Effect of Cold Forming on the High Cycle Fatigue Behaviour of a 27MnCr5 Steel
Author:
Publisher
Elsevier BV
Subject
Applied Mathematics
Reference21 articles.
1. Pale, J.A., Shivpuri, R., & Altan, T. (1992). Recent developments in tooling, machines and research in cold forming of complex parts. Journal of Materials Processing Technology, 33(1-2), 1-29.
2. On the decrease of fatigue limit due to small prestrain;Nagase;Journal of Engineering Materials and Technology,1992
3. Kang, M., Aono, Y., & Noguchi, H. (2007). Effect of prestrain on and prediction of fatigue limit in carbon steel. International Journal of Fatigue, 29(9-11), 1855-1862. Fatigue Damage of Structural Materials VI The Sixth International Conference on Fatigue Damage of Structural Materials.
4. Influence of large pre-straining of aluminium alloys on their residual fatigue resistance;Froustey;International Journal of Fatigue,2008
5. Zimmermann, M., Stöcker, C., Müller-Bollenhagen, C., & Christ, H.-J. (2010). Prehistory effects on the VHCF behaviour of engineering metallic materials with different strengthening mechanisms. Journal of Physics : Conference Series, 240(1). 15th International conference on the strength of Materials (ICSMA-15).
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