Creates a transition surface between two surfaces or sets of surfaces.
This pop-up menu controls the type of fillet.
Radius – Produces a rolling-ball fillet, where you control the radius value(s) at the center of the fillet or the position of the tangent lines (but not the width of the fillet).
Chord – Lets you control the distance between the two edges of the fillet, instead of the radius. Use the Chordal Length (or Tangent Length) option to set the distance to maintain.
This menu controls the shape of the fillet’s cross-section by imposing different continuity levels with the input surfaces on each side.
G0 Chamfer – Creates a chamfer edge between the two sets of surfaces. This type maintains only position continuity with the surfaces on either side.
G1 Circular – Creates a fillet with circular cross-section, tangent to both sets of surfaces. This type maintains tangent continuity with the surfaces on either side.
G2 Curvature – Maintains curvature continuity (G2) with both sets of surfaces. G2 continuity means that the curvature (which is the inverse of the radius of curvature) is the same on both sides across the fillet’s boundaries.
G3 Curvature – Maintains G3 continuity with both sets of surfaces. G3 continuity means that the curvature’s rate of change is the same on both sides across the fillet’s boundaries.
When calculating the fillet, the V degree is adjusted so that the surface has enough CVs to provide the required continuity on both sides. Degree 5 is needed for G2 Curvature and degree 7 is needed for G3 Curvature.
Bias – Creates a fillet with a peak radius and tangent offset, the center of which is biased toward (closer to) one set of surfaces.
Lead – Creates a fillet with a peak radius and tangent offset that define the point of contact with the input surfaces. This type maintains tangent continuity with the surfaces on either side.
Moves the center rail of the fillet surface closer to one side. A value of 0 is centered. Negative values bias toward the first set of surfaces. Positive values bias toward the second set of surfaces.
This option is only available when Section Type is Bias.
This option is only available when the Section Type option is set to Bias , G2 Curvature or G3 Curvature.
None – Do not maintain curvature continuity.
Side 1, Side 2 – Make the fillet surface curvature continuous with the first or second set of surfaces.
Both: Make the fillet surface curvature continuous with both sets of surfaces.
If this option is checked, you can set the radius or chordal length/tangent length at different points along the length of the fillet.
This option and its related parameters are only visible if Construction Type is Radius.
For Bias and Lead section types, choose whether you want to specify the Peak Radius or the Knee Ratio.
For G1 Circular, G2 Curvature, and G3 Curvature section types, choose whether you want to specify the Center Radius, the Tangent Offset, or Both. Those values offer different ways of specifying the peak/center radius and/or lead distance.
If Specify is set to Center radius or Tangent offset, and you also set the Form Factor, the third parameter (either Tangent offset or Center radius) varies along the fillet. Both lets you specify both the Tangent Offset and Center Radius of the fillet, but not the Form Factor. The form factor is calculated automatically from these two values and varies along the fillet.
When Section Type is , this is the radius around the centerline of the fillet.
The Peak Radius slider appears only when Section Type is Bias or Lead, and Specify is set to Peak Radius. The peak radius is the minimum radius that the fillet is allowed to have at the top.
The Center Radius slider appears only when Section Type is G1 Circular, G2 Curvature, or G3 Curvature, and Specify is set to Center Radius. The center radius is the radius at the arclength center of the fillet.
If Variable Fillets is checked on, the Specify option becomes unavailable. You can only specify tangent offsets, not center radii.
Radius of a sphere that is tangent to both input surfaces at the endpoints (that is, contact points) of a given U-isoparm on the fillet.
When Variable Fillets is checked on, Default Tangent Offset is the initial tangent offset along the whole length of the fillet. You then add manipulators at various points along the fillet and specify different tangent offset values.
This option is only available when Construction Type is Radius.
This is the ratio between Peak Radius and Tangent Offset, that is Knee Ratio = Peak Radius / Tangent Offset.
It is only available when Section Type is Bias or Lead.
This parameter lets you adjust the shape of the fillet. It specifies the ratio between the lengths of the innermost and outermost CV arms of the hull in the V direction of the fillet. Values range from 0.1 to 2.0. The smaller the value, the sharper the bend in the fillet.
This option is only available when Section Type is G1 Circular, G2 Curvature, or G3 Curvature.
A G2 fillet with, left: form factor = 0.1, and right: form factor = 2.0.
Chordal length – a chordal length is specified in the field below.
Tangent length – a tangent length is specified in the field below.
This option is only available when Construction Type is Chord.
The distance to maintain between the two sides of the fillet, or the length of the tangent segment (see picture above).
This option is only available when Construction Type is Chord.
For G0 Chamfer section type only. Select this option to raise or lower the midpoint of the surface between two input curve sets so that the height or crown of the surface is proportional to the distance between the curves. The setting makes the surface degree 2 with a single row of CVs in the center. This option is not available when more than two curve sets are selected.
You can control the Proportional Crown directly on the surface.
Controls the height of the crown. The value corresponds to a percentage of the distance between the two rails. The slider ranges from 0.0 to 0.1, but larger values can be entered into the field.
Click the arrow of the proportional crown manipulator to Flip the crown direction directly on the model.
Gives you controls of the surface degree(s) and maximum number of spans in the new fillet surface.
These options are only available when Explicit Control is turned on.
The degree of the new fillet surface in the U direction (that is, along the surface edges). Enter a whole number from 2 to 9.
The degree of the new fillet surface in the V direction (that is, from one rail to the other).
This option is only available when Section Type is set to G1 Circular (values range from 3 to 6) or G2 Curvature (values range from 5 to 7).
If Surface Type is set to Multiple surfaces, this value specifies the maximum number of spans for each fillet surface. If Surface Type is set to Single surface, it specifies the maximum number of spans inside each pair of boundaries between the original surfaces.
This option is only available when Explicit Control is checked, and neither Bezier Surfaces nor Uniform Spans is checked.
Controls the number of spans for each fillet surface.
Maximum Spans/Deg uses the specified number of spans or less, if it achieves continuity, and reduces the degree of the surfaces if the continuity can be achieved with a simpler surface. Higher degree is used for areas of high curvature, and lower degree for less complex shapes.
Maximum uses the specified number of spans or less, if it achieves continuity.
Explicit uses the exact number of specified spans, regardless of whether continuity is achieved with a lesser number of spans.
Controls how the fillet surface(s) edges (in the V direction) meet up with the edges of the boundary surfaces.
Edge align – The tool tries to colinearly align the fillet surfaces’ edges or isoparms (for single surface) to the edges of the boundary surfaces in the V direction.
Extend – The fillet is extended so that it reaches to the end of the longest boundary surface, at its start and/or end.
Default or Free – The edges (in the V direction) of the fillet meet the boundaries at a 90 degree angle.
Clicking the labels on the model lets you cycle through all the possible values.
Possible flow control values for Start of fillet
Possible flow control values for Interior of fillet
When this option is selected, Start and End sliders appear in the control window, and arrow manipulators appear on the selected fillets. Drag these arrows to modify the extent of the fillets across the input surfaces.
Use these sliders to modify the extent of the fillet. Start and End values of 0.0 and 1.0 respectively, define the original extent.
Multiple surfaces – Multiple surfaces, corresponding to the boundaries between the original surfaces, are created. (Extra spans are added if necessary, and subject to Max. Spans, to meet tangent or curvature requirements.) This gives you much lighter fillet surfaces and better continuity with the original surfaces.
Single surface – A single fillet surface is built.
If curves-on-surface are created at the edges of the fillets (see Trim Type option below) they are segmented to correspond to the multiple fillet surfaces.
This option only appears if Surface Type is set to Multiple surfaces. If it is checked on, each surface will be a Bézier patch.
Bézier patches have a single span, and their maximum degree in the U direction is set through the Explicit Control section. The default is degree 5.
In the case of cross-knot insertion, the system will not allow spans to have a length smaller than this value.
Automatic – Automatically trims the original surfaces back to the contact line.
Curves-on-surface– Creates curves on surface along the contact lines, allowing you to trim manually.
Off – Does not trim the original surfaces.
Automatically updates the fillet surface as you change options.
If your surface is very complex and takes a long time to update, turn this option off and click the Update button when you want to update the surface.
The key can be used to interrupt lengthy surface fillet computations.
Displays a curvature comb plot across the resulting surface.
Checking on this option displays continuity locators between the output surfaces, indicating whether or not they are tangent continuous. Green T locators indicate that the surfaces are tangent continuous while red/yellow T locators indicate they are not.
The Continuity Angle fromPreferences > Construction Options is used when testing for tangent continuity, and a shared boundary is only checked if it doesn't present any gap larger than the Topology Distance tolerance (also found in Construction Options).
Only natural (non-trimmed) edges are checked.
Checks the continuity between surface patches when multiple surfaces are created. This is particularly useful when you use the Bezier option to create single-span surfaces, as you will typically be working at the production quality level and so you'll want to watch out for and fix any small continuity errors.
Restores your saved settings. If you have not saved custom options, Reset restores the installed option settings.
Updates the surface with the current settings when Auto Update is off.
Reverses any effects of the tool.
Resets the tool to begin a new surface.