In physics, the Rehbinder effect is the reduction in the hardness and ductility of a material, particularly metals, by a surfactant film.[1] The effect is named for Soviet scientist Piotr Aleksandrovich Rehbinder ,[2][3] who discovered the effect in 1928.[4]
A proposed explanation for this effect is the disruption of surface oxide films, and the reduction of surface energy by surfactants.[1][5]
The effect is of particular importance in machining, as lubricants reduce cutting forces.[5][6]
References
edit- ^ a b Andrade, E. N. D. C.; Randall, R. F. Y.; Makin, M. J. (1950). "The Rehbinder Effect". Proceedings of the Physical Society, Section B. 63 (12): 990. Bibcode:1950PPSB...63..990A. doi:10.1088/0370-1301/63/12/304. S2CID 4078138.
- ^ Rehbinder, Piotr; Logghinov, G. (1941). "[Rehbinder and Logghinov]". Proceedings of the USSR Academy of Sciences (in Russian). 30 (491). ISSN 0002-3264.
- ^ Shchukin, Eugene D. (April 1999). "Physical–chemical mechanics in the studies of Peter A. Rehbinder and his school". Colloids and Surfaces A: Physicochemical and Engineering Aspects. 149 (1–3): 529–537. doi:10.1016/S0927-7757(98)00607-4. ISSN 0927-7757.
- ^ Traskin, Vladimir Yu. (2009). "Rehbinder Effect in Tectonophysics". Izvestiya, Physics of the Solid Earth. 45 (11): 952–963. doi:10.1134/S1069351309110032. ISSN 1069-3513.
- ^ a b Chaudhari, Akshay; Soh, Zhi Yuan; Wang, Hao; Kumar, A. Senthil (2018). "Rehbinder effect in ultraprecision machining of ductile materials". International Journal of Machine Tools and Manufacture. 133: 47-60. doi:10.1016/j.ijmachtools.2018.05.009. S2CID 117157657.
- ^ Lee, Yan Jin; Wang, Hao (July 2020). "Current understanding of surface effects in microcutting". Materials & Design. 192: 108688. doi:10.1016/j.matdes.2020.108688. S2CID 216307550.
Further reading
edit- Andrade, E. N. D. C.; Randall, R. F. Y. (1949). "The Rehbinder Effect". Nature. 164 (4183): 1127. Bibcode:1949Natur.164.1127A. doi:10.1038/1641127a0.
- Malkin, A. I. (2012). "Regularities and mechanisms of the Rehbinder's effect". Colloid Journal. 74 (2): 223–238. doi:10.1134/S1061933X12020068. S2CID 97754613.
- Biletskyi, V. (2014). "Application aspects of adsorption opening effect of solids pore space surface". In Volodymyr Bondarenko; Iryna Kovalevs'ka; Kostiantyn Ganushevych (eds.). Progressive Technologies of Coal, Coalbed Methane, and Ores Mining. CRC Press. pp. 121–122. doi:10.1201/b17547-22. ISBN 978-1-138-02699-5.