This module covers advanced DimXpert techniques. It covers how to leverage multiple configurations to organize Product and Manufacturing Information (PMI). Understand Intersection Geometry. Use the Auto Dimension Scheme to create polar dimensions. Create multiple configurations for organized PMI. Use the Copy Scheme tool to transfer PMI from one configuration to another. Import DimXpert Annotations into a 2D drawing.
Create fillet beads and weld beads in a part. Learn the advantages of and differences between both features. Understand when to use each kind of weld. Create fillet beads and weld beads. Understand the advantages and disadvantages of each feature as well as when to use them. Use intermittent and staggered welds.
Use sketch relations to fully define a sketch and capture design intent. Learn about automatic sketch relations and sketch relations that you add manually. Add relations between two lines to understand common sketch relations. Add relations between circles and arcs to observe additional sketch relations.
Exploded views can be created in assemblies to assist in detailing and visualizing components. Learn how to create an exploded view in an assembly. Use the options within the Exploded View command to explode single and multiple components. Understand the options for exploding sub-assemblies. Automate spacing for multiple components in a chain explode step. Learn how to animate explode steps.
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.
Interrogate a part using rollback to understand how it was created. Change the sequence of features and edit features, sketches, and sketch planes. Roll forward through an existing part. Reorder a feature in the FeatureManager design tree. Understand parent/child relationships. Edit sketches and features.
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.
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.
Global variables declare a named value that dimensions can be set equal to or that can be used in equations. Equations are mathematical expressions that can define dimension values as well as relate dimensions to each other. Create global variables. Use global variables to set fillet features to be equal radii. Use global variables in equations. Use equations to control dimension values.
A structural member profile is a cross-section of a beam, tube, channel, or other structural member type. Sweeping this profile along segments of a layout sketch creates the structural member\'s geometry. There are full collections of profiles and sizes available for download, and it is also possible to create customized profiles. Learn how to access the additional content for standard structural member profile sizes. Create a custom weldment profile by saving a sketch as a Library Feature Part. Use the Structural Member command to create a structural member from a structural member profile. Use the Locate Profile option to choose a sketch point for aligning a structural member.
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.
Close the corners of a sheet metal part by extending and trimming faces. Understand the different closed corner types. Extend the faces of one flange to meet with the angled faces of another flange.
Explore gauge tables and bend tables which store default values of specifc parts. Populate and utilize sample tables provided during installation. Create and customize the sample tables to meet your own needs. Customize and create bend tables. Understand the use of gauge tables and bend tables.
Utilize sheet metal and weldment features in one part using a multibody part. Use fillet and weld beads on sheet metal parts. Create a sheet metal fixture on a weldments part. Use filllet beads and weld beads on a sheet metal part.
Export sheet metal bodies to .dxf or .dwg files. Examine and edit parts in the DXF/DWG Cleanup window. Export sheet metal bodies to .dxf or .dwg files. Examine and edit parts in the DXF/DWG Cleanup window.
Add a jog to an existing flange. A jog adds material to a sheet metal part by creating two bends and a flat from a sketch line. The mirror feature adds symmetry in sheet metal designs. Add a jog to an existing flange. Incorporate symmetry in sheet metal designs. Position a jog.
A multibody sheet metal part has multiple sets of specific sheet metal features in the same feature tree. There are also multiple flat pattern features. The cut list shows each individual body. Learn the process for creating a multibody sheet metal part, and also some of the uses of such a part. Use sheet metal tools to create a new sheet metal body. Use a linear or circular pattern, mirror, or move/copy to duplicate a body. Use Insert Part to add a body into an existing sheet metal part. Divide a sheet metal body into multiple bodies. Learn some of the basic uses of multibody sheet metal design.
The Design Library contains a number of sample forming tools, including embosses, extruded flanges, lances, louvers, and ribs. Learn to use these standard tools, as well as to create your own simple custom tools, to meet design needs. Drag and drop standard forming tools from the Design Library to form a sheet metal part. Edit a standard forming tool, customizing it to meet individual design needs. Set the stopping face and faces to remove within a part to be used as a custom forming tool.
Create a swept flange using profile and path sketches. Create profile and path sketches for a swept flange. Use the Swept Flange feature to create a swept flange. Define sheet metal parameters within the Swept Flange tab.
Create folded hems on sheet metal parts to strengthen parts and eliminate sharp edges. Use the hem tool to edit the size, type, direction, and length of hems. Add folded hems on sheet metal parts. Practice creating hems and editing the type and dimensions.
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.
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.
