MBD for ANSYS can be very beneficial for analyzing of the design of a vehicles  its dynamic behavior. The forces acting on the components of powertrain can be accurately predicted in ANSYS Workbench. Using MBD for ANSYS, the multibody dynamics of the entire system can be simulated. The complex nonlinear interactions caused by contact and joints between the components of the piston, valve and crank can be captured in the forces acting on any component of the system. Also, the different loads can be calculated from the different RPM contions. Then MBD for ANSYS can directly transfer the loads acting on any component into a structural analysis model in ANSYS Mechanical. If you are unable to watch this video, click the link below. (Watch youku video) Model Information Body : 7 Joint : 8 Force : 1 Expression : 2  

MBD for ANSYS can be very beneficial for analyzing of the design of a RobotArm and its dynamic behavior. The forces acting on the components of Robot can be accurately predicted In ANSYS Workbench. Using MBD for ANSYS, the dynamics of the entire system can be simulated. The complex nonlinear interactions caused by contact and joints between the components of the robot can be captured in the forces acting on any component of the robot system. Then MBD for ANSYS can directly transfer the loads acting on any component into a structural analysis model in ANSYS Mechanical. If you are unable to watch this video, click the link below. (Watch youku video) Model Information Body : 33 Joint : 36 Expression : 2

MBD for ANSYS can be very beneficial for analyzing of the design of an excavator. The forces acting on the components of excavator can be accurately predicted in ANSYS Workbench. Using MBD for ANSYS, the dynamics of the entire system can be simulated. The complex nonlinear interactions caused by contact and joints between the components of the excavator can be captured in the forces acting on any component of the excavator. Then MBD for ANSYS can directly transfer the loads acting on any component into a structural analysis model in ANSYS Mechanical. If you are unable to watch this video, click the link below. (Watch youku video) Model Information Geometry : 22 Body : 17 Joint : 22 Expression : 4

The forces applied to the locking plier by the hands of the user result in a distribution of significant forces on the tool. Using MBD for ANSYS simulation, a variety of input forces on the grips can be modeled and simulated numerically over a wide range of conditions to obtain an accurate range of distributions of forces over the tool without requiring a physical prototype in ANSYS Workbench. (Simulation in ANSYS environment) These resultant reaction forces at the various joints and connections in the tool can be transferred into a finite element model in ANSYS for structural analysis and durability analysis. If you are unable to watch this video, click the link below. (Watch youku video) The steps to use MBD for ANSYS Import the CAD file Create joints, spring and contact Define the gripping force as a driving force Simulate and review result (Simulation in ANSYS environment) Modify the parameters and compare the results Stanley adopted MBD for ANSYS as their multibody simulation software for Locking plier.

MBD for ANSYS can be very beneficial for analyzing the design of the components of the landing gear of an airplane. The forces acting on such a component can be accurately predicted in a simulation of the multibody dynamics of the landing gear system in ANSYS Workbench. Using MBD for ANSYS, the dynamics of the entire system can be simulated. The complex nonlinear interactions caused by contact and joints between the struts, torque links, axles, tires and the ground can be captured in the forces acting on any component. Then MBD for ANSYS can directly transfer the loads acting on any component into a structural analysis model in ANSYS Mechanical. If you are unable to watch this video, click the link below. (Watch youku video) Model Information Geometry : 22 Body : 17 Joint : 25 Force : 3 Contact : 3 Expression : 4

MBD for ANSYS can be very beneficial for analyzing of the design of the components of a cameras zoom lens mechanism. The forces acting on such a component can be accurately predicted in a simulation of the multibody dynamics of the zoom lens system. Using MBD for ANSYS, the dynamics of the entire system can be simulated in ANSYS Workbench. The complex nonlinear interactions caused by contact and joints between the gears, pins, cam curve tubes, and other parts can be captured in the forces acting on any component. Then MBD for ANSYS can directly transfer the loads acting on any component into a structural analysis model in ANSYS Mechanical. Animation of Camera Gear Train SimulationIf you are unable to watch this video, click the link below. (Watch youku video) Model Information Geometry : 10 Body : 0 Joint : 14 Force : 0 Contact : 2 Expression : 1

MBD for ANSYS can be very beneficial for analyzing the design of an intake or exhaust valve of an automobile engine. The forces acting on a valve can be accurately predicted in a simulation of the multibody dynamics of the engine system in ANSYS Workbench. Using MBD for ANSYS, the dynamics of the entire engine system can be simulated. The complex nonlinear interactions caused by contact and joints between the camshaft, the lifters, springs, retainers, and the valve will be captured in the forces acting on the valve. Then MBD for ANSYS can directly transfer the loads acting on the valve into a structural analysis model in ANSYS Mechanical. If you are unable to watch this video, click the link below. (Watch youku video) Model Information Geometry : 7 Body : 0 Joint : 5 Force : 4 Contact :1 Expression : 1

MBD for ANSYS can be very beneficial for performing a structural analysis of the carrier in a planetary gear system that is rotating high-speed. The forces acting on a gear carrier can be accurately predicted in a simulation of the multibody dynamics of the gear system. A wide range of differing conditions can be simulated in ANSYS Workbench environment Then MBD for ANSYS can directly transfer the loads acting on the carrier into a structural analysis model in ANSYS. If you are unable to watch this video, click the link below. (Watch youku video) Model Information Geometry : 9 Body : 0 Joint : 9 Force : 0 Contact : 9 Expression : 1

MBD for ANSYS can be very beneficial for analyzing of the design of the components of a “4D” motion seating system. The forces acting on the components of these seats can be accurately predicted in a simulation of the multibody dynamics of the motion seating system. Using MBD for ANSYS, the dynamics of the entire system can be simulated. The complex nonlinear interactions caused by contact and joints between the various parts of the seat can be captured in the forces acting on any component. Then MBD for ANSYS can directly transfer the loads acting on any component into a structural analysis model in ANSYS Workbench. If you are unable to watch this video, click the link below. (Watch youku video) Model Information Geometry : 27 Body : 0 Joint : 29 Force : 0 Contact : 0 Expression : 5

MBD for ANSYS can be very beneficial for analyzing of the design of the components of a manually-operated automobile clutch. Take the bell crank, for example. The forces acting on the bell crank can be accurately predicted in a simulation of the multibody dynamics of the clutch system in ANSYS Workbench. Using MBD for ANSYS, the dynamics of the entire system can be simulated. The complex nonlinear interactions caused by contact and joints between the various parts of the clutch can be captured in the forces acting on the bell crank. Then MBD for ANSYS can directly transfer the loads acting on any component into a structural analysis model in ANSYS Mechanical. . If you are unable to watch this video, click the link below. (Watch youku video) Model Information Geometry : 14 Body : 0 Joint : 17 Force : 4 Contact : 3 Expression : 2 Click edit button to change this text.