![solidworks flow simulation key solidworks flow simulation key](https://www.engineersrule.com/wp-content/uploads/2015/12/sample-report.png)
You also have two options to continue, or to go back and edit the study parameters. This scale can be seen and edited within the top left of the graphics window. Note that the deformation is usually largely scaled up in order to display the results clearly. Once the study has been solved, the displacement of the geometry is automatically animated. Once you have chosen this you are now ready to run the study! This affects the accuracy of the results, so the finer the mesh, the higher the accuracy of results, but the time taken to solve is longer. So non-linear (plastic) deformation is not taken into account.īefore you run the study you have the ability to change the mesh settings. Note that running a study within SimulationXpress allows for linear static analysis only. Therefore a material must be applied to the part/body for the study to continue. In order for the study to calculate accurate stress and displacement results it requires the material properties, such as the elastic modulus and yield strength. This face is then populated with purple arrows displaying the area and direction of the load being applied. (Tip: Use the split tool command in order to specify the exact area the load is being applied to). In both cases, a face is the only selection available.
![solidworks flow simulation key solidworks flow simulation key](https://static.sdcpublications.com/images/covers/1000/9781585035892.jpg)
The next step is to apply a force or pressure to a particular area on the model. The face is then populated with green arrows explaining all 6 DOF have been removed, thus fixing the geometry.
![solidworks flow simulation key solidworks flow simulation key](https://pages.hawkridgesys.com/rs/499-VQL-975/images/solidworks-flow-simulation-datasheet-1.png)
As seen in Image 4, one face has been selected. This is necessary as no fixtures would result in the model “floating off into space” as Newton’s third law of motion states that each force must have an equal and opposite reaction force. The first step to running your analysis is to select where on your model you would like to fix the geometry. The wizard helps walk the user through setting up and running the study step by step, so even if you are unfamiliar with the process of running a FEA study, the fundamentals are explained thoroughly. Now that the product has been activated, the SimulationXpress wizard appears within the task pane on the right hand side of the interface. This then needs to be inserted into the window below the link on the activation window as seen in image 2.
#Solidworks flow simulation key code#
In order to activate the tool you need to select the link provided, which takes you to the SOLIDWORKS website, and as soon as you log into your customer portal account, a code is generated as seen in image 3. The first time it is loaded, the following screen appears: It can be found on the menu bar under “ Tools”, as seen here:Īlthough the tool is included within the install, it still needs to be activated.
#Solidworks flow simulation key software#
SimulationXpress is included with every SOLIDWORKS Standard and Professional software package. SOLIDWORKS Flow Simulation software takes the complexity out of flow analysis and enables engineers to easily simulate fluid flow, heat transfer and fluid forces so engineers can investigate the impact of a liquid or gas flow on product performance.SOLIDWORKS SimulationXpress is a basic finite element analysis (FEA) simulation tool enabling you to run basic linear static analyses of single bodied parts. SOLIDWORKS Flow Simulation enables true concurrent CFD, without the need for advanced CFD expertise. Product engineers and CFD experts alike, armed with the power of SOLIDWORKS Flow Simulation, can predict flow fields, mixing processes and heat transfer and directly determine pressure drop, comfort parameters, fluid forces and fluid structure interaction during design. Flow Simulation allow you to simulate liquid and gas flow in real world conditions, run “what if” scenarios and quickly analyse the effects of fluid flow, heat transfer and related forces on immersed or surrounding components. Design variations can be compared to make better decisions, resulting in products with superior performance. Additional valuable modules, HVAC and electronic cooling, offer dedicated fluid flow simulation tools so you can go to the next level for your analysis.īuilt to tackle CFD engineering challenges, SOLIDWORKS Flow Simulation enables engineers to take advantage of CAD integration, advanced geometry meshing capabilities, powerful solution convergence and automatic flow regime determination without sacrificing ease of use or accuracy.