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.
Lesson
3 years ago
ENG
JPN
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.
Lesson
3 years ago
ENG
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.
Lesson
3 years ago
ENG
JPN
Discover the SOLIDWORKS Simulation product suite by exploring all of the modules. Analyze heat transfer and fluid flow using SOLIDWORKS Flow. Use Sustainability to reduce the environmental impact of your designs. Explore stress-strain analysis using SOLIDWORKS Simulation. Analyze rigid body dynamics using SOLIDWORKS Motion. View the fill patterns of plastic injected parts using SOLIDWORKS Plastics.
Lesson
2 years ago
ENG
Loft creates a feature by making transitions between profiles. A loft can be a base, boss, cut, or surface. By specifying constraints and connection parameters, the desired result can be achieved. Create basic loft feature between two profiles. Refine the shape with a centerline curve, end constraints, and connection points. Select loft profiles and connection points correctly.
Lesson
2 years ago
ENG
JPN
When edges of a part are too close to allow for fillets to be created properly, often making use of separate solid bodies can help. Separate features into separate solid bodies. Apply fillets to the individual bodies. Use the Combine command to add the bodies back together. Apply an additional fillet to the part to complete the model.
Lesson
2 years ago
ENG
JPN
Create exploded views in multibody parts using some of the same tools that you use to create an exploded view in an assembly. Toggle between exploded and collapsed states. Edit the explode steps. Create more than one exploded view per configuration.
Lesson
2 years ago
ENG
JPN
When the internal cut features of a model are of most importance in a design, one approach is to create solid features that represent the negative space of a part. Once the negative space is complete, the Combine command can be used to subtract the volume from another solid body. Use solid geometry representing the interior space of a manifold to create the negative space of the part. Create a separate solid body surrounding the geometry as the main body of the manifold. Combine the solid bodies in the part using a subtract operation.
Lesson
2 years ago
ENG
JPN
Use the Move Face and Delete Face tools to modify non-parametric, imported geometry. Increase the size of a model by moving faces of the body. Remove and patch filleted faces of a model by deleting the faces. Increase the diameter of a cylindrical boss by offsetting the cylindrical face.
Lesson
2 years ago
ENG
JPN
Move the components within a sub-assembly using flexible sub-assemblies. Modify the component properties of a sub-assembly to change it from rigid to flexible. Drag components of a flexible sub-assembly in the main assembly to observe their motion. Learn about the impact that flexible sub-assemblies have on overall assembly performance.
Lesson
2 years ago
ENG
Use both bottom-up and top-down assembly modeling design techniques to insert and modify components in an assembly. Insert components into an assembly using a bottom-up approach. Modify a component using a top-down approach. Create a new component using a top-down approach.
Lesson
2 years ago
ENG
Understand the Certified SOLIDWORKS Professional exam. Identify the benefits of becoming certified. Learn about some of the SOLIDWORKS skills you need to achieve certification.
Lesson
2 years ago
ENG
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.
Lesson
2 years ago
ENG
Understand the prerequisites of the Certified SOLIDWORKS Professional exam. Learn what you can do to best prepare for the CSWP exam. Identify the areas of the SOLIDWORKS software that you should study.
Lesson
2 years ago
ENG
Update the parameters that control the overall shape and size of the part for the Certified SOLIDWORKS Professional sample exam. Manual edit individual dimensions and globally change the values of variables. Rebuild the model to ensure that all features update correctly.
Lesson
2 years ago
ENG
Create several types of derived drawing views and understand the unique characteristics of each view type. A derived drawing view is created by referencing an existing drawing view. Create a projected view by folding off an existing drawing view. Project a view normal to a selected edge to create an auxiliary view. Show a portion of a view at an enlarged scale using detail views. Create a drawing view relative to planes or planar faces in the model. Focus on a portion of a drawing view by cropping and hiding the unwanted entities. Shorten an existing drawing view using broken views.
Lesson
2 years ago
ENG
JPN
Use surface tools to create complex blends at the intersections of surfaces. The tools used in this module include trim surfaces, lofted surfaces, and fill surfaces. Trim surfaces using a sketch as the trim entity. Create a blend between surfaces using a lofted surface. Fill an area that is completely bounded by surfaces using the fill surface tool.
Lesson
2 years ago
ENG
JPN
Locate and diagnose problems in geometry imported from other CAD software. Then, use surface tools to repair the damaged geometry. Diagnose problems in a model with verification on rebuild, import diagnostics, and check entity. Heal faulty faces using the import diagnostics tool. Delete faulty faces and use various surface tools to re-create the geometry. Display curvature and check the minimum radius of curvature. Delete and replace fillets to create smoother blends. Extend, trim, and knit surfaces.
Lesson
2 years ago
ENG
JPN
Explore the Edge Flange feature, including edge selection, bend direction, and other pertinent options. Create an edge flange. Learn and understand the different options for edge flange.
Lesson
2 years ago
ENG
JPN
Sketch and loft between two sketch profiles to create a sheet metal part. Understand the requirements for the sketch profiles and the loft feature. Sketch the profiles for a lofted sheet metal part. Understand the requirements for a lofted sheet metal part. Set the thickness and bend line options.
Lesson
2 years ago
ENG
JPN
Create an edge flange along a combination of linear and non-linear edges. Create edge flanges along curved edges. Understand how the flange position must be chosen relative to other geometry to prevent sharp edges.
Lesson
2 years ago
ENG
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.
Lesson
2 years ago
ENG
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.
Lesson
2 years ago
ENG
FRA
DEU
JPN
ESP
CSY
ITA
KOR
PLK
PTB
RUS
TRK
CHS
CHT
Add each of the six mechanical mate types to control the degrees of freedom of components when designing mechanisms. Mate a cylinder, plane, or point to a series of tangent faces with a cam follower mate. Limit the rotational movement between two components with a hinge mate. Move one component linearly to move another component rotationally with a rack and pinion mate. Add a pitch relation between the rotation of one component and the translation of another with a screw mate. Rotate two components relative to one another with a gear mate or a universal joint mate.
Lesson
1 year ago
ENG
JPN