Asperity (geotechnical engineering)

In geotechnical engineering and contact mechanics the term asperity is used to refer to individual features of unevenness (roughness) of the surface of a discontinuity, grain, or particle with heights in the range from approximately 0.1 mm to the order of metres. Below the asperity level, surface interactions are normally considered to be a material property, arising from mechanisms of adhesion and repulsion at the atomic scale (often accounted for by material friction, atomic friction or molecular friction).[1]

Dilation

An often used definition for asperities in geotechnical engineering:
Unevenness of a surface are asperities if these cause dilation if two blocks with in between a discontinuity with matching asperities on the two opposing surfaces (i.e. a fitting discontinuity) move relative to each other, under low stress levels that do not cause breaking of the asperities.

Contrast with asperity in materials science

Materials science recognizes asperities ranging from the sub-visual (normally less than 0.1 mm) to the atomic scale.

gollark: Less vaguely, laptops/desktops or other discrete computer-type things will begin to (continue to, actually?) decline as people begin using phones with better dockable IO.
gollark: More vague predictions: computers will generally get faster, but also half the computing power will end up wasted on increasingly flashy animations, poorly programmed applications, and other random nonsense like that.
gollark: Okay, no response right now.
gollark: ?remind 5y "hello future"
gollark: I may or may not have *a* closed timelike curve, but you can only send information that way.

See also

References
  1. Patton, F.D. (25 Sep – 1 Oct 1966). "Multiple Modes of Shear Failure in Rock". In Rocha, M. (ed.). Proc. 1st Congress of International Society for Rock Mechanics (ISRM). 1. Lisbon, Portugal: Laboratório Nacional de Engenharia Civil, Lisboa, Portugal. pp. 509–513. OL 19662608M.

Further reading
  • Price, D.G. (2008). De Freitas, M.H. (ed.). Engineering Geology: Principles and Practice. Springer. p. 450. ISBN 3-540-29249-7.
  • Szymakowski, J.; Haberfield, C. (11–14 September 2001). "Preliminary results of direct shear testing of large scale, jointed, soft rock". In Sijing, W.; Bingjun, F.; Zhongkui, Z.L. (eds.). Frontiers of Rock Mechanics and Sustainable Development in the 21st Century, Proc. ISRM 2001 - 2nd ARMS. Beijing, China: Swets & Zeitlinger, Lisse, Netherlands, Taylor & Francis. pp. 257–260. ISBN 90-265-1851-X.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.