Profile objects are based on existing 2D objects. The original 2D profile remains unmodified by the 3D tool that references it.
One advantage to profile objects is that you can change them by simply editing the profile (or profiles) on which they are based. See Profile Editing.

Compound Profiles

Available in TurboCAD Pro and Platinum only

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Note: Compound profiles can be modified, which updates the 3D objects upon which they are based. See Profile Editing.

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Simple ExtrudeShape Extrude Shape Properties

The Properties window of an extrude object contains a Simple Extrude Shape page, in which you can set parameters defining how the object is created.

Height: The distance of the extrusion.

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Note: Text can be used as part of a compound profile while extruding.

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Twisted Extrude

Available in TurboCAD Platinum only

Creates a 3D object by extruding (sweeping) a 2D open or closed profile along a path normal to the workplane of the 2D object and imparting a twist. If you extrude an open profile, a surface will be created.

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Draft Start / End Distance: If Draft Angle = 0, you can specify a draft angle by entering the offset distances.

ffset: Creates a hole in the extrusion at a distance from the outside of the extrusion equal to the Offset value.

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Available in TurboCAD Pro, and Platinum Only
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Creates a 3D object by driving a 2D profile along a path.

1. Start with one or more 2D profiles. The profiles can be open or closed. Add a 2D or 3D path. Typically the path intersects the profile and is approximately perpendicular to it, but these conditions are not required.
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2. Activate Sweep. If the profiles consist of compound curves, make sure Use Compound Profile is active.
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3. Select the first 2D profile. If the profile is open, select Finish Selection of Path to end the selection. You can then select more profiles if necessary, by pressing the Shift key.
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4. Then select the 2D or 3D path over which you want to sweep the 2D profiles. If the sweep path consists of more than one curve, make sure Use Compound Path is active. When finished, click Finish Selection of Path.
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As stated before, the 2D profile and the sweep path do not have to intersect. However, the results will vary depending on how far apart the profiles are.
Consider this comparison, in which the profiles on the left intersect and the profiles on the right do not.
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Here are the Sweep results: the solid on the right is swept over the offset of the sweep path, and is therefore larger.
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Local menu

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options

  Rigid Sweep: Use this option if you want the cross-sections of the solid to remain parallel to the original swept profile.
This solid does not use Rigid Sweep; the cross-sections of the solid are always normal to the sweep path.
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This is the same solid using Rigid Sweep; the sections are always parallel to one another, and to the original profile.

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If you view the Rigid Sweep from this angle, you can see how the sections are parallel.
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Use Edge as Path: When this option is on you can use the edge of a 3D object as a path. You cannot use this option with a compound profile. (Available in TurboCAD Platinum Only)
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Use Loop as Path: When this option is on you can use the Loop of a 3D object as a path. A loop is all of the edges which enclose a single face of a 3D object You have to select the 3D object first, then its face. You cannot use this option with a compound profile. (Available in TurboCAD Platinum Only)
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Note: If you are trying to sweep by using a block as the path, you must have the Compound Path option turned on.

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Sweep Shape Properties

The Properties window of an sweep object contains a Sweep Shape page, in which you can set geometric parameters.
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For these parameters to be accessible, the sweep must be created as a solid. Available in TurboCAD Pro and Platinum only.
Twist Angle: The angle by which the sweep is twisted along the path.
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Corners: Defines how the joints of multi-segmented extrusions will be formed.

Default: Sharp corners.

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Bend: the rounding will be minimal.
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If you want a larger rounding radius, specify a Minimum Radius.
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Crimp: Keeps internal corners sharp, performs a minimal rounding on external corners.
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Draft Angle: Creates an extrusion of increasing or decreasing cross-section. Enter the angle of deviation from the extrusion path.
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Draft Start / End Distance: If Draft Angle = 0, you can specify a draft angle by entering the offset distances.
Sweep does not allow you to create a TC Surface.

Rail Sweep

Available in TurboCAD Pro, Platinum and Deluxe Only
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Creates a 3D object by driving a 2D profile along a path. The profile and path do not have to touch or be in different workplanes; the profile section will be "brought" to the start of the path, made normal to the path, and swept along it.
If you are going to use Compound profiles for both the path and the profile you will need a base point. The base point specifies the point though which the profile will follow the path. To create a base point, use the Point tool and place a point at the location adjacent to the profile that you wish to be used. For example, at the end of a line, or at the center of an arc or circle.

1. Start with one 2D profile. The profile can be open or closed. Add a 2D or 3D path. The path can lie anywhere, and in any workplane. In this example, profile and path lie in the same workplane.
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2. Activate Rail Sweep.
3. If the profiles consist of compound curves, make sure Use Compound Profile is active.
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4. Select the first 2D profile. If the profile is open, select Finish Selection of Path to end the selection. You can then select more profiles if necessary, by pressing the Shift key.
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5. If you are using a Compound profile for the profile you must specify the base point to be used. at this step. Select the point you created for this purpose.
6. Then select the sweep path. If the sweep path consists of more than one curve, make sure Use Compound Profile is active.
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7. The profile is brought to the path (at the base point if one is being used) and swept along it, normal to the path. The profile intersects the path at its reference point (see Components of Select Edit Mode).
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This tool is handy if you have a single profile that you want to sweep over multiple paths, or rails. In this example, there are three paths for the same profile:
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Here are the results:
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If you used a Compound profile for the profile, you will be able to modify the resulting 3D object by modifying the original profile object, or by moving the base point object. If you used a Compound profile for the path, you will be able to modify the resulting 3D object by modifying the original path object/s.
The sweep path does not have to be 2D. The path in this example was created using 3D Spline by Fit Points.
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This is the result:
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Local menu option 

 Rigid Sweep: Keeps cross-sections of the solid parallel to one another along the entire path.

Compound Profiles as Paths

You can also use a compound profile as a path
 

Revolve

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Creates a 3D object by revolving a 2D object about a revolution axis.
By default, the profile will be revolved 360 degrees, but you can change this angle or create a spiral.

1. If you want to select only a simple (single-object) curve, make sure Use Compound Profile is not selected. 
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2. If you want to select a line as the axis of revolution, make sure Select Revolve Axis is active.
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3. Select a 2D object to revolve.
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4. Select two points of a revolution axis, or, if Select Revolve Axis is active, select the axis line..
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   The revolved shape is created.
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You do not have to select a closed 2D object to revolve. If you use an open object, a 3D surface will result.
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Revolve with Compound Profiles
A compound profile is an open or closed chain of connected curves. You can use compound profiles when you do not want to create a polyline, or convert a chain into a polyline.

1. Make sure Use Compound Profile is selected.
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2. Select the compound profile, which is automatically identified as a chain. To deselect any curve in the chain, select it again (it will turn green). In this example, the profile is a series of connected lines, not a polyline.
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3. You can select more profiles if necessary. When the profiles are selected, click Finish Selection of Profile, or select it from the local menu.
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4. Select two points of a revolution axis, or, if Select Revolve Axis is active, select the axis line.
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   The revolved shape is created.
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   Note: Compound profiles can be modified, which updates the 3D objects upon which they are based. See Profile Editing.

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The Properties window of a revolve contains a Revolution Shape page, in which you can set geometric parameters.
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For the Solid parameters to be accessible, the revolve must be created as a solid. In the 3D page of the Properties window, make sure Solid is selected under Create Object As.

Spiral: The revolution will proceed outward in a spiral pattern.

Taper Angle: The revolution will have a draft angle, with the section increasing or decreasing at it progresses.
The remaining parameters (Common Options) appear for both surface and solid objects.

Angle of rotation: Enter a value less than 360 for a partial revolve.

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Spiral pitch: The lateral distance between the start and end of the revolve, enabling you to create a spiral. The angle of rotation must be 360.
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Number of coils: If Spiral pitch is nonzero, you can specify the total number of revolutions.
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Clockwise / Counterclockwise: Sets the direction of revolution. The direction depends on how the revolution axis was selected.
For TC Surface Options, see TC Surface Properties.

Lofting

Available in TurboCAD Pro and Platinum only
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Creates a 3D object by connecting 2D profiles. The profiles lie on different planes, and the planes do not have to be parallel. The profiles are connected using NURBS (Non-Uniform Rational b-Spline) calculations.
The profiles can be closed or open, but they must be consistent - all open or all closed.

1. If you want to select only simple (single-object) curves, make sure Use Compound Profile is not selected.
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2. Select the profiles, in the desired order. Selection order is important
3. Select Finish from the local menu, or double-click on the last profile, to create the loft.
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The loft has no sharp corners at the profiles.
To create corners, you can creates two separate lofts.
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If you use open profiles, a 3D surface will result.
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Lofting with Compound Profiles
A compound profile is an open or closed chain of connected curves. You can use compound profiles when you do not want to create a polyline, or convert a chain into a polyline.

1. Make sure Use Compound Profile is selected.
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2. Select the compound profile, which is automatically identified as a chain. To deselect any curve in the chain, select it again (it will turn green). In this example, Profile 1 is a series of connected lines, not a polyline.
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3. When the profile is selected, click Finish Selection of Profile, or select it from the local menu.
4. Select the next profiles using the same steps. If subsequent profiles are simple (not compound), you can turn off Use Compound Profile.
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5. When the last profile is selected, click Finish or select it from the local menu.
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   Note: Compound profiles can be modified, which updates the 3D objects upon which they are based. See Profile Editing.
    
6. Lofting with Guide Lines
   You can specify guides lines when creating the loft object. In this example, the lower circle and upper square are the loft profiles. The four curves between the profiles are guide lines.
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7. Activate Loft, and select the loft profiles in the desired order.
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8. Click Select Guide Lines, or select it from the local menu.
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9. Select each of the guide lines.
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10. Click Finish or select it from the local menu. The 3D object transitions between the loft profiles, following each of the guide lines.
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    Guide Lines
    Guide lines can be arcs, 2D or 3D Splines or lines. Beziers, and polyline cannot be used as guide lines. Guide line must touch every profile used in the loft. One end of each guide line must terminate on the first profile used in the loft The other end of that guide line must terminate on the last profile used in the loft. If guide lines do not meet these requirements they will be ignored.

Lofting Shape Properties

The Properties window of a loft contains a Lofting Shape page, in which you can minimize twist.
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Miinimize Twist
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Effect of Minimize Twist
For TC Surface Options, see TC Surface Properties.

Branched Lofting

Available in TurboCAD Pro and Platinum only
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Creates a lofting object by defining profiles along a trunk, and profiles along two or more branches. The profiles lie on different planes, and the planes do not have to be parallel. The result is one 3D object.

1. Select the profiles that define the trunk. The branching will start at the last profile of the trunk.
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2. Select Finish selection of trunk from the local menu or Inspector Bar.
3. Select the profiles that define the first branch, starting at the profile closest to the end of the trunk.
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4. Select Finish selection of branch.
5. Select profiles for additional branches the same way.
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6. When all branches are defined, select Finish. The lofting object is created.
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Face2Face Lofting

Available in TurboCAD Pro and Platinum only

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 Creates a 3D lofting object between two faces of existing 3D objects. The result is one 3D object.

1. Select the first face, in this example, the top of the cylinder. Selection order is important.
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2. Select the second face, in this case, the sloped face of the wedge.
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3. The result is a loft object that proceeds smoothly between the two faces. The two original objects and the new loft object are now merged into one object.
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   The resulting object takes the properties (such as Pen) of the object where you selected the first face.

Extrude to Face

Available in TurboCAD Pro and Platinum only
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Extends a 3D object by extruding selected faces to a selected 3D object and performing a boolean.

1. Select the face of a 3D object.
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2. Select the 3D object to be the target of the extrusion.
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3. The result is a new 3D object.
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If the boolean option is set to Subtract, the extrusion will be subtracted from the target body, and the original 3D object from which the extrusion was made will be removed.
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You can extrude multiple faces at one time, but you can extrude to only a single 3D object.

1. Hold down the SHIFT key to select multiple faces.
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2. Release the SHIFT key and select the target object.
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3. You will have a multiple extension.
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   There are some limitations that must be respected to create valid results:
   Resulting extrusions must intersect the target body when extended, or the operation will be invalid.
   You cannot extrude adjacent faces.
   Adjacent faces are extended along with the extrusion face. Adjacent curved faces and adjacent slanted faces will continue their curve or slant when the selected face it extruded
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   You can extend to ACIS surfaces, but only if the target body completely intersects the resulting extrusion.
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   You cannot extrude a face to the same 3D object that the extrusion face belongs to.

When extruding to a ACIS surface you can remove the remnant "excess" of the target surface using the Facet Edit tool.

1. Select the facet.
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2. Press the DELETE key.
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Profile Along Path

Available in TurboCAD Pro, and Platinum Only
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Places a 2D profile along a 2D or 3D path.

1. Select the profile you want to project, then select a point on the path where you want the projection.
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2. Click more points where you want profile projections.
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   If you rotate the model, you can see the profiles in 3D.
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3. Select Finish from the local menu or Inspector Bar to exit the function.

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 Make Copy Profile: Use this profile to make multiple copies along the path. When unselected, you can Finish or select another profile.

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One Step Back: Removes profiles in the reverse order in which they were created on the path.
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Unselect Profile: Unselects the current profile, enabling you to select another one.
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Note: Not Currently Available in 64-bit editions 

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Graphic Along Path

Available in TurboCAD Pro, and Platinum Only
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Places a 2D profile or 3D object along a 2D or 3D path.

1. Select the profile or object you want to project, then select a point on the path where you want the projection.
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2. Click more points where you want profile projections.
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   If you rotate the model, you can see the profiles in 3D.
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3. Select Finish from the local menu or Inspector Bar to exit the function.

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