Hot Deformation Behavior and Dynamic Recrystallization of Ultra High Strength Steel
In this paper, in order to improve the microstructure uniformity of an ultra-high strength martensitic steel with a strength greater than 2500 Mpa developed by multi-directional forging in the laboratory, a single-pass hot compression experiment with the strain rate of 0.01 to 1 s<sup>−1</s...
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MDPI AG
2021-08-01
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| Series: | Metals |
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| Online Access: | https://www.mdpi.com/2075-4701/11/8/1239 |
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doaj-46eb7a0b03354d23a12619fc56527bca2021-08-26T14:04:21ZengMDPI AGMetals2075-47012021-08-01111239123910.3390/met11081239Hot Deformation Behavior and Dynamic Recrystallization of Ultra High Strength SteelLiping Zhong0Bo Wang1Chundong Hu2Jieyu Zhang3Yu Yao4State Key Laboratory of Advanced Special Steel, Shanghai University, Shanghai 200072, ChinaState Key Laboratory of Advanced Special Steel, Shanghai University, Shanghai 200072, ChinaState Key Laboratory of Advanced Special Steel, Shanghai University, Shanghai 200072, ChinaState Key Laboratory of Advanced Special Steel, Shanghai University, Shanghai 200072, ChinaState Key Laboratory of Advanced Special Steel, Shanghai University, Shanghai 200072, ChinaIn this paper, in order to improve the microstructure uniformity of an ultra-high strength martensitic steel with a strength greater than 2500 Mpa developed by multi-directional forging in the laboratory, a single-pass hot compression experiment with the strain rate of 0.01 to 1 s<sup>−1</sup> and a temperature of 800 to 1150 °C was conducted. Based on the experimental data, the material parameters were determined, the constitutive model considering the influence of work hardening, the recrystallization softening on the dislocation density, and the recrystallized grain size model were established. After introducing the model into the finite element software DEFORM-3D, the thermal compression experiment was simulated, and the results were consistent with the experimental results. The rule for obtaining forging stock with a uniform and refinement microstructure was acquired by comparing the simulation and the experimental results, which are helpful to formulate an appropriate forging process.https://www.mdpi.com/2075-4701/11/8/1239ultra high strength steelhot deformationrecrystallizationnumerical simulation |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Liping Zhong Bo Wang Chundong Hu Jieyu Zhang Yu Yao |
| spellingShingle |
Liping Zhong Bo Wang Chundong Hu Jieyu Zhang Yu Yao Hot Deformation Behavior and Dynamic Recrystallization of Ultra High Strength Steel Metals ultra high strength steel hot deformation recrystallization numerical simulation |
| author_facet |
Liping Zhong Bo Wang Chundong Hu Jieyu Zhang Yu Yao |
| author_sort |
Liping Zhong |
| title |
Hot Deformation Behavior and Dynamic Recrystallization of Ultra High Strength Steel |
| title_short |
Hot Deformation Behavior and Dynamic Recrystallization of Ultra High Strength Steel |
| title_full |
Hot Deformation Behavior and Dynamic Recrystallization of Ultra High Strength Steel |
| title_fullStr |
Hot Deformation Behavior and Dynamic Recrystallization of Ultra High Strength Steel |
| title_full_unstemmed |
Hot Deformation Behavior and Dynamic Recrystallization of Ultra High Strength Steel |
| title_sort |
hot deformation behavior and dynamic recrystallization of ultra high strength steel |
| publisher |
MDPI AG |
| series |
Metals |
| issn |
2075-4701 |
| publishDate |
2021-08-01 |
| description |
In this paper, in order to improve the microstructure uniformity of an ultra-high strength martensitic steel with a strength greater than 2500 Mpa developed by multi-directional forging in the laboratory, a single-pass hot compression experiment with the strain rate of 0.01 to 1 s<sup>−1</sup> and a temperature of 800 to 1150 °C was conducted. Based on the experimental data, the material parameters were determined, the constitutive model considering the influence of work hardening, the recrystallization softening on the dislocation density, and the recrystallized grain size model were established. After introducing the model into the finite element software DEFORM-3D, the thermal compression experiment was simulated, and the results were consistent with the experimental results. The rule for obtaining forging stock with a uniform and refinement microstructure was acquired by comparing the simulation and the experimental results, which are helpful to formulate an appropriate forging process. |
| topic |
ultra high strength steel hot deformation recrystallization numerical simulation |
| url |
https://www.mdpi.com/2075-4701/11/8/1239 |
| work_keys_str_mv |
AT lipingzhong hotdeformationbehavioranddynamicrecrystallizationofultrahighstrengthsteel AT bowang hotdeformationbehavioranddynamicrecrystallizationofultrahighstrengthsteel AT chundonghu hotdeformationbehavioranddynamicrecrystallizationofultrahighstrengthsteel AT jieyuzhang hotdeformationbehavioranddynamicrecrystallizationofultrahighstrengthsteel AT yuyao hotdeformationbehavioranddynamicrecrystallizationofultrahighstrengthsteel |
| _version_ |
1721191564148998144 |