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Journal of Materials Engineering and Performance

Erschienen in:

01.11.2012

Predictions of the Mechanical Properties and Microstructure Evolution of High Strength Steel in Hot Stamping

verfasst von: Junjia Cui, Chengxi Lei, Zhongwen Xing, Chunfeng Li, Shumei Ma

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 11/2012

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Abstract

Hot stamping is an innovative operation in metal-forming processes which virtually avoids the cracking and wrinkling of high strength steel (HSS) sheets. Examining the phase transformation and mechanical properties of HSS by means of experiments is challenging. In this article, a numerical model of the hot stamping process including forming, quenching, and air cooling was developed to reveal the microstructure evolution and to predict the final mechanical properties of hot-stamped components after multi-process cycles. The effects of the number of process cycles and the holding times on the temperature of HSS were examined using the model. The microstructure evolution of HSS under variable holding times is illustrated. The mechanical properties, particularly hardness and tensile strength, were predicted. It was found that the martensitic content increased with increasing holding time, and the martensitic content of the formed component at the flange and end was higher than for the sidewall, and lowest for the bottom. The hardness trend was consistent with the martensitic content. After six process cycles, the predictive errors of the model for hardness and tensile strength were acceptable for practical applications in engineering. Comparison between the predicted results and the experiment results showed that the developed model was reliable.

Vorheriger Artikel Modeling the Flow Curve of AISI 410 Martensitic Stainless Steel

Nächster Artikel A True-Stress Creep Model Based on Deformation Mechanisms for Polycrystalline Materials

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Titel: Predictions of the Mechanical Properties and Microstructure Evolution of High Strength Steel in Hot Stamping
verfasst von: Junjia Cui
Chengxi Lei
Zhongwen Xing
Chunfeng Li
Shumei Ma
Publikationsdatum: 01.11.2012
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 11/2012
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-012-0180-9

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