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.
Use the ConfigurationManager to add configurations to an assembly and show two versions of its components. Also, explore the advanced options of configuration properties. Use the ConfigurationManager to add configurations to an assembly. Use the advanced options of the configuration properties to control new components and mates. Create two versions of the assembly to represent different available components.
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.
Copy instances of one or more features or bodies by mirroring them across a reference plane or planar face. The resultant copy is reversed, as if seen in a mirror, maintaining symmetry. Create mirror patterns of features and bodies. Control results with geometry pattern option.
Add draft to cast and molded parts. Understand the various types of draft features you can create. Perform Draft Analysis to determine which faces need draft added to them.
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.
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.
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.
Use the Interference Detection tool to identify any overlap between parts in an assembly. Clearance between parts can also be detected using the Clearance Verification tool. Use the Interference Detection tool to identify interferences between assembly components. Explore the options available within the Interference Detection tool. Use the Clearance Verification tool to identify clearances between assembly components. Explore the options available with the Clearance Verification tool.
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.
Explore the Miter Flange feature, including sketching the profile, edge selection, and other pertinent options. Create a miter flange. Learn and understand the different options for miter flange.
Contour selection options allow individual contours to be selected within a sketch. By making use of contour selection techniques, a single sketch can be used to produce multiple features. Use the Contour Select Tool to pre-select contours for a feature. Use the Selected Contours options for a feature to define areas of a sketch to use. Use a single sketch to generate multiple features. Understand the icons displayed when using selected contours and sharing sketches.
Mirror existing sketch entities with the Mirror Entities tool or by adding symmetric relations. Or, dynamically mirror sketch entities as you create them. Mirror sketch entities that you previously created. Dynamically mirror sketch entities as you create them. Add symmetric relations to sketch entities to mirror the entities.
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.
Create basic, aligned, offset, and partial or half-section views, including scope and advanced properties. Add several types of section views to a drawing. Define section view properties. Modify section views.
Insert annotations into existing drawing views, including custom notes, geometric tolerances, and blocks. Create annotations and symbols. Create blocks from geometry and notes. Save a block to a file. Insert a block into a drawing.
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 fillets and chamfers to modify geometry in a sketch. Set the size and options for the sketch fillets and sketch chamfers. Create fillets and chamfers in a sketch. Understand the options for creating sketch fillets and sketch chamfers.
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.
Create a pattern of one or more features or bodies in one or two circular directions. The circular direction is based on a cylindrical or conical face, a circular or linear edge, centerline or axis. Spacing of instances can be controlled in different ways. Create circular patterns of existing features. Vary spacing and range.
Add end caps to close openings at the ends of structural members. Create an end cap in a weldment part file. Set the offset values and shape of the end cap.
Use extruded, revolved, and swept surfaces to create geometry. Trim, extend, knit, and thicken the surfaces to finish the thin-walled model. Extrude a sketch to create a surface. Revolve a sketch about an axis to create a surface. Trim a surface using a sketch or another surface as the trim tool. Sweep an open profile along a path to create a surface. Combine multiple surfaces into a single body using knit surfaces. Thicken a surface body to create a solid body.
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.
Hollow out solid bodies using the Shell feature. Apply different wall thicknesses to selected faces. Select multiple faces to be removed in the shelling operation. Understand how the shelling operation affects filleted and rounded edges.