This module introduces the concept of mesh convergence by seeing how the size of elements affects stresses, strains and displacements. Learn how changing the global element size affects the results. Discover how to apply mesh controls at specific locations. See how sharp corners can produce stress concentrations.
Bend a sheet metal part by using a line sketched on a flat portion of the sheet metal body. Bend a sheet metal part in two locations using separate sketches. Sketch bend lines.
Use Volume features to recognize geometry that does not match any other feature type. The volume feature can be replaced with a standard SOLIDWORKS feature. Recognize volume features. Recognize boss and cut revolve features. Use the Up To Face option with cut extrudes. Replace volume features with standard cut features. Edit the mapped features.
Learn about how SOLIDWORKS Simulation can help you analyze the nonlinear static structural behavior of your part and assembly models. Review the basic functionality, review the difference between small linear displacement and large nonlinear displacement, use force control and displacement control methods, and see the effects of material nonlinearity and mesh quality on the stress results.
Determine if proper draft exists in a part to be molded. Without proper draft, the part may fail to successfully eject from the mold. Evaluate draft on a molded part. Examine the different classes of drafted faces.
Explore the differences between solid and surface bodies and learn why surface modeling can be a solution to challenging modeling tasks. Understand the difference between a surface and solid body in SOLIDWORKS. Learn why surface modeling should be used.
SustainabilityXpress estimates a models carbon footprint, energy consumed during its lifecycle, Air acidification, and water eutrophication. Information is analyzed such as the material used, maufcturing process, manufacturing region, use region, and end of life. Explore how different materials and manufacturing processes affect the environmental impact for a design Specify product use information to determine values for transportation and end of life. Understand the information displayed in the Environmental Impact charts. Learn how to set an environmental impact baseline to compare changes to. Generate a report of the Sustainability output.
Calculate values in a bill of materials table using equations. Use various functions such as IF, AVERAGE, COUNT, and so on to calculate the data. Calculate the total cost by multiplying the unit cost times the quantity. Determine the sum of the costs of all of the components in an assembly.
Create a side core with draft from sketches on molds with trapped molding areas. Use feature freeze bar to exclude features from being rebuilt. Create side cores on molds. Exclude features from being rebuilt.
Create and modify splines using spline points, relations, control polygons, and spline handles. Splines can have multiple spline points or as few as two spline points. Sketch with splines. Edit the number of spline points. Modify the shape of splines with relations, control polygons, and spline handles.
Create platform attributes and map SOLIDWORKS properties to platform content. Review platform content types generated from SOLIDWORKS files. Add and deploy attributes to platform content. Map SOLIDWORKS properties to content attributes. Validate attribute mappings.
Create the first part for the assembly portion of the Certified SOLIDWORKS Professional sample exam. Create a part for the assembly using the views and dimensions on a drawing. Obtain the center of mass of the part based on a reference coordinate system.
A parting line borders the surfaces that belong to the core and the cavity of a mold. Learn to automatically select a parting line or manually select one for more complex models. Learn how to scale parts to adjust for shrinkage. Perform a Draft Analysis to display faces with positive and negative draft. Create a parting line feature manually and automatically.
Learn different ways to manage drawings in DraftSight. How to create a new drawing Create a custom template Export a drawing to a PDF Save and reserve a drawing in the 3DEXPERIENCE
Learn about the segments that make up the Certified SOLIDWORKS Professional exam. Identify the three segments of the exam: Part Modeling, Configurations and Part Modifications, and Assembly Modeling. Understand that you can take each segment as many times as necessary, after a waiting period between attempts has elapsed.
Create assemblies by adding and orienting existing parts in an assembly. Add mates to connect the components. Create a new assembly from a part. Introduce the assembly FeatureManager design tree. Insert components into the assembly. Move and rotate components. Add mates between components.
Learn about the Certified SOLIDWORKS Professional Advanced Sheet Metal exam. Understand some of the SOLIDWORKS skills you need to achieve certification. Review some of the questions from the sample exam.
Explore and configure the platform settings for content access rules and maturity. Understand the lifecycle of SOLIDWORKS content. Examine the settings to configure access to content. Add a transition to a maturity graph. Add a control rule to a transition.
Discover how to analyze a portion of a larger assembly to save time and to get more accurate results using submodeling. Create a submodel study from a parent study. Discover how loads transfer automatically into a submodel study. Save time and computational resources while maintaining accurate results. Use eDrawings to save the results.
This module explains how to use the Auto Dimension Scheme. Define Prismatic and Turned parts. Use the Auto Dimension Scheme to apply Plus and Minus tolerances. Use the Auto Dimension Scheme to apply geometric tolerances. Reassign Product and Manufacturing Information (PMI) to new Annotation Views.
Learn to use a grid system, which is a type reference geometry, to represent a skeleton of structural members. Create a grid system to represent the center lines of structural members.
Use a boundary surface to fill in gaps between other surfaces. Understand some of the similarities between boundary surfaces, lofts, and filled surfaces. Delete some undesirable geometry from a surface model and fill the gap with a boundary surface.