Hall-Petch relationship
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The Hall-Petch relationship or Hall-Petch Law is a relation in materials science that deals with the connection between the grain size, or crystallite size, and the yield point of a material. This relation says that the larger the grain size of a crystalline material, the weaker it is, that is the smaller its yield strength. The relation is described mathematically by the Hall-Petch equation which is
- <math>\sigma_y = \sigma_0 + {k_y \over \sqrt {d}}</math>
where ky is the fitting parameter (a material constant), σo is a materials constant for the starting stress for dislocation movement, d is the grain diameter, and σy is the yield stress.
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[edit] History
In the early 1950s two groundbreaking series of papers were written independently on the relationship between grain boundaries and strength.
[edit] Hall
In 1951 E.O. Hall wrote three papers which appeared in volume 64 of the Proceedings of the Physical Society. In his third paper, Hall showed that the length of slip bands or crack lengths correspond to grain sizes and thus a relationship could be established between the two. Hall concentrated on the yielding properties of mild steels.
[edit] Petch
Based on his experimental work carried out in 1946-1949, N.J. Petch of the University of Leeds, England published a paper in 1953 independent from Hall's. Petch's paper concentrated more on brittle fracture. By measuring the variation in cleavage strength with respect to ferritic grain size at very low temperatures, Petch found a relationship exact to that of Hall's. Thus this important relationship is named after both Hall and Petch.
[edit] References
- Meier, Mike. The Hall-Petch Relationship. Sept. 13, 2004. Depeartment of Materials Science at UC-Davis. Nov. 6, 2005 http://www.matsci.ucdavis.edu/MatSciLT/EMS-174L/Files/HallPetch.pdf.de:Kornfeinung
