4.6 Article

Warm Rolled Temperature Effect on Microstructure and Mechanical Properties of 18Mn/40Si2CrMo Multilayer Composite Steel

期刊

CRYSTALS
卷 12, 期 11, 页码 -

出版社

MDPI
DOI: 10.3390/cryst12111652

关键词

multilayer composite steel; warm rolling; delamination; tensile properties

资金

  1. Natural Science Foundation of Hebei, China [E2020202124, E2021202075]
  2. foundation strengthening program [2019-JCJQ-142-00]
  3. Key-Area R&D Program of Guangdong Province [2020B010134000]
  4. Guangdong Academy of Science [2021GDASYL-20210102002]

向作者/读者索取更多资源

In this study, 18Mn/40Si2CrMo multilayer composite steels were successfully fabricated by vacuum hot rolling and warm rolling process. The effects of different warm rolling temperatures on the microstructure and mechanical properties were investigated. It was found that warm rolling process reduces the thickness of the interfacial diffusion layer, leading to improved interfacial bonding strength. The multilayer composite steel with a warm temperature of 500 degrees C achieved a balance of strength and plasticity.
In order to obtain a good strength-plastic/toughness match relationship, 18Mn/40Si2CrMo multilayer composite steels were successfully fabricated by a vacuum hot rolling and warm rolling process in this paper. The effects of different warm rolling temperatures (400-600 degrees C) on the microstructure and mechanical properties of the multilayer composite steel were systematically investigated. The result shows that the warm rolling process reduces thickness of the interfacial diffusion layer, which improves the interfacial bonding strength of multilayer composite steel. With the increase of warm rolling temperature, the total elongation (TEL) increases but ultimate tensile strength (UTS) decreases. The multilayer composite steel with a warm temperature of 500 degrees C achieves the balance of strength and plastic of which the UTS and TEL are 1.7 GPa and 12.5%, respectively. This is due to the high work-hardening ability of deformation twins of the 18Mn layer and the precipitates nanoscale carbides of the 40Si2CrMo layer to obscure the dislocation movement.

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