Quantification of micro-cracks on the bending surface of roll formed products using the GTN model
With the rising interest in lightweight construction, the usage of high strength steel has increased remarkably during the last years. Unfortunately, there is manufacturing problem: high strength steel has a higher occurrence rate of cracks than mild steel. The Gurson-Tvergaard-Needleman (GTN) model...
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| Published in | Metals and materials international Vol. 20; no. 5; pp. 841 - 850 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Springer
The Korean Institute of Metals and Materials
01.09.2014
Springer Nature B.V 대한금속·재료학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1598-9623 2005-4149 |
| DOI | 10.1007/s12540-014-5008-8 |
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| Abstract | With the rising interest in lightweight construction, the usage of high strength steel has increased remarkably during the last years. Unfortunately, there is manufacturing problem: high strength steel has a higher occurrence rate of cracks than mild steel. The Gurson-Tvergaard-Needleman (GTN) model is used to precisely predict the occurrence of cracks in roll forming. The flow stress and the GTN material parameters are identified using a load-displacement curve obtained from tensile test. In detail, the material parameters that have to be determined were selected and based on this 3-level orthogonal array is made. The coefficients of the objective function are derived using the response surface method with the orthogonal array based on the simulation results. The material parameters are obtained by minimizing the objective function and determined by comparing the simulation and test results. The reliability of the material parameters determined by the tensile test increased through cross-validation using the bending test. The roll forming simulation with the determined parameters is fulfilled, and the experiments are performed to determine the occurrence of micro-cracks according to bending angles. Micro-cracks are quantified by comparing the void volume fraction (
f
) from the GTN model, and the micro-cracks on the surface are measured using a scanning-electron-microscope. |
|---|---|
| AbstractList | With the rising interest in lightweight construction, the usage of high strength steel has increased remarkably during the last years. Unfortunately, there is manufacturing problem: high strength steel has a higher occurrence rate of cracks than mild steel. The Gurson-Tvergaard-Needleman (GTN) model is used to precisely predict the occurrence of cracks in roll forming. The flow stress and the GTN material parameters are identified using a load-displacement curve obtained from tensile test. In detail, the material parameters that have to be determined were selected and based on this 3-level orthogonal array is made. The coefficients of the objective function are derived using the response surface method with the orthogonal array based on the simulation results. The material parameters are obtained by minimizing the objective function and determined by comparing the simulation and test results. The reliability of the material parameters determined by the tensile test increased through cross-validation using the bending test. The roll forming simulation with the determined parameters is fulfilled, and the experiments are performed to determine the occurrence of micro-cracks according to bending angles. Micro-cracks are quantified by comparing the void volume fraction (
f
) from the GTN model, and the micro-cracks on the surface are measured using a scanning-electron-microscope. With the rising interest in lightweight construction, the usage of high strength steel has increased remarkablyduring the last years. Unfortunately, there is manufacturing problem: high strength steel has a higheroccurrence rate of cracks than mild steel. The Gurson-Tvergaard-Needleman (GTN) model is used to preciselypredict the occurrence of cracks in roll forming. The flow stress and the GTN material parametersare identified using a load-displacement curve obtained from tensile test. In detail, the material parametersthat have to be determined were selected and based on this 3-level orthogonal array is made. The coefficients ofthe objective function are derived using the response surface method with the orthogonal array based on thesimulation results. The material parameters are obtained by minimizing the objective function and determinedby comparing the simulation and test results. The reliability of the material parameters determined by thetensile test increased through cross-validation using the bending test. The roll forming simulation with thedetermined parameters is fulfilled, and the experiments are performed to determine the occurrence of microcracksaccording to bending angles. Micro-cracks are quantified by comparing the void volume fraction( f ) from the GTN model, and the micro-cracks on the surface are measured using a scanning-electronmicroscope. KCI Citation Count: 2 With the rising interest in lightweight construction, the usage of high strength steel has increased remarkably during the last years. Unfortunately, there is manufacturing problem: high strength steel has a higher occurrence rate of cracks than mild steel. The Gurson-Tvergaard-Needleman (GTN) model is used to precisely predict the occurrence of cracks in roll forming. The flow stress and the GTN material parameters are identified using a load-displacement curve obtained from tensile test. In detail, the material parameters that have to be determined were selected and based on this 3-level orthogonal array is made. The coefficients of the objective function are derived using the response surface method with the orthogonal array based on the simulation results. The material parameters are obtained by minimizing the objective function and determined by comparing the simulation and test results. The reliability of the material parameters determined by the tensile test increased through cross-validation using the bending test. The roll forming simulation with the determined parameters is fulfilled, and the experiments are performed to determine the occurrence of micro-cracks according to bending angles. Micro-cracks are quantified by comparing the void volume fraction (f) from the GTN model, and the micro-cracks on the surface are measured using a scanning-electron-microscope. With the rising interest in lightweight construction, the usage of high strength steel has increased remarkably during the last years. Unfortunately, there is manufacturing problem: high strength steel has a higher occurrence rate of cracks than mild steel. The Gurson-Tvergaard-Needleman (GTN) model is used to precisely predict the occurrence of cracks in roll forming. The flow stress and the GTN material parameters are identified using a load-displacement curve obtained from tensile test. In detail, the material parameters that have to be determined were selected and based on this 3-level orthogonal array is made. The coefficients of the objective function are derived using the response surface method with the orthogonal array based on the simulation results. The material parameters are obtained by minimizing the objective function and determined by comparing the simulation and test results. The reliability of the material parameters determined by the tensile test increased through cross-validation using the bending test. The roll forming simulation with the determined parameters is fulfilled, and the experiments are performed to determine the occurrence of micro-cracks according to bending angles. Micro-cracks are quantified by comparing the void volume fraction (f) from the GTN model, and the micro-cracks on the surface are measured using a scanning-electron-microscope.[PUBLICATION ABSTRACT] |
| Author | Cha, Wan-gi Kim, Naksoo |
| Author_xml | – sequence: 1 givenname: Wan-gi surname: Cha fullname: Cha, Wan-gi organization: Department of Mechanical Engineering, Sogang University – sequence: 2 givenname: Naksoo surname: Kim fullname: Kim, Naksoo email: nskim@sogang.ac.kr organization: Department of Mechanical Engineering, Sogang University |
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| Cites_doi | 10.1115/1.3443401 10.1016/0022-5096(94)00069-H 10.1007/BF00036191 10.1007/s12540-012-4030-y 10.1016/j.commatsci.2005.02.003 10.1016/j.jmatprotec.2007.03.041 10.1016/0001-6160(84)90213-X 10.1016/S0921-5093(02)00481-1 10.1007/s12540-012-2014-6 10.1016/S0261-3069(03)00021-9 10.1115/1.3224807 10.1016/S0924-0136(02)00312-6 10.1016/S0029-5493(97)00135-0 10.1016/S0924-0136(02)00193-0 10.1016/j.jmatprotec.2004.04.116 10.1016/0045-7949(92)90540-G 10.1016/S0924-0136(01)00711-7 10.1016/j.jmatprotec.2006.12.017 10.1016/S1000-9361(11)60045-9 10.1007/s11740-008-0131-3 10.1007/BF00015686 10.1002/nme.1620240713 |
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| SubjectTerms | Characterization and Evaluation of Materials Chemistry and Materials Science Engineering Thermodynamics Fracture mechanics Heat and Mass Transfer High strength steels Machines Magnetic Materials Magnetism Manufacturing Materials Science Materials selection Mathematical models Metallic Materials Microcracks Orthogonal arrays Processes Roll forming Solid Mechanics Tensile tests 재료공학 |
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| Title | Quantification of micro-cracks on the bending surface of roll formed products using the GTN model |
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