:::::::: STEP/IGES Import Video Link. The video link here will show the absolute basics of the importing process.

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If your experience adds more complications, please read this page for a better understanding on the importing process. Importing a File To import a file of one of these types, place the cursor on the 'Import' option in the 'File' menu and select an option from the menu.

Choose a file to import in the Import (File Type) File window. Click 'Open' to open it into an Import Part window. The main steps to follow when defining and importing a part are: 1.) Choose a material in the ' Die and Material' tab. 2.) Define the desired part sections using the tools in the ' Define' tab. 3.) Set the starting section of the part.

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4.) As an option, choose a die for each bend on the part. 5.) Transfer the part to a single part designer, assembly, etc. Using the ' Transfer' menu.

Once each bent and straight section of the part is defined (the red tubes) using the, the starting straight length of the part will need to be defined. Once the start length is chosen, the part will be tracked according to the chosen sections. All sections that are connected to the starting length/together will be included in the final imported part. The final part will be colored green. See below for an example. Die and Material.

In the Die and Material tab, a material and die can be selected. The material selection will be shown in the 3D display of the imported part when the 'Preview Part' button is clicked. Select Material.

To select a material, click the drop down menu below ' Select Material' and choose a material from the list. Once a material is selected, the diameter, wall thickness, and weight of the selected material will be shown to the right. Directly below the Select Material drop down menu, the original diameter of the imported part will be shown after 'Imported Diameter'.

To view the material library, select the ' Library' button next to the material selection. A material must be selected before a 3D shaded model of the part can be shown in the part display frame. Select Die(s). Once the part has be properly defined, each bend can have a die assigned to it. Click the drop down menu below the Die column and choose a die from the list. Above the bend chart, the original CLR of the imported part will be shown after ' Imported CLR'. To view the die library, click the ' Library' button next to the die selection.

Before a part can be fully imported, each section that needs to be included on the part must be defined. Before beginning, keep in mind that a section is represented by a lighter red shade as seen below. This does not represent the part that will be imported. This only defines which sections can be included in the part definition. When single parts are first brought into the import interface, the part sections may already be defined.

Also, sections are defined based off the centerline. So, for example, if the Two Points tool is used to define a section, the line between those two points will be used to represent the centerline of that section.

Define Straight Section Two Points. To define a section using two points, select the ' Two Points' button. First, click on one pick point. Once the first point is selected, a green wireframe preview of the section will generate from this point. To place the end of this section, select another Pickpoint. Circle - Distance. To define a section by selecting a circle and any point, select the ' Circle - Distance' button.

First, select on a circle feature. Once the circle is selected, a green wireframe preview of the section will generate from this point. Next, define the length of the section by choosing a Pickpoint. Line. To define a section by selecting a line feature, select the ' Line' button. Next, click on a line feature that will represent the centerline of the section. Define Bend Two Circles.

To define a bend between two circle features, click the Two Circles button. Next, click on the first circle. Once the circle is selected, a green wireframe preview of the section will generate from this point.

Then click on another circle to place the section. Center, Start, End. To define a bend by selecting the center, start, and end points, select the Center, Start, End button. Next, click the centerpoint of the bend.

This point will be located off the bend, at the center of the arc as if it were a full circle. Then click on the starting point of the arc and lastly, the end point of the arc to place the section. Start, Mid, End. To define a bend by defining the starting point, mid point, and end point, select the Start, Mid, End button. First, selecting the centerline start point of the arc, the mid point, and then the centerline end point. Arc. To define a bend by selecting an arc feature, select the ' Arc' button.

Next, select on an arc feature that will represent the centerline of the bend. Two Straights. To define a bend by selecting the straight lengths on either side, select the ' Two Straights' button. Click on the line on one side of the arc, then click on the line on the other side. Circle - Arc. To define a bend with only a circle and an arc, select the ' Circle - Arc' button. Click on the circle representing the tangent of the bend, then click the line indicating the arc of the bend.

Show/Hide Features Hide Feature. To hide a single line, arc, or circle feature, first select the ' Hide Feature' button. Then, click directly on the feature. Show All Features.

To show all hidden line, arc, and circle features again, select the ' Show All Features' button. Auto Hide. To hide all inside line, arc, and circle features, select the ' Auto Hide' button.

Modify Sections Extend Straight. To add or remove length from a straight section of tube, select the ' Extend Straight' button. Next, click on the section that will be adjusted. Then enter the amount to add or remove (enter as a negative to shorten) and select the ' OK' button.

Combine Straights. To fuse two straight sections together, select the ' Combine Straights' button. Next, click on the first straight, then the second straight lengths that will be combined. Trim/Extend. To trim or extend a straight section in order for it to line up with a bent section, select the ' Trim/Extend' button.

First, click the straight section that will be adjusted. Next, click on the bent section that the section will line up to. Reverse Last. Select the ' Reverse Last' button to reverse the last bend.

Set Start. To set the starting section of the part, select the ' Set Start' button.

This section will define where the part begins and must be a straight length, bends cannot be used as the starting length. After clicking the button, simply select a section of tube to set it as the start.

Once selected, the start section will turn yellow. (Note) Once the start is chosen, the part will be tracked.

The tracked sections that will be included in the imported part will be shaded green. Remove Section. To remove a defined section from the part, select the ' Remove Section' button. Then, just click on a light red section for it to be removed. Remove All. To remove all defined sections, select the ' Remove All' button.

Save Part. When the part is completely defined using manual tools, select the ' Save Part' button and you will be prompted to give the saved part a name.

Verify. Under the Verify tab, the selected feature's attributes will be shown. Click on a feature to select it. If the selected feature is a line, the length, start and end points will be shown.

If the selected feature is an arc, the radius, angle, center, start, and end locations will be shown. Settings Import References Die References.

Die references can be set up by clicking the Die button in the Import References section. This will open the Die References window.

The purpose of die references is to automatically assign a die to any bends in a part that have the same material and import radius as the reference. For example, if an imported part is brought into the import interface and is assigned a material that matches the material reference (Under Die and Material in the top right corner) and has the same import radius as the die reference, once ' Generate Part' is selected, the die reference die will be automatically chosen as the die in the ' Part Details' chart. On the left side of the die references window, there is a list of die references. To view information about a die reference, select it by clicking its name in the list.

The fields to the right will display the selected die reference's details. To add a new die reference, select the ' New' button at the bottom of the window. Enter the die reference's name in the ' Name' field, select a die from the Die drop down menu, select a material from the 'Material' drop down menu, enter an import radius, and select which units to use.

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Select the ' Apply' button to add it to the list. To delete a die reference, select the die reference from the list and click the 'Delete' button. Select ' Close' to close the Die References window.

Material References. Material references can be set up by clicking the Material button below ' Import References'. This will open the Material References window. The purpose of a material reference is to automatically select a material for a part if it has the same import diameter of the material reference. For example, if an imported part has a 2 inch diameter and a material reference's assigned import diameter is 2 inches, the material reference material will be automatically selected (Under Die and Material in the top right corner) once the part is brought into the import interface. A list of all material references will be shown on the left side of the window. To view information about a material reference, select it by clicking its name in the list.

The fields to the right will display the selected material reference's details. To add a new material reference, click the ' New' button at the bottom of the window. Enter the material reference's name in the ' Name' field, select a material from the Material drop down menu, enter a import diameter in the ' Import Diameter' field, and select which units to use. Select the ' Apply' button to add it to the list.

To delete a material reference, select the material reference from the list and click the ' Delete' button. Select ' Close' to close the Material References window. Display Options Display TriStar. The axis will be shown on the graphical display. Display Features. The outline lines for the arcs and straight lengths will be displayed on the part model.

Display Sections. The defined, lighter red sections of tube will be shown on part model. Display Part. Once the part is defined, the part will be shown in the selected material. PickPoint Size:. Use the PickPoint size drop down menu to change the size of all PickPoints in the Import part display. Adjust Model Scale:.

Click the Scale button to change the scale of the imported model to either inches, millimeters, centimeters or a custom scale size. Parts. The part names will be listed here along with their respective material and die information. Select All.

This will select all of the parts in the parts list. They can then all be transferred to an Assembly if directed by the user. Select None.

This will deselect all of the parts in the parts list. Delete Part. This will delete the selected part(s) from the parts list and will remove their definition in the display screen to the right.

3D - parts, assemblies (versions up to 25).sat,.sab. When you save an SAT file to an XT file, bad edges are cleaned up in the design. When you import Modeling engine by Spatial Corporation. You can import and export ACIS files (.sat and.sab). Files, the instance name 'part n (body m)' is now imported, but only if the body name is different from the part name. The component and body names are separated by a character which you can define in the options for Modeling engine by Spatial Corporation. You can import and export ACIS files (.sat and.sab).

For example, the default character is a period, so the imported name would be component. This way, if there were one body named wheel in one component, the name of the imported component in SC would be wheel. An instance is a copy of a body (a copied or pattered solid). Modeling engine by Spatial Corporation. You can import and export ACIS files (.sat and.sab). Bodies can be imported using the RealDWG option, Sketch curves and text can be imported into Designs, 2D. Facets, 3D - parts, assemblies, Geometry (PRC B-Rep).pdf.

32-bit and 64-bit platforms are supported. Color information is imported for 3D PDFs. Supports B-REP import and export.

Defaults to B-Rep when exporting. Importing Product Manufacturing Information. You can import PMI if you check the Import Part Manufacturing Information box when importing CATIA files. As graphical objects - not semantic - is supported. Notes. Values or expressions you enter for precise control during the creation or modification of a design.

You can dimension every element, from lines in sketches to faces of solids. See Ordinate dimensions, Progressive dimensions, Ruler dimension. Geometric Tolerances. Two dimensional object that has no thickness (as opposed to a face, which is part of a three-dimensional object). A surface has area but no volume. Finishes.

Object that is assumed to be an exact size and shape, and be in an exact location, that is used to locate or establish geometric relationship of other objects. Symbols. Object that is assumed to be an exact size and shape, and be in an exact location, that is used to locate or establish geometric relationship of other objects. Targets.

No Adobe Acrobat required for B-REP import and export, 32bit and 64bit platforms supported, Adobe Acrobat X Pro is not supported. 3D PDF via a PRC neutral file along with Semantic Product Manufacturing Information. You can import PMI if you check the Import Part Manufacturing Information box when importing CATIA files. (if Product Manufacturing Information.

You can import PMI if you check the Import Part Manufacturing Information box when importing CATIA files. Data is present). Curves are imported from faceted data. R12 to 14, 2000, 2004, 2007, 2010, 2013 modelspace and layout space entities including solids ( Modeling engine by Spatial Corporation. You can import and export ACIS files (.sat and.sab). V7 format) Includes Polyface Meshes.dwg,.dxf. Software application for 2D and 3D design and drafting by Autodesk, Inc.

AutoCAD's native file format is DWG, its interchange file format is DXF, and its format for publishing CAD data is DWF. Drawings can be inserted as layouts. If you import an Software application for 2D and 3D design and drafting by Autodesk, Inc. AutoCAD's native file format is DWG, its interchange file format is DXF, and its format for publishing CAD data is DWF. File and you don't see the geometry you expect, try changing the import options.

When you save a design with a shaded graphics style as a AutoCAD native drawing format. You can open and insert drawings, parts, and assemblies. Drawings can be inserted as layouts. You can export parts, assemblies, drawing sheets, and 3D markup slides. File, it is converted to the hidden line style. When you save a sheet metal design as a Drawing Interchange Format or Drawing Exchange Format. CAD data file format developed by Autodesk for enabling data interoperability between AutoCAD and other programs.

You can open and insert drawings, parts, and assemblies.Drawings can be inserted as layouts. You can export parts, assemblies, drawing sheets, and 3D markup slides.

File, notes and bend lines are saved on the same layer, and the overall unfold dimensions are removed. A straight line, arc, or spline drawn in Sketch mode or on a layout plane. Lines have length but no area. When you pull a sketch into 3D with the Pull tool, lines become edges.

Weights can be exported to Software application for 2D and 3D design and drafting by Autodesk, Inc. AutoCAD's native file format is DWG, its interchange file format is DXF, and its format for publishing CAD data is DWF. ( Drawing Interchange Format or Drawing Exchange Format. CAD data file format developed by Autodesk for enabling data interoperability between AutoCAD and other programs. You can open and insert drawings, parts, and assemblies.Drawings can be inserted as layouts. You can export parts, assemblies, drawing sheets, and 3D markup slides. Or AutoCAD native drawing format.

You can open and insert drawings, parts, and assemblies. Drawings can be inserted as layouts. You can export parts, assemblies, drawing sheets, and 3D markup slides.). Hatch lines on drawing sheets are exported as stand-alone lines. You can import polyface meshes from Software application for 2D and 3D design and drafting by Autodesk, Inc. AutoCAD's native file format is DWG, its interchange file format is DXF, and its format for publishing CAD data is DWF.

Files as 3D solids. See for a list of polyface mesh import options. imports 'Proxy entities' in Software application for 2D and 3D design and drafting by Autodesk, Inc. AutoCAD's native file format is DWG, its interchange file format is DXF, and its format for publishing CAD data is DWF.

Drawing Interchange Format or Drawing Exchange Format. CAD data file format developed by Autodesk for enabling data interoperability between AutoCAD and other programs.

You can open and insert drawings, parts, and assemblies.Drawings can be inserted as layouts. You can export parts, assemblies, drawing sheets, and 3D markup slides.

And AutoCAD native drawing format. You can open and insert drawings, parts, and assemblies. Drawings can be inserted as layouts. You can export parts, assemblies, drawing sheets, and 3D markup slides. Files when you select the TeighaDWG option.

If an Software application for 2D and 3D design and drafting by Autodesk, Inc. AutoCAD's native file format is DWG, its interchange file format is DXF, and its format for publishing CAD data is DWF. File won't open, try changing the AutoCAD native drawing format. You can open and insert drawings, parts, and assemblies. Drawings can be inserted as layouts.

You can export parts, assemblies, drawing sheets, and 3D markup slides. Option to RealDWG. Some Software application for 2D and 3D design and drafting by Autodesk, Inc. AutoCAD's native file format is DWG, its interchange file format is DXF, and its format for publishing CAD data is DWF. Files contain embedded Modeling engine by Spatial Corporation.

You can import and export ACIS files (.sat and.sab). Models; however, these may not be standard Modeling engine by Spatial Corporation. You can import and export ACIS files (.sat and.sab). The RealDWG libraries contain an API to save back these variant Modeling engine by Spatial Corporation. You can import and export ACIS files (.sat and.sab). Models in the last common format, Modeling engine by Spatial Corporation.

You can import and export ACIS files (.sat and.sab). The TeighaDWG libraries do not.

Modeling engine by Spatial Corporation. You can import and export ACIS files (.sat and.sab). Bodies can be imported using the RealDWG option, Polyface meshes import as lightweight (read-only), Sketch. Export as 2D snapshot. 2D drawing mode that is most useful when you have no immediate need to generate 3D objects from the lines in the layout. If you try to pull layout lines to 3D, they do not behave the same way that sketched lines do. Think of a layout as a pencil drawing made on your design.

When you are ready to use your layout to create geometry, you must project the layout lines to a sketch. Projecting a layout line to a sketch is like inking the line.

You can import a 2D AutoCAD DXF or DWG file as a layout. Spaces are imported into separate windows. Empty 2D drawing mode that is most useful when you have no immediate need to generate 3D objects from the lines in the layout. If you try to pull layout lines to 3D, they do not behave the same way that sketched lines do. Think of a layout as a pencil drawing made on your design. When you are ready to use your layout to create geometry, you must project the layout lines to a sketch. Projecting a layout line to a sketch is like inking the line.

You can import a 2D AutoCAD DXF or DWG file as a layout. Spaces are ignored on import. 2D drawing mode that is most useful when you have no immediate need to generate 3D objects from the lines in the layout. If you try to pull layout lines to 3D, they do not behave the same way that sketched lines do. Think of a layout as a pencil drawing made on your design.

When you are ready to use your layout to create geometry, you must project the layout lines to a sketch. Projecting a layout line to a sketch is like inking the line. You can import a 2D AutoCAD DXF or DWG file as a layout. Spaces are only supported for Teigha, NOT RealDWG. IDF and PADS files (versions IDF 3.0 and IDF 4.0).idf, emn,.idb. Most content within IDF 4.0 files is supported. Hierarchy of components and subcomponents showing relationship within a design, as shown in the Structure tree.

In manufacturing, a unit fitted together from manufactured parts. See Assembly tool, Component of panels and boards, cutouts, filled areas, keep-ins, materials, panels and everything related, sublayouts, and thermal models are not supported. Open IDF and PAD files. IDF files can be synchronized with the imported model. Select any geometry in the model and use RMB Update IDF to update the IDF file based on component operations performed in the model (e.g. Moved components). The current SpaceClaim document must have been created by importing an IDF file.

The source IDF file must be present on disk at its original location. A new IDF file is written that contains the updated information. The new file can be read back into the originating ECAD system to update the components. Parts (versions 6 – 10).ipt parts, assemblies (versions 11 to 2015).ipt,.iam. You can read the limitations here:. Limited support for Inventor assembly.

Hierarchy of components and subcomponents showing relationship within a design, as shown in the Structure tree. In manufacturing, a unit fitted together from manufactured parts.

See Assembly tool, Component attributes such as colors and layers are not supported. Inventor parts and Inventor sub-assemblies should be present in the main (root) of the Inventor Hierarchy of components and subcomponents showing relationship within a design, as shown in the Structure tree. In manufacturing, a unit fitted together from manufactured parts. See Assembly tool, Component directory.

Hierarchy of components and subcomponents showing relationship within a design, as shown in the Structure tree. In manufacturing, a unit fitted together from manufactured parts. See Assembly tool, Component level features are not supported.

For example, an instance can be marked as suppressed (that is, not visible) in an Inventor assembly. Because the translator does not support reading suppressed information, suppressed instances are translated. Inventor surfaces not supported The translator currently does not handle 'helical' surfaces in Inventor 6 files and 'cylspl' surfaces in Inventor 7 files. If the Inventor file contains any of these surfaces, a partial translation takes place skipping the data for these surfaces and converting the remaining entities.

Limited entity support for Inventor 11, 2008, 2009, and 2010 The translator currently does not support some specific entities resulting from advanced feature Inventor operations such as Lofting. No support for attributes The translator does not support translating attributes such as colors and layers. No support for hidden flag The translator does not support filtering hidden bodies.

Thus, all hidden bodies are translated as well. Limited support for units The translator supports only millimeter and inch for Inventor 6 – 11 and 2008. For versions 2009 and 2010, the translator supports only millimeter as unit. All unsupported units are assumed to be millimeter. Parts, assemblies (versions 6.4, 7.0, 8.0, 8.1, 8.2, 9.0 to 9.5).jt. JT Open 5.3 libraries are available for reading and writing JT files that were created with version 5.3.

JT files with product manufacturing information ( Product Manufacturing Information. You can import PMI if you check the Import Part Manufacturing Information box when importing CATIA files.) are supported for:. datum labels. text notes. dimension measurements.

GD&T. Annotation you can add to a drawing that provides instructions for material removal during manufacturing. Weld symbols. Flagnotes. Product Manufacturing Information. You can import PMI if you check the Import Part Manufacturing Information box when importing CATIA files. Option is ON by default.

Semantic and Polyline Product Manufacturing Information. You can import PMI if you check the Import Part Manufacturing Information box when importing CATIA files. Are supported.

Semantic imported dimensions will update with geometry changes. Polyline are simply curves in space that do not update. Semantic Product Manufacturing Information.

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You can import PMI if you check the Import Part Manufacturing Information box when importing CATIA files. Is placed on Layer0 after import. Polyline is placed on a layer called Imported Polyline Annotations.

For GD&T symbols, you can click any tolerance annotation or datum symbol to view its values in the Area of the user interface that displays editable details about the selected object(s). This panel is initially displayed on the lower left side of the screen, but can be moved. Click on an arrow or line to view or modify arrow or styles in the Area of the user interface that displays editable details about the selected object(s). This panel is initially displayed on the lower left side of the screen, but can be moved. Unicode file names are supported. Import and export of free points is supported.

JT Open V6.4 and V7.0 imported and exported as faceted data. Curves (insert only).txt. A spline curve is created by default or if the option Polyline=False is used. If the option Polyline=True is used, then the points are connected by straight line segments.

By default, 2D curves are created. When specifying 2D curves, the first column of the data points must be an integer and gives the height of the plane of one of the curves. The beginning of a new curve is specified by changing this height from one line to the next. If option 3D=True is used, the curves can be 3D. Use the Fit keyword to specify whether In 3D, any line in space.

Fitting or Interpolation is used. Fit=True uses In 3D, any line in space.

In 3D, any line in space. Fitting creates a curve that 'Fits' the data points using a specified tolerance. The curve may not pass exactly through all points and the distance from the curve to the point will be within the tolerance.

Use the Fittol keyword when Fit=Trueto specify the In 3D, any line in space. Fitting tolerance in model units. For example Fittol=1.0e-2 The curve below uses In 3D, any line in space. Fitting (i.e. A large tolerance (fittol=2.0) is used to exaggerate the fact that the curve does not pass through the points but only gets within the specified tolerance. Fit=False uses Interpolation. Interpolation requires that the curve pass exactly through all of the points.

An interpolation method is used to build a continuous curve through all of the points. The curve below is interpolated (i.e. There are seven points in the file and the curve passes exactly through each one.

Multiple curves are separated by blank lines. You can import point curve text files that contain single-point curves, which will be created as points. Single location in the sketch grid.

2-D object that has no height, width, or length. The origin, an axis, and a vertex are examples of points.

Use the Point tool to sketch a point on the sketch grid. Points are useful as a dimensional reference, for splitting, and for creating a point on a line or curve through which you want to draw a three-point circle.-curve text files opened or inserted in display a closed curve when the file has a repeated value. Curves can be imported to coordinate systems or other geometry like other imported objects. Single location in the sketch grid. 2-D object that has no height, width, or length. The origin, an axis, and a vertex are examples of points.

Use the Point tool to sketch a point on the sketch grid. Points are useful as a dimensional reference, for splitting, and for creating a point on a line or curve through which you want to draw a three-point circle.-curve text files with columns separated by commas can be opened or inserted in. This feature allows you to import any comma-separated value file into. If there is an error reading the input text file, a message will appear with the line number of the error in parentheses followed by the text appearing on that line. The following example shows the contents of a point curve text file on the left and the 3D curves it creates on the right:. Annotation placed on a design, drawing sheet, or 3D markup.

Notes contain text or symbols that you insert and can be connected to geometry by a note leader. That the point coordinates are (Z, X, Y). For example (1, 2, 3) is (Z=1, X=2, Y=3). 3d=true polyline=false 1 0 0 1 0 1 1 1 0 1 1 1 2 0 1 2 1 0 3 0 0 3 0 1 3 1 0 Keywords:. polyline=false - spline curves are created. polyline=true - straight lines are created. 3d=true - 3D curves are created.

3d=false - curves are two-dimensional. This is also the case if the option is not set. fit=true - use In 3D, any line in space. In 3D, any line in space. Fitting finds the 'Best Fit' through the points. Does not require the curve to pass through all of the points.

fit=false - use Interpolation. Interpolation forces the curve to pass through all the points in the file.

fittol=1.0e-2 - In 3D, any line in space. Fitting tolerance in the units used in the file. The blank line after the first set of coordinates indicates that the next set of coordinates is a new curve. You can copy the file contents above and paste them into a text file, then use Insert File to try it yourself.

Parts, assemblies versions 16 through Wildfire 5.0(Creo 1.0, 2.0).prt,.asm,.xpr,.xas. When you import Pro/ENGINEER assemblies and parts are missing, you will be prompted to search for the missing files. Wildfire 5 (Creo 1.0, 2.0) Product Manufacturing Information. You can import PMI if you check the Import Part Manufacturing Information box when importing CATIA files. Is not supported. Instance and assembly accelerator files (.xpr and.xas) can now be opened directly into.

Mesh is automatically imported when there are no B-Rep contents in the Rhino file. Parts, assemblies (version 4.0, V5.0).3dm. When importing a Rhino file, multi-segmented curves are consolidated. You can export layer names, color information, sketch lines, and material information. Neighboring topology is taken into consideration by default. This means that if problems are found with a face, then its neighboring faces can provide information used to fix the face. The Rhino 32/64-bit plug-in supports the Rhino V5 Beta version.

You can use it to import and export using Rhino V4 formatted data. As before, you can also cut and copy work in progress out of Rhino and MOI, and paste it into.

Option ge0201 driver for macbook pro. Finally, click Add and the printer will be added to the system. Xerox Workcentre 5335) and then proceed. You will be brought back to the Printer menu.

Supported Rhino Anything recognizable by the tools. 3D objects include vertices, edges, faces, surfaces, solids, layouts, planes, axes, and origins. 2D objects include points and lines. Rhino object entity Solids Closed polysurfaces Object that encloses volume. A surface becomes a solid if it encloses volume. Body Closed surfaces: sphere, torus, ellipsoid dots; Polysurfaces (open) Sheet body Surfaces Trimmed surfaces Sheet body Untrimmed surfaces with boundary edges Curves (curve, polycurve) Named sketch curve Single location in the sketch grid. 2-D object that has no height, width, or length.

The origin, an axis, and a vertex are examples of points. Use the Point tool to sketch a point on the sketch grid. Points are useful as a dimensional reference, for splitting, and for creating a point on a line or curve through which you want to draw a three-point circle.

Objects (point, point cloud) Not supported Complex object composed of three or more straight lines in a closed figure. Use the Polygon tool to sketch a polygon with up to 32 sides. Mesh objects Not supported Anything recognizable by the tools. 3D objects include vertices, edges, faces, surfaces, solids, layouts, planes, axes, and origins.

2D objects include points and lines. Name Term used to refer to any object in a 2D sketch or 3D drawing. Name Anything recognizable by the tools. 3D objects include vertices, edges, faces, surfaces, solids, layouts, planes, axes, and origins. 2D objects include points and lines.

Color Term used to refer to any object in a 2D sketch or 3D drawing. Color Layers Grouping mechanism for visual characteristics such as visibility and color. You can group objects on layers to organize your drawing.

Layers are especially useful when you want to show or hide annotation planes. Name Grouping mechanism for visual characteristics such as visibility and color. You can group objects on layers to organize your drawing. Layers are especially useful when you want to show or hide annotation planes.

Name Grouping mechanism for visual characteristics such as visibility and color. You can group objects on layers to organize your drawing. Layers are especially useful when you want to show or hide annotation planes. Color Grouping mechanism for visual characteristics such as visibility and color.

You can group objects on layers to organize your drawing. Layers are especially useful when you want to show or hide annotation planes. Color On/off layer Show/hide layer Locked/unlocked layer Locked/unlocked layer Grouping mechanism for visual characteristics such as visibility and color. You can group objects on layers to organize your drawing. Layers are especially useful when you want to show or hide annotation planes. Structure Object in a design, including the top-level design component. Each component consists of any number of objects, such as solids and surfaces, and can contain sub-components.

You can think of a component as a 'part.' Components can be saved as a separate file. An external component is another design inserted as a component of your design. Making the component internal prevents changes from being made to the external component file. You can also create an external component by saving a component as a separate file. See Lightweight components, Assembly structure Materials Property that you can assign to an object, consisting of material name and attributes such as density and tensile strength. Name Property that you can assign to an object, consisting of material name and attributes such as density and tensile strength.

Name Other material attributes Not supported Sets of objects that appear in the Groups tab. You create a group from any set of selected objects. Information such as Selection, Alt+selection, move anchoring, axis, and ruler dimension is all stored with the group. Not supported.