Plane strain compression test

This article is an orphan, as no other articles link to it. Please introduce links to this page from related articles; try the Find link tool for suggestions. (February 2009)

The plane strain compression test, also known as the Watts-Ford test, is an engineering test, and is a particularly specialized way of determining some of the material characteristics of the metal being tested, and its specialization can be summarized by this quote:

The test is useful when the sheet pieces are too small for a tensile test of a balanced biaxial test. It can give stress-strain curves up to considerably higher strains than tensile tests.^[1]

The testing essentially consists of a thin metal bar being compressed by two equally wide compressive strips, which are located of opposite sides of the thin bar. Then, over a range of increasing loads on the bar, the compressive forces lead to the thickness of the metal bar being reduced. This change of thickness is then measured sequentially after each loading, and after some mathematics a stress-strain curve can be plotted.

This article about a mechanical engineering topic is a stub. You can help Wikipedia by expanding it.

• v
• t
• e

Abe ye sab bakwaas likha hai....kuch na hai bhai isme.....ultimate phaltu likha kisi anpadh gawanr ne