For a Stress analysis, constraints are applied to the model nodes to prevent rigid body motion (global translations and rotations) of the model, in response to the applied loads, whilst not interfering with the shrinkages of the part.
When undertaking the structural analysis, any system of constraints can be used, providing it prevents rigid-body motion. Rigid-body motion is any motion in which the relative positions of all points making up the body remain unchanged.
General rigid-body motion in space involves six components (three orthogonal translations and three orthogonal rotations). This means that the minimum number of constrained degrees of freedom that must be set in the model is also six. In practice, you must decide whether the global coordinate system or a local coordinate system best simulates your perception of the physical situation being modeled.
The following types of constraints can be set: