Understand how to start routing and how the route subassembly organizes and stores the components of a route. Enable the Routing add-in. Locate the Piping, Tubing and Electrical menus. Understand a routing subassembly. Identify routing library components. Use the routing library manager to load settings.
Learn how to optimize designs to reduce model weight by varying model dimensions. Apply parameters and constraints to optimize your design to meet goals. Learn how design studies are used with Simulation.
Observe stress analysis of a part using SimulationXpress to determine the deformation of the part under the influence of a load (force or pressure). Understand the assumptions and limitations of SimulationXpress. Observe stress analysis being performed on a part.
Automate the conversion of imported part geometry into a SOLIDWORKS feature-based, parametric model. Open an imported data file in SOLIDWORKS. Use the Import Diagnostics tool to repair imported geometry. View the FeatureWorks options. Use the Automatic feature Recognition Mode. Map the features to the part model. Guide the Automatic Recognition Mode for the best results.
Discover how to create groups, split parts, use the Preview Options, and, for SOLIDWORKS Visualize Professional users, add “Baked Lighting” to a project. Located in the Models Tab, the Scene Tree is the keeper of your 3D data and can help organize your project. Explore all the options and features available in the Models Tab. Learn how to organize your model into parts and groups to make complex animations much easier. Use the handy Part Splitter tool for extracting parts directly within Visualize to apply separate appearances. Understand the benefits of Baked Lighting for realtime presentations.
Learn how shells are used to model thin structures. Create shells on thin structures using the shell manager. Apply symmetry fixtures to reduce computational efforts.
Create a sheet metal part of constant wall thickness using sheet metal features. Explore the fundamentals of creating sheet metal parts using the flange method. Create a base flange in a sheet metal part. Understand the use of gauge tables and sheet metal options. Flatten a sheet metal part.
Understanding the import process into SOLIDWORKS Visualize is essential to working efficiently, and can be controlled by both the import settings and the organization of the original CAD file. Learn the two most common import settings to setup the Visualize project for different workflows; one to make the model quick and easy to work with and the other to allow for live updates and more flexibility with the model grouping. Learn how to best prepare your CAD file for the desired Visualize experience. Understand how to efficiently import models into Visualize by selecting the appropriate Import Settings. Utilize CAD Live-Update for a seamless design process.
Create a weldment frame from a series of layout sketches. The weldment environment uses standard weldment profiles to define the type of structural members in the weldment. Members of the same type and size are created in one feature. Create a weldment frame. Insert structural members. Relocate the profile sketch. Change corner treatments.
Model parts in the context of an assembly, using references to other components to complete the design. The design intent for new parts (sizes of features, placement of components in the assembly, etc.) comes from other components in the assembly. Build a virtual part in the context of an assembly by employing Top-Down assembly modeling techniques. Create features in the assembly context by referencing geometry in mating parts. Understand InPlace mates and external references. Identify external references in the FeatureManager design tree.
Install and use the testing software that you use to take any of the SOLIDWORKS certification exams. Download the Tester Pro Client software. Explore the user interface and critical aspects of the test taking experience.
The Hole Wizard feature creates standard-sized holes according to ANSI, ISO, and other international standards. Hole type, size, and placement location are input by the user. Create hole wizard holes. Learn the elements and options of a wizard hole. Create multiple holes in the same feature.
Create a drawing from an existing part file, insert basic views, and insert and manipulate dimensions and callouts. Make a basic drawing of a part. Insert standard views. Import dimensions from a model into a drawing. Make a change to a dimension. Demonstrate the associativity between the model and its drawings.
Trim sketch entities to remove unwanted geometry. Trim sketch entities by their proximity and intersections with other sketch entities. Trim sketch entities using Power, Corner, Closest, and Inside and Outside options.
Insert driving dimensions into a sketch using the versatile Smart Dimension tool. With a single tool, you can create radial dimensions for arc, linear dimensions between two points, and more. The dimension that appears depends on the entities you select. Insert linear, angular, radial, and other dimensions. Modify dimensions. Move and reattach dimensions.
Use the ConfigurationManager to add configurations and modify the part by controlling the suppression state of features and by configuring dimensions. Use the ConfigurationManager to add configurations to a part. Suppress features to represent a different version of the model. Configure dimensions to create different size versions of the part.
Use the sketch tools Convert Entities and Offset Entities to reference sketch entities and model geometry to create new sketch entities. If the original geometry changes, then the converted and offset entities also change. Create converted entities into a new sketch. Create offset entities. Create a slot using offset entities.
Create reference planes in any orientation using existing reference and solid geometry. You use reference planes for sketching or as a reference for other features. Create reference planes in a variety of orientations from different reference selections. Create reference planes from one or more geometric references.
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.
Extend sketch profiles to create extruded bosses to add material and extruded cuts to remove material. Use sketch relations and dimensions to define sketch profiles. Understand some of the options for extruded features. Add material with an extruded boss and remove material with an extruded cut.
Understand the difference between starting a sketch on a plane or planar face. Create the first 2D sketch profile on a reference plane. Create additional 2D sketch profiles on planar model faces of the part.
Discover FloXpress to perform a first pass fluid flow analysis on a model using computational fluid dynamics (CFD). Understand some of the assumptions when using FloXpress. Explore the interface of FloXpress. Walk through
This module introduces the Simulation user interface and walks through the setup process for a simple part. The simulation is then run and the results are analyzed. Learn the Simulation user interface. Apply fixtures, materials and loads. Run the simulation and analyze the model for stress and displacement.