Numerical-experimental analysis of a modified G-BOP test to evaluate cracks in weld beads in thin sheets
One of the most critical problems related to welding is the occurrence of Hydrogen-Induced Cracking (HIC), and despite all the efforts made to mitigate this defect, it remains present in the modern welding industry. Although the Gapped Bead-on-Plate (G-BOP) test is one of the most practical methods...
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| Veröffentlicht in: | International journal of advanced manufacturing technology 2022-02, Vol.118 (7-8), p.2559-2569 |
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| creator | Duarte, Saulo Moretti Araújo Pereira, Heitor Abdias da Silva Gomes, Kelly Cristiane Silva, José Hilton Ferreira da |
| description | One of the most critical problems related to welding is the occurrence of Hydrogen-Induced Cracking (HIC), and despite all the efforts made to mitigate this defect, it remains present in the modern welding industry. Although the Gapped Bead-on-Plate (G-BOP) test is one of the most practical methods for assessing susceptibility to HIC, the use of a thick plate as the base metal (BM) restricts its application. Considering that many materials, such as the High-Strength-Low-Alloy (HSLA) steels, are difficult to find commercially in the required thickness, and also the fundamental need to appropriately represent the relationship between BM and electrode, da Silva, Fals and Trevisan developed a modified G-BOP test that uses a thinner sheet as the BM. Thus, the present paper aims to evaluate the ability of the Finite Element Method (FEM) to represent the thermomechanical aspects of the G-BOP test and to analyze its modified version using a numerical-experimental approach. In addition to consolidating the modified G-BOP test, the results corroborate the FEM as an important ally in HIC studies. |
| doi_str_mv | 10.1007/s00170-021-08121-z |
| format | Article |
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Although the Gapped Bead-on-Plate (G-BOP) test is one of the most practical methods for assessing susceptibility to HIC, the use of a thick plate as the base metal (BM) restricts its application. Considering that many materials, such as the High-Strength-Low-Alloy (HSLA) steels, are difficult to find commercially in the required thickness, and also the fundamental need to appropriately represent the relationship between BM and electrode, da Silva, Fals and Trevisan developed a modified G-BOP test that uses a thinner sheet as the BM. Thus, the present paper aims to evaluate the ability of the Finite Element Method (FEM) to represent the thermomechanical aspects of the G-BOP test and to analyze its modified version using a numerical-experimental approach. 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| subjects | Advanced manufacturing technologies Base metal Bead on plate welding Beads CAE) and Design Computer-Aided Engineering (CAD Electrodes Engineering Evaluation Finite element analysis Finite element method Gases High strength low alloy steels Hydrogen Industrial and Production Engineering Mechanical Engineering Media Management Microstructure Original Article Residual stress Simulation Steel Thick plates Welding |
| title | Numerical-experimental analysis of a modified G-BOP test to evaluate cracks in weld beads in thin sheets |
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