Cylindrical
A cylindrical joint is a two degree-of-freedom kinematic pair used in mechanisms. Cylindrical joints provide one translation and one rotation function. They are commonly used in many places, such as shock absorber tubes and rods and hydraulic cylinder/rod pairs.
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If the Joints panel is not currently displayed, select the desired joint by
clicking on it in the Project Browser or in the modeling window.
The Joints panel is automatically displayed.
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From the Connectivity tab, click Body
1 and pick a body from the modeling window, or double-click Body 1 to open the Model Tree (from which the desired body can be
selected).
Note: If the selected joint is a pair entity, first distinguish between the Left and Right tabs in the panel, and then edit the properties. When defining a pair joint, use pair entities for Body, Origin, etc.
- Similarly, click Body 2 and select the desired body from the modeling window (or use the Model Tree).
- Click the Point collector (under Origin) and select a point from the modeling window, or double click the Point collector to open the Model Tree (from which the desired point can be selected).
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Specify the alignment axis for the joint.
- Point - Select a point that lies along the desired alignment axis in the modeling window or double-click Point and choose a point from the Model Tree.
- Vector - If the alignment axis for the joint is along any of the global axes, then the global x, y,or z axis can be selected by clicking on the desired axis in the modeling window (or by double-clicking Vector and browsing through the Model Tree).
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Define initial conditions.
- Click the Initial Conditions tab on the panel.
- Select the Translation and/or Rotation check boxes.
- Enter values for displacement and velocity.
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Specify the frictional properties for the joint.
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Activate the Use Friction
check box from the Friction Properties tab.
The Friction Properties tab displays.
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Specify the friction coefficients, effect
options, and geometrical parameters.
- The Stiction Transition Velocity determines the velocity at which the friction regime transitions from stiction to dynamic friction.
- Force Preload: Specify the preload force in the joint (*if a preload effect is activated).
- Pin Radius: Specify the pin radius for a revolute, cylindrical, or universal joint.
- Torque Preload: Specify the preload torque in the joint (*if a preload effect is activated).
- Initial Overlap: Specify the initial overlap of the sliding bodies connected by the joint.
- Overlap Delta: Specify the overlap of the joint, as the connecting bodies slide.
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Click the LuGre Parameters tab and input desired
values.
MotionSolve uses the LuGre (Lundt-Grenoble) model for friction. Refer to the MotionSolve Force_JointFriction modeling statement for additional details.
- Bristle stiffness: Specify the bristle stiffness in the LuGre model. This models the stiffness resisting micro-deformation in the friction element.
- Damping Coefficient: Specify the damping coefficient for the pre-displacement (or stiction) regime. This damps out bristle vibrations in the pre-displacement regime.
- Viscous Coefficient: Specify the coefficient for the viscous damping force that occurs when relative sliding actually begins. This is responsible for the increase in friction force with the increase in the slip velocity.
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Activate the Use Friction
check box from the Friction Properties tab.