Edge Chamfer

Edge Chamfer allows you to round the edges of a mesh, similarly to Edge Bevel. However, it has a few advantages over the Edge Bevel tool:

Edges are offset from the source in parallel, producing better geometry. You can toggle this behavior with the Offset in Parallel option in the Edge Chamfer Properties.

Edge Bevel

Edge Chamfer

Cleaner corner geometry compared to Edge bevel.

Edge Bevel

Edge Chamfer

Produces cleaner UVs by handling discontiguous edges better.

Edge Bevel

Edge Chamfer

Using Edge Chamfer

Direct Modeling

It's best to use the Modo or Model layouts when working with Edge Chamfer. This workflow example uses the Modo layout.

1.   In Edges selection mode, select the edges to round.
2.   Open the Model toolbar on the left panel and click the Edge sub-tab.

3.   Click Edge Chamfer, then click in the viewport to activate the tool.

A blue tool handle appears in the 3D viewport, indicating that the tool is active.

4.   Drag on the handle to adjust the inset, or click the Tool Properties button on the left panel to adjust the tool's settings.

For more information on the tool properties, see Edge Chamfer Properties.

Procedural Edge Chamfer

The Edge Chamfer mesh operation allows you to round edges on a mesh procedurally.

1.   In Edges selection mode, select the edges to chamfer.
2.   On the right panel, click the Mesh Ops tab.

Note:  If you're working in a layout where the Mesh Ops tab is not visible by default, click the + button on the right of the tab names, and select Data Lists > Mesh Ops.

3.   Click the Add Operator button, and under Mesh Operations, click Edge , then double-click Edge Chamfer.

A blue tool handle appears in the 3D viewport, indicating that the tool is active.

You can expand the Edge Chamfer mesh operation in the list by clicking the arrow in front of it. This reveals the inputs the operation uses:

Tool Pipe - Add falloffs and sub-tools to the operation.

Selection - Select edges or modify your existing selection. For more information on procedural selection, see Procedural Selection.

4.   Drag on the handle to adjust the inset, or open the Properties tab and adjust the tool's settings. To do this, select the Edge Chamfer mesh operation in the list. This opens the Properties tab on the right panel.

For more information on the mesh operation's properties, see Edge Chamfer Properties.

Edge Chamfer in the Schematic

You can also use Edge Chamfer when working in the Schematic viewport.

Note:  For more information on working with Schematic viewport in general, see Schematic Viewport.

To open the Schematic viewport:

In the Modo layout, click the thin gray line below the 3D viewport, and click the Schematic viewport button.

OR

Switch to the Setup layout from the menu bar by clicking Layout > Layouts > Setup.

To use the Edge Chamfer node:

1.   Click Add..., and under Mesh Operations > Edge, double-click Edge Chamfer.

This adds the Edge Chamfer node to the viewport and opens its properties on the lower right panel. You can also see a blue tool handle appear in the 3D viewport, indicating that the tool is active.

Tip:  Selecting the edges in the viewport in advance adds the Select By Index selection operator containing your selection. You can edit the selection through the node by selecting it. This opens its properties in the lower right panel. For more information see Select by Index.

The node has the following inputs:

Tool Pipe - Add falloffs and sub-tools to the operation.

Selection - Select polygons or modify your existing selection.

Geometry - Any geometry that is affected by the tool.

2.   Drag the blue tool handle in the viewport or adjust the properties in the Properties tab to get the result you need.

Edge Chamfer Properties

Edge Chamfer has the following properties.

Offset

Specifies the chamfer inset or width, depending on what Mode option is used.

Mode

There are two ways you can use the tool:

Inset - Determines the distance away form the original edge. The inset is parallel to the source edge.

Width - Determines the actual width of the new chamfer.

Segments

The number of divisions for rounding the edge. This is similar to the Edge Bevel tool's Level property, but allows you to set an odd number of segments. The more segments you have, the smoother the chamfer.

Shape

Specifies the chamfer shape. The options are:

Round
The default shape.

Square
Creates parallel edges horizontally and vertically.

Sharp
Creates evenly inset edges.

Edge End

Specifies the shape created at the end of the selected edges. The following options are available.

Profile

Triangle Fan

Stop at Edge

When enabled, it prevents the geometry from overrunning when using a large offset size.

Auto Weld

When enabled, the new inset vertices on the same position are merged into one.

Disabled

Enabled

Offset in Parallel

Edge Chamfer offsets edges from source position in parallel. When Offset in Parallel is disabled, new vertices are placed along the edge at the specific offset distance from the source vertex, similar to the Edge Bevel tool.

Disabled

Enabled

Offset along Coplanar Edge

Coplanar edges are edges that connect two polygons on the same plane.

Usually, coplanar edges are unnecessary edges in beveling. Edge Chamfer hides coplanar edges before chamfering and computes the inset vector from incoming and outgoing edges at the vertex on the face.

However, sometimes you need to inset vertex positions along coplanar edges. Offset along Coplanar Edge allows you to offset vertex positions along connecting coplanar edges.

Source Mesh

Disabled

Enabled

Use Material

When enabled, you can choose an existing material to apply to all newly created geometry. When disabled, the tool uses the neighboring material.

Material Name

When Use Material is enabled, you can select the material to be used from this dropdown.

Depth

Adjusts the roundness of chamfered edges. 100% is the default value for round bevel. 0% makes round positions flat and -100% produces a negative radius.

Depth 100%

Depth 0%

Depth -100%

Coplanar Flatness

Edge Chamfer hides all coplanar edges before modifying the edge, to remove unnecessary complexity. This is the threshold value to detect coplanar edges.