Abstract
Deep rolling is mainly employed to induce compressive residual stresses and cold work straining on cyclically loaded parts. Additionally, surface roughness can be improved and, as a result, the fatigue strength of the component is increased. The principal aim of this work is to investigate the influence of deep rolling parameters (rolling pressure and number of passes) on the surface quality and residual stresses induced on AISI 1060 high carbon steel specimens. The results indicated that the surface roughness parameters decrease drastically after deep rolling and lowest roughness values are obtained applying a pressure of 100 bar and 3 rolling passes. As far as the residual stress is concerned, the tensile stress recorded on the surface of the specimens after turning shifted to compressive stress after deep rolling. In contrast to the residual stress values, which did not present a straightforward relationship with deep rolling parameters, the full width at half maximum values indicated that more accentuated work hardening is obtained when rolling pressure is elevated to 200 MPa.
Keywords
- Residual Stress
- Compressive Residual Stress
- Tensile Residual Stress
- High Carbon Steel
- Medium Carbon Steel
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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Schultze, V.: Modern mechanical surface treatment, 368 pp. Wiley-VHC Verlag GmbH & Co. KGaA, Weinheim (2006)
Berstein, G., Fuchsbauer, B.: Festwalzen und Schwingfestigkeit. Zeitschrift für Werkstofftechnik 13, 103–109 (1982)
Chui, P., Sun, K., Sun, C., Chengge, Wu, Wang, H., Zhao, Y.: Effect of surface nanocrystallization induced by fast multiple rotation rolling on mechanical properties of a low carbon steel. Mater. Des. 35, 754–759 (2012)
Meyer, D., Brinksmeier, E., Hoffmann, F.: Surface hardening by cryogenic deep rolling. Procedia Eng. 19, 258–263 (2011)
Morimoto, T.: Work hardening and tool surface damage in burnishing. Wear 127, 149–159 (1988)
Seemikeri, C.Y., Brahmankar, P.K., Mahagaonkar, S.B.: Investigations on surface integrity of AISI 1045 using LPB tool. Tribol. Int. 41, 724–734 (2008)
DIN 50125 Test of metallic materials—Tensile test pieces (in German), 14 pp (2009)
DIN EN ISO 4287 geometrical product specification (GPS)—Surface texture: profile method—terms, definitions and surface texture parameters (German version EN ISO 4287:1998+AC:2008+A1:2009), 14 pp (2009)
Gadelmawla, E.S., Koura, M.M., Maksoud, T.M.A., Elewa, I.M., Soliman, H.H.: Roughness parameters. J. Mater. Process. Technol. 123, 133–145 (2002)
Acknowledgments
The authors would like to thank the Institute of Materials Science of the Leibniz Universität Hannover for the heat treatment of the specimens and both Ecoroll AG Werkzeugtechnik (Celle, Germany) and Sandvik Tooling Deutschland GmbH for the provision, respectively, of the deep rolling and cutting tools. A. M. Abrão is grateful to the CAPES Foundation, Ministry of Education of Brazil, for funding his scholarship (grant no. 10118128).
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© 2014 Springer International Publishing Switzerland
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Abrão, A.M., Breidenstein, B., Mörke, T., Denkena, B. (2014). Surface Characterization of Components Subjected to Deep Rolling for Cyclic Loading Applications. In: Denkena, B. (eds) New Production Technologies in Aerospace Industry. Lecture Notes in Production Engineering. Springer, Cham. https://doi.org/10.1007/978-3-319-01964-2_7
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DOI: https://doi.org/10.1007/978-3-319-01964-2_7
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