UNIVERSAL

ProductsAbaqus/StandardAbaqus/ExplicitAbaqus/CAE

Description

A UNIVERSAL connection constrains the rotation about the shaft directions at two nodes. The shaft directions at nodes a and b are $e_{2}^{a}$ and $e_{2}^{b}$ , respectively. A UNIVERSAL connection requires that local direction $e_{1}^{a}$ be perpendicular to $e_{3}^{b}$ . This single constraint is written

$e_{1}^{a} \cdot e_{3}^{b} = 0 .$

This constraint is equivalent to constraining the second Cardan angle to be zero in a Cardan angle parameterization of the local directions at node b relative to those at node a. If the initial orientation directions at node b do not satisfy the above constraint condition, the universal constraint will hold the second Cardan angle fixed at its initial value.

The constraint moment imposed by the UNIVERSAL connection is

$\bar{m} = m_{2} (\cos α e_{2}^{a} + \sin α e_{3}^{a}) .$

A UNIVERSAL connection allows two free rotational components of relative motion between two nodes. The first and third Cardan angles that position local directions at node b relative to those at node a are

$α = - \tan^{- 1} (\frac{e_{2}^{a} \cdot e_{3}^{b}}{e_{3}^{a} \cdot e_{3}^{b}}) and γ = - \tan^{- 1} (\frac{e_{1}^{a} \cdot e_{2}^{b}}{e_{1}^{a} \cdot e_{1}^{b}}) .$

The two available components of relative motion for the UNIVERSAL connection, $u r_{1}$ and $u r_{3}$ , are the changes in the two unconstrained Cardan angles when the second Cardan angle is fixed. Therefore,

$u r_{1} = α - α_{0} and u r_{3} = γ - γ_{0},$

where $α_{0}$ and $γ_{0}$ are the initial Cardan angles. The connector constitutive rotations are

$u r_{1}^{m a t} = α - θ_{1}^{r e f} and u r_{3}^{m a t} = γ - θ_{3}^{r e f} .$

The kinetic moment in the UNIVERSAL connection is

$m_{u n i v e r s a l} = m_{1} e_{1}^{a} + m_{3} e_{3}^{b} .$

Friction

When used by itself, there is no predefined Coulomb-like friction in the UNIVERSAL connection. However, when the UNIVERSAL connection is used in combination with the JOIN connection type, the predefined friction is the same as the UJOINT connection.

Summary


UNIVERSAL
Basic, assembled, or complex:	Basic
Kinematic constraints:	$e_{1}^{a} \cdot e_{3}^{b} = 0$
Constraint moment output:	$m_{2}$
Available components:	$u r_{1}, u r_{3}$
Kinetic moment output:	$m_{1}, m_{3}$
Orientation at a:	Required
Orientation at b:	Optional
Connector stops:	$θ_{1}^{m i n} \leq α \leq θ_{1}^{m a x},$
	$θ_{3}^{m i n} \leq γ \leq θ_{3}^{m a x}$
Constitutive reference angles:	$θ_{1}^{r e f}, θ_{3}^{r e f}$
Predefined friction parameters:	None
Contact force for predefined friction:	None