4.6 Article

A Simple Methodology to Determine Fracture Strain of Press-Hardened Steels Under Plane Strain Bending

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SPRINGER
DOI: 10.1007/s11661-020-06103-6

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资金

  1. National Natural Science Foundation of China [51722402, U1560204]
  2. Fundamental Research Funds for the Central Universities [N170705001]

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A new methodology has been developed to determine fracture strain of press-hardened steel (PHS) using interrupted bending tests and extrapolation, without direct strain measurements. The method was applied to PHS with different thicknesses and grain sizes, and compared to results from direct measurements, with an error analysis conducted to assess accuracy. This easy-to-implement method can be broadly applied to determine fracture strain for other sheet metals previously evaluated by VDA bending angle.
Many automotive body structure components are made of press-hardened steel (PHS) to ensure occupant safety, and they are often subjected to bending-dominated deformation such as axial folding and side intrusion and fracture usually occurs under plane strain bending. Therefore, fracture strain under plane strain condition is an important material property for designing mass-efficient components while maintaining vehicle crashworthiness. The VDA 238-100 standard uses bending angle to qualitatively assess fracture resistance of PHS. However, bending angle is thickness dependent and it cannot be utilized in finite element models to characterize materials' fracture limit for predicting structure failure. In this study, a methodology to determine fracture strain of PHS is developed by applying interrupted bending tests and extrapolation, without using any direct strain measurement system. Then this method is applied to determine fracture strains of bare and AlSi-coated PHS with various thicknesses and prior austenite grain sizes, and the results are compared to that obtained from direct strain measurements. An error analysis is also performed to assess factors/assumptions affecting the accuracy of the proposed methodology. The new method is easy to implement and can be broadly applied to determine fracture strain for other sheet metals whose bendability was previously evaluated by VDA bending angle.

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