Manufacturing Technology 2019, 19(4):583-588 | DOI: 10.21062/ujep/338.2019/a/1213-2489/MT/19/4/583

Influence of Cooling Rate on Microstructure and Mechanical Properties of 42SiCr Steel after Q&P Process

Tomáš Janda, Hana Jirková, Štěpán Jeníček, Ludmila Kučerová
Regional Technological Institute, University of West Bohemia, Univerzitní 22, 306 14 Plzeň, Czech Republic

Using innovative methods of heat treatment (HT) for high-strength steels, such as the Q&P process, very favourable ratios of ductility and strength can be achieved. Materials processed by this technology have higher content of retained austenite, and therefore better ductility. This experiment deals with HT of 42SiCr steel. The conventional HT and the Q&P processing are compared with respect to material properties. Metallographic analysis, hardness measurement, X-ray diffraction phase analysis (of retained austenite content) and tensile testing were performed. For the hardened samples, the effects of the cooling rate on their microstructure were assessed and the measured real-world data were compared with the simulations performed in the FEA simulation software DEFORMTM based on the thermocouple records. After a conventional HT, the material showed little sensitivity to the cooling rate. In contrast, the Q&P process with higher quenching temperatures resulted in a higher austenite content and elongation of up to 15 % at a strength of 1800 MPa.

Keywords: High-strength steel, heat treatment, Q&P process, FE simulation
Grants and funding:

Project LO1502 ‘Development of the Regional Technological Institute’, under the auspices of the National Sustainability Programme I of the Ministry of Education of the Czech Republic aimed at supporting research, experimental development and innovation.

Published: August 1, 2019  Show citation

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Janda T, Jirková H, Jeníček Š, Kučerová L. Influence of Cooling Rate on Microstructure and Mechanical Properties of 42SiCr Steel after Q&P Process. Manufacturing Technology. 2019;19(4):583-588. doi: 10.21062/ujep/338.2019/a/1213-2489/MT/19/4/583.
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