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[https://en.wikipedia.org/wiki/Compression_%28physics%29 '''Compression'''] describes the forces which try to squash or push things together, as if in a rugby scrum. These forces are known as compressive forces and are measured in '''[[newtons]]'''.
[https://en.wikipedia.org/wiki/Compression_%28physics%29 '''Compression'''] describes the forces which try to squash or push things together, as if in a rugby scrum. These forces are known as compressive forces and are measured in '''[[Newton|newtons]]'''.


[[File:CompressionArrow.png|200px|right]]
[[File:CompressionArrow.png|200px|right]]
*Compression is the opposite of '''[[Tension]]'''.
*Compression is the opposite of '''[[Tension]]'''.
*The parts of a structure, or '''[[Structural Members|members]]''', which contain these forces are known as '''[[Struts]]'''.
*The parts of a structure, or '''[[Structural Member|members]]''', which contain these forces are known as '''[[Strut|Struts]]'''.
*Components subjected to '''Compression''' need to be made from materials with good [https://en.wikipedia.org/wiki/Compressive_strength '''Compressive strength'''].
*Components subjected to '''Compression''' need to be made from materials with good [https://en.wikipedia.org/wiki/Compressive_strength '''Compressive strength'''].


[[Category:Terminology]]
[[Category:Terminology]]

Latest revision as of 20:56, 23 December 2015

Compression describes the forces which try to squash or push things together, as if in a rugby scrum. These forces are known as compressive forces and are measured in newtons.

CompressionArrow.png
  • Compression is the opposite of Tension.
  • The parts of a structure, or members, which contain these forces are known as Struts.
  • Components subjected to Compression need to be made from materials with good Compressive strength.