavior of a three-material body specimen and compare the results with physical experiments performed on the same specimen. Both the physical and numerical models were subjected to tensile load which lead to the forming of a neck in the specimen due to significant plastic strain. Specimens were made by welding two materials, steel M (ferrite) and steel X (austenite) using filler metal with yield strength higher than the other two materials, producing the overmatched welded joint. Plastic behavior of the specimen was simulated using the finite element method (FEM). As for the physical experiment, in addition to tensile tests of the three-material body specimen, each material was tested individually in order to obtain stress-strain diagrams. These diagrams were then used to determine the input parameters required for the numerical simulation of plastic strain. The results have confirmed that FEM can be used to effectively and accurately simulate the plastic behavior of a specimen made of three different materials.", publisher = "Elsevier Science Bv, Amsterdam", journal = "20th European Conference on Fracture", title = "Numerical modeling of austenite-ferrite weldment tensile test", pages = "1128-1123", volume = "3", doi = "10.1016/j.mspro.2014.06.183" }
Sedmak, S., Tatić, U., Jovičić, R., Sedmak, A., Milošević, M., Bakić, R.,& Sedmak, S.. (2014). Numerical modeling of austenite-ferrite weldment tensile test. in 20th European Conference on Fracture Elsevier Science Bv, Amsterdam., 3, 1123-1128. https://doi.org/10.1016/j.mspro.2014.06.183
Sedmak S, Tatić U, Jovičić R, Sedmak A, Milošević M, Bakić R, Sedmak S. Numerical modeling of austenite-ferrite weldment tensile test. in 20th European Conference on Fracture. 2014;3:1123-1128. doi:10.1016/j.mspro.2014.06.183 .
Sedmak, Simon, Tatić, Uroš, Jovičić, Radomir, Sedmak, Aleksandar, Milošević, Miloš, Bakić, Ramo, Sedmak, Stojan, "Numerical modeling of austenite-ferrite weldment tensile test" in 20th European Conference on Fracture, 3 (2014):1123-1128, https://doi.org/10.1016/j.mspro.2014.06.183 . .