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Journal of Failure Analysis and Prevention

, Volume 9, Issue 5, pp 486–492 | Cite as

Brittle Fracture of Hot-Forging Cast Dies

  • S. Q. Wang
  • M. X. Wei
  • X. H. Cui
Technical Article---Peer-Reviewed

Abstract

The site applications of cast hot-forging dies made from a new type cast steel were performed and several of the dies experienced brittle fracture. Analysis of the operating modes and evaluation of mechanical properties were used to establish relations among failure patterns and lives of dies. The results show that the dies experience elevated-temperature wear, plastic deformation and thermal fatigue and that brittle fracture was the predominant failure pattern. Brittle fracture of cast dies has two patterns: early brittle fracture and impact fatigue fracture. The early brittle fractures seldom occur but, when this failure mode occurs, the failure severely shortens the life of the cast dies. The early brittle fracture is attributed to abnormal heat-treatment and operation. Impact fatigue fracture is the dominant failure pattern in the cast dies. This failure mode usually initiates from sand inclusions, micro-cracks and/or thermal fatigue cracks. The specifications of the die material should include a requirement for impact toughness to assure that the dies are resistant to multiple impact loads. This means that strength-dominant toughness must be controlled and optimization of the heat-treatment processes must focus on this requirement.

Keywords

Brittle fracture Fatigue fracture Failure analysis Alloy steel 

Notes

Acknowledgments

The authors gratefully acknowledge the financial supports of the open fund project from State Key Laboratory of Materials Modification by Laser, Ion and Electron Beams (No. 0708), advanced talent fund project from Jiangsu University (No. 07JDG062) and early-term key technology of Industrialization and whole set equipment from Sponsored by Plan Committee of China (No. 1999317).

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Copyright information

© ASM International 2009

Authors and Affiliations

  1. 1.School of Materials Science and EngineeringJiangsu UniversityZhenjiangChina

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