Displacement field (mechanics)

From Wikipedia, the free encyclopedia

A displacement field is an assignment of displacement vectors for all points in a region or body that is displaced from one state to another. A displacement vector specifies the position of a point or a particle in reference to an origin or to a previous position. For example, a displacement field may be used to describe the effects of deformation on a rigid body.

Before considering displacement, the state before deformation must be defined. It is a state in which the coordinates of all points are known and described by the function:

{\vec  {R}}_{0}:\Omega \rightarrow P

where

{\vec  {R}}_{0} is a placement vector
\Omega are all the points of the body
P are all the points in the space in which the body is present

Most often it is a state of the body in which no forces are applied.

Then given any other state of this body in which coordinates of all its points are described as {\vec  {R}}_{1} the displacement field is the difference between two body states:

{\vec  {u}}={\vec  {R}}_{1}-{\vec  {R}}_{0}

where

{\vec  {u}} is a displacement field, which for each point of the body specifies a displacement vector.

See also

This article is issued from Wikipedia. The text is available under the Creative Commons Attribution/Share Alike; additional terms may apply for the media files.