The Effect of the Energy Release Rate on the Local Damage Evolution in TRIP Steel Composite Reinforced with Zirconia Particles
In this study, the effect of the energy release rate on the transformation-induced plasticity (TRIP) steel composite reinforced with 5 vol% ceramic particles is determined using the crystal plasticity simulation of the coupled brittle-ductile damage model and validated by experimental results. A min...
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MDPI AG
2022-12-01
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| Online Access: | https://www.mdpi.com/1996-1944/16/1/134 |
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| author | Shao-Chen Tseng Chen-Chun Chiu Faisal Qayyum Sergey Guk Ching-Kong Chao Ulrich Prahl |
| author_facet | Shao-Chen Tseng Chen-Chun Chiu Faisal Qayyum Sergey Guk Ching-Kong Chao Ulrich Prahl |
| author_sort | Shao-Chen Tseng |
| collection | DOAJ |
| description | In this study, the effect of the energy release rate on the transformation-induced plasticity (TRIP) steel composite reinforced with 5 vol% ceramic particles is determined using the crystal plasticity simulation of the coupled brittle-ductile damage model and validated by experimental results. A miniature dog bone tensile sample is subjected to an interrupted in situ quasi-static tensile test up to a true strain of 20.3%. Using the commercial digital image correlation program VEDDAC and the image processing method in MATLAB, the test data are utilized to monitor the progress of local microstrain and damage. The impact of the energy release rate of ceramic particles is investigated by simulation using a coupled crystal plasticity-dislocation density model with ductile–brittle criteria for the corresponding phases. It can be shown that the local deformations predicted by the numerical simulation and the experimental data are qualitatively comparable. The damage pixel of the experiment, smaller E<sub>cr</sub> (1.0 × 10<sup>8</sup>), and larger E<sub>cr</sub> (1.2 × 10<sup>8</sup>) cases of energy release rates are 4.9%, 4.3%, and 5.1%, respectively. Furthermore, on a global strain of 20.3%, the relative error between simulation and experimental validation of smaller E<sub>cr</sub> (1.0 × 10<sup>8</sup>) and larger E<sub>cr</sub> (1.2 × 10<sup>8</sup>) cases is 12.2% and 4%, respectively. |
| first_indexed | 2024-03-11T09:56:14Z |
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| institution | Directory Open Access Journal |
| issn | 1996-1944 |
| language | English |
| last_indexed | 2024-03-11T09:56:14Z |
| publishDate | 2022-12-01 |
| publisher | MDPI AG |
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| series | Materials |
| spelling | doaj.art-b580f5542e6f49f8bcfa69909e891fe12023-11-16T15:47:29ZengMDPI AGMaterials1996-19442022-12-0116113410.3390/ma16010134The Effect of the Energy Release Rate on the Local Damage Evolution in TRIP Steel Composite Reinforced with Zirconia ParticlesShao-Chen Tseng0Chen-Chun Chiu1Faisal Qayyum2Sergey Guk3Ching-Kong Chao4Ulrich Prahl5Institut für Metallformung, Technische Universität Bergakademie Freiberg, 09599 Freiberg, GermanyInstitut für Metallformung, Technische Universität Bergakademie Freiberg, 09599 Freiberg, GermanyInstitut für Metallformung, Technische Universität Bergakademie Freiberg, 09599 Freiberg, GermanyInstitut für Metallformung, Technische Universität Bergakademie Freiberg, 09599 Freiberg, GermanyDepartment of Mechanical Engineering, National Taiwan University of Science and Technology, Taipei 106335, TaiwanInstitut für Metallformung, Technische Universität Bergakademie Freiberg, 09599 Freiberg, GermanyIn this study, the effect of the energy release rate on the transformation-induced plasticity (TRIP) steel composite reinforced with 5 vol% ceramic particles is determined using the crystal plasticity simulation of the coupled brittle-ductile damage model and validated by experimental results. A miniature dog bone tensile sample is subjected to an interrupted in situ quasi-static tensile test up to a true strain of 20.3%. Using the commercial digital image correlation program VEDDAC and the image processing method in MATLAB, the test data are utilized to monitor the progress of local microstrain and damage. The impact of the energy release rate of ceramic particles is investigated by simulation using a coupled crystal plasticity-dislocation density model with ductile–brittle criteria for the corresponding phases. It can be shown that the local deformations predicted by the numerical simulation and the experimental data are qualitatively comparable. The damage pixel of the experiment, smaller E<sub>cr</sub> (1.0 × 10<sup>8</sup>), and larger E<sub>cr</sub> (1.2 × 10<sup>8</sup>) cases of energy release rates are 4.9%, 4.3%, and 5.1%, respectively. Furthermore, on a global strain of 20.3%, the relative error between simulation and experimental validation of smaller E<sub>cr</sub> (1.0 × 10<sup>8</sup>) and larger E<sub>cr</sub> (1.2 × 10<sup>8</sup>) cases is 12.2% and 4%, respectively.https://www.mdpi.com/1996-1944/16/1/134ceramicTRIP steelin situ testcrystal plasticitydamageDAMASK |
| spellingShingle | Shao-Chen Tseng Chen-Chun Chiu Faisal Qayyum Sergey Guk Ching-Kong Chao Ulrich Prahl The Effect of the Energy Release Rate on the Local Damage Evolution in TRIP Steel Composite Reinforced with Zirconia Particles Materials ceramic TRIP steel in situ test crystal plasticity damage DAMASK |
| title | The Effect of the Energy Release Rate on the Local Damage Evolution in TRIP Steel Composite Reinforced with Zirconia Particles |
| title_full | The Effect of the Energy Release Rate on the Local Damage Evolution in TRIP Steel Composite Reinforced with Zirconia Particles |
| title_fullStr | The Effect of the Energy Release Rate on the Local Damage Evolution in TRIP Steel Composite Reinforced with Zirconia Particles |
| title_full_unstemmed | The Effect of the Energy Release Rate on the Local Damage Evolution in TRIP Steel Composite Reinforced with Zirconia Particles |
| title_short | The Effect of the Energy Release Rate on the Local Damage Evolution in TRIP Steel Composite Reinforced with Zirconia Particles |
| title_sort | effect of the energy release rate on the local damage evolution in trip steel composite reinforced with zirconia particles |
| topic | ceramic TRIP steel in situ test crystal plasticity damage DAMASK |
| url | https://www.mdpi.com/1996-1944/16/1/134 |
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