Create a sketch driven pattern, table driven pattern, curve driven pattern, and a fill pattern. These patterns allow you to pattern features in non-linear or non-circular directions. Use sketch points to define a sketch driven pattern. Specify coordinates for a table driven pattern. Convert entities to create a sketch for a curve driven pattern. Distribute features within a boundary using a fill pattern.
Lesson
5 months ago
ENG
FRA
DEU
JPN
CHS
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.
Lesson
5 months ago
ENG
FRA
DEU
JPN
CHS
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.
Lesson
5 months ago
ENG
FRA
DEU
JPN
CHS
Create a pattern of one or more features or bodies in one or two linear directions. Unwanted instances can be left out of the pattern, and spacing and other dimensions may be varied. Create bi-directional linear patterns of existing features. Skip instances in a pattern. Vary parameters of pattern instances.
Lesson
5 months ago
ENG
FRA
DEU
JPN
CHS
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.
Lesson
5 months ago
ENG
FRA
DEU
JPN
CHS
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.
Lesson
5 months ago
ENG
FRA
DEU
JPN
CHS
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.
Lesson
1 year ago
ENG
JPN
Learn properties specific to sheet metal. Use the Sheet Metal feature to control sheet metal gauges, bend allowances, and Auto Relief options. Use the Sheet Metal feature to control sheet metal properties. Use a gauge table to control sheet metal gauges. Understand and use the 5 options to control the bend allowance. Use the Auto Relief feature to contol the type and location of relief cuts.
Lesson
1 year ago
ENG
JPN
Explore the use of clips to create routes. Guide a route using existing clips and add new clips during the creation of a new route. Guide a route using existing clips in an assembly. Add new clips from the Design Library during the creation of a new route. Use keyboard shortcuts to position and orient clips.
Lesson
1 year ago
ENG
JPN
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.
Lesson
1 year ago
ENG
JPN
Mirror Component creates opposite-hand, but otherwise identical, versions of parts or subassembies. Specify which components are mirrored and which are purely copied (i.e. fasteners, which should not be mirrored). The geometry of a mirrored component changes to create a truly mirrored version, known as an \"opposite-hand\" version. Mirror components about an assembly plane. Create mirrored versions of parts in an assembly. Create opposite-hand versions of parts.
Lesson
1 year ago
ENG
JPN
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.
Lesson
1 year ago
ENG
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.
Lesson
1 year ago
ENG
Add gussets to increase the strength and stability of welded models. Understand the options for gusset features including the profile shape, thickness, and so on. Add a gusset between two structural members.
Lesson
1 year ago
ENG
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.
Lesson
1 year ago
ENG
JPN
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.
Lesson
1 year ago
ENG
JPN
Create a cut list to organize the bodies in a weldment part. Add custom properties to the components of a weldment structure so the propertie appear in the cut list. Similar to a BOM in an assembly, the cut list provides details of the weldment members. Create and edit a cut list. Edit custom properties. Edit the material of the bodies in a weldment part.
Lesson
1 year ago
ENG
JPN
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.
Lesson
1 year ago
ENG
JPN
Create cuts on both folded and flattened sheet metal parts. Utilize the link to thickness and normal cut options. Convert a part to sheet metal and use a curve pattern to make multiple cuts on a cone. Create cuts on both folded and flattened sheet metal parts. Convert a part to sheet metal. Use a curve pattern to make multiple cuts on a cone. Utilize the link to thickness and normal cut options.
Lesson
1 year ago
ENG
JPN
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.
Lesson
1 year ago
ENG
JPN
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.
Lesson
1 year ago
ENG
JPN
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.
Lesson
1 year ago
ENG
JPN
Use the Split Route tool to add junction points to existing routes. Create geometry at the J-point to orient an in-line fitting. Use the Split Route tool to add a junction point to an existing route. Create 3D geometry at a junction point. Use 3D geometry to orient an in-line fitting.
Lesson
1 year ago
ENG
JPN
Manually create a 3D-sketched route using angled guides, lines, elbows, and the merge command for a case where Auto Route is ineffective. Use angled guides, lines, elbows, and the merge command to create a 3D sketch. Use a 3D sketch to manually create a route.
Lesson
1 year ago
ENG
JPN