Product: ABAQUS/Standard
A kinematic coupling constrains a group of slave nodes to the translation and rotation of a master node in a customized manner; combinations of slave node degrees of freedom are selected to participate in the constraint. Since each slave node has a separate relationship with the master node, the kinematic coupling constraint can be considered as the combination of general master-slave constraints. These general constraints are described below.
Each possible combination of selected constraints on a slave node rotation results in rotation relationships that are unique but analogous to existing MPC types: zero constrained rotational degrees of freedom results in a pin constraint; one, results in a universal constraint; two, results in a revolute constraint; and three, results in a beam constraint. Each of these combinations is treated according to the appropriate theory employed in ABAQUS/Standard. To implement these constraints, an additional node is created internally for each slave node. For example, for revolute and universal constraints this additional node is used in a similar manner to the nodes required in the specification of the analog MPC types.
The additional internal node, described above, also reflects the motion of the slave node, relative to that of a fully constrained slave node in the following manner. Let be the position of the master node and be the position of the slave node in the reference configuration. The reference configuration position of the slave node with respect to the master node is then
This base vector rotation is made regardless of the choice of rotation constraint at the slave node. Constraint or release of slave node translation degree of freedom i can now be described as the constraint () or release of translation degrees of freedom on the additional node. With these constraints on , Equation 6.6.6–1 can be used to define the constraint equations.