How to Make SOLIDWORKS Motion Analysis Faster
In this article, we’ll look at some of the ways to speed up SOLIDWORKS motion analysis. By increasing the number of calculations between frames, it will be easier to create more complex machines. In particular, we’ll discuss the use of solid body contacts and bushings, which prevent the parts from penetrating each other. In addition, we’ll discuss the advantages and disadvantages of motion analysis.
Motion analysis allows for more complex machines
Performing a solidworks motion analysis enables you to design more complex machines. With the motion analysis software, you can design and simulate motion for complex machines and even assemble parts with minimal effort. The process begins by creating a template. This template allows you to reuse parts and setups for different machines and assemblies. Then, you can modify that template to fit different requirements. The final design can be exported to Solidworks as an.avi file.
Another feature of SOLIDWORKS Motion is its ability to model forces, allowing you to create CAM curves for complicated machines. You can use this program to model interactions between gears, which are commonly used in power transmission and motion control. It can also perform basic suspension tuning for racing applications. You can use various types of joints, including linear springs and non-linear springs. The software even has a built-in library to store data on different types of springs, dampers, and other mechanisms.
It allows you to define specific motor timings
SOLIDWORKS Motion analysis allows you to specify motor timings by using expressions, such as time versus distance, velocity, or acceleration. Typically, companies have several different timings and should define a network folder with a backup for all of the files. It is recommended to have someone with administrative rights manage the timings for every company’s project. This way, they don’t accidentally change the timings.
You can start by selecting the “Motor” part and then clicking “Motor Properties Manager”. Then, double-click on the Motor PropertyManager pane and choose the desired settings. For example, in the first five seconds of the simulation, you want to adjust the arm to a 65-degree angle. After you’ve chosen these settings, you can change the motor’s speed and distance by right-clicking it. Then, press the Calculate button again. You’ll see the result of your changes in the next few minutes.
It uses solid body contacts
When it comes to using SOLIDWORKS Motion to simulate motion, a common misunderstood feature is solid body contacts. While you might not realize it, solid body contacts are a very common and everyday experience that many SOLIDWORKS users translate into their computer model. Contacts, on the other hand, are important in allowing the software to capture real-world interactions. In the following, we’ll discuss how solid body contacts can help you.
To use the Contact feature, select the first body and the second one. You can select more than one unique assembly component for a single contact. In the Advanced Motion Analysis tab, you can also define whether or not a Solid Body Contact exists between the selected bodies. By default, SOLIDWORKS will assume the first body will make of dry rubber while the second body will make of dry steel. To make sure the Contact feature works, select a higher accuracy level and set the time step resolution.
It uses bushings to prevent parts from penetrating each other
Bushings are an important feature of Solidworks motion analysis. They are the equivalent of flexible mates and can thought of as a spring and damper system. In SOLIDWORKS Motion, a single constraint can constrain the motion of parts on one degree of freedom. By setting the stiffness of a bushing, the solver can constrain the motion of parts along a specific degree of freedom.
Motion Analysis is a powerful tool that allows engineers to study mechanical performance of a rigid body mechanism. By simulating the operational movements of a mechanism, SOLIDWORKS Motion can help engineers improve the design of a product. The software also allows engineers to simulate the effect of force, springs, and gravity on a part’s performance. By using motion analysis, engineers can optimize their designs for efficiency and performance.