Displacement field (mechanics)
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.[1][2] 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 solid 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:
where
- is a placement vector
- are all the points of the body
- 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 the displacement field is the difference between two body states:
where
- is a displacement field, which for each point of the body specifies a displacement vector.
See also
References
- "Continuum Mechanics - Kinematics". School of Engineering. Brown University. Retrieved 2018-07-25.
- "2.080 Lecture 3: The Concept of Stress, Generalized Stresses and Equilibrium" (PDF). MIT OpenCourseWare. Retrieved 2018-07-25.