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By using our site, you agree to our collection of information through the use of cookies. To learn more, view our Privacy Policy. To browse Academia. Log in with Facebook Log in with Google. Remember me on this computer. Enter the email address you signed up with and we’ll email you a reset link. Need an account? Click here to sign up. Download Free PDF. Anas Ansri. A short summary of this paper. PDF Pack. People also downloaded these PDFs. People also downloaded these free PDFs.

Download Download PDF. Translate PDF. In some cases optional processes will be explained. Referenced illustrations will be used to help explain certain processes and to compare results. It is important that you complete and understand every step in this lesson, otherwise you will have difficulties in future lessons where much of the basic instruction will not be covered it will be assumed that you know it. The concepts taught in these steps will give you the tools to navigate through the basics of the Sketcher Work Bench.

Following the step-by-step instructions there are twenty questions to help you review the major concepts covered in this lesson. There are practice exercises at the end of this lesson. This lesson covers the most commonly used tools in the Sketcher Work Bench. It is not the intent of this book to be a comprehensive reference manual but provide basic instructions for the most common tools and functions in CATIA V5.

You are encouraged to explore all the different options. The three Figure 1. The individual tools found in each of the three Select arrow tool bars are labeled to the right of the tool icon. Some tools have an arrow located at the bottom right of the tool icon.

The arrow is an indication that there is more than one variation of that particular type of tool. The tools that have more than one option are listed to the right of the default Optional tools tool. To display the other tool options you must select and hold the left mouse button on the arrow as shown in Figure 1.

Move your mouse to the desired tool and release the mouse button. The desired tool icon now becomes the default tool, shown on the tool bar.

All you have to do to select the new default tool is to double click on it. Click on the arrow and the other tool options will appear. Tools covered in this lesson: Corner, Chamfer, Trim and Break. Symmetry and Project 3D Elements tools will be covered in Lesson 2. NOTE: The three tool bars are by default located on the right side of the screen. The three tool bars contain too many tools to show all of them at one time.

To view and have access to all the tools you can select the shaded tab located at the top of each tool bar and drag it anywhere on the screen. This is important because when you get to Step 4, by the default setup you will not be able to visually locate the Operation tool bar.

You will have to select and drag the Operation tool bar from the right bottom side of the screen to the location you select. When you complete all the steps in this lesson the result should look similar to Figure 1.

Figure 1. If you are not able to finish all the steps in this lesson in one session you can jump to Step 23, which covers saving and exiting CATIA V5. This will allow you to save your work for your next session. The default work bench is Product Structure. For this lesson you will need to select the Sketcher Work Bench. The term work bench is used generically because the Work Bench icon showing will be the current active work bench.

The other method of selecting another work bench is by selecting the Start icon in the top left side of the screen, reference Figure 1.

This will bring up a pull down menu that includes all of the work benches. Double click on the work bench you want to use, in this case the Sketcher Work Bench. It is not possible to use both methods at the same time as shown in Figure 1. This window can be customized. The Sketcher Work Bench should be included in the default window. The Sketcher Work Bench is a two dimensional planar work area. To use the Sketcher Work Bench you must specify which plane the profile is to be created on.

Specifying the plane can be done several different ways. Notice as a particular plane is selected the equivalent plane in the Specification Tree is highlighted. To do this just select the Plus symbol to the left of the Specification Tree or double click on the branch you want expanded. Select the plane in the Specification Tree and the coordinating plane in the center of the screen will also be highlighted. This option will be covered in more detail later in the book. For this lesson select the ZX plane as shown in Figure 1.

The default grid will also appear. This means that there are several methods available to complete almost every task. This brings up file tab options on the right side of the screen and file type options on the left Figure 1. From the options on the left select Part, the tabbed options on the right change accordingly. There are four main options under Sketcher; you only need to use two of them at this time, Grid and Sketch Plane. For this particular exercise check the Display option.

For this particular exercise check the Snap To option. The user can set the desired spacing. If the default measurement is in metric the spacing will be in mm. To change this default complete the following steps: 5. This is in the same window as described in Step 5. The window on the screen should now look like Figure 1.

For this exercise select inches. Notice the Primary Spacing option is now showing in inches. This option divides the Primary Spacing in divisions defined by you, reference Figure 1. To change the Primary Spacing and the Graduations just select the value in the window and type in the new value. When entering the values for the Primary Spacing it is not necessary to enter the measurement type. The lowest value allowed for Graduations is 1 zero will not be accepted. It is important to remember that the zoomed view on the screen will dictate how the Primary Spacing and Graduations are represented.

If you are zoomed out, the Graduations and Primary Spacing could look very similar to each other, not distinguishable. If you find yourself in this situation use the Zoom tool on the tool bar at the bottom of the screen Figure 1. Continue to zoom in until the Primary Spacing and Graduations are distinguishable.

The first tool you will use from the Profile tool bar is the Point by Clicking tool , covered in Step 7. The second tool is the Line tool , covered in Steps 8, 9 and The third tool is the Profile tool , covered in Step On the Tools tool bar at the bottom right of the screen make sure the Snap To Point is on highlighted , the Geometrical Constraints is on and the Dimensional Constraints is on Figure 1. With this you are ready to create geometry!

Reference Figure 1. The starting point for your profile will be 1,1. You should be able to locate the 1,1 location using the Primary Spacing and Graduations. To visually verify the location and to Anchor your first two lines to the 1,1 location create a point at the 1,1 coordinate location. This tool allows you to select and snap to a location on the screen.

Another way of specifying the location of the point is to type the location in the Point Coordinates: H: and V: boxes. The H: is for horizontal and V: is for vertical coordinates. Hit the Point 1,1 Tab key to move the cursor over to the Vertical box. Type in 1 for the Vertical Constraints coordinate.



(PDF) (ebook) catia tutorial-pdf | Anas Ansri –’s New in Autodesk Inventor PDF Free Download


This book may not be duplicated in any way without the express written consent of the publisher, except in the form of brief excerpts or quotations for the purpose of review. The information contained herein is for the personal use of the reader and may not be incorporated in any commercial programs, other books, database, or any kind of software without written consent of the publisher.

Making copies of this book or any portion for purpose other than your own is a violation of copyright laws. The author and publisher make no representations or warranties with respect to the accuracy or completeness of the contents of this work and specifically disclaim all warranties, including without limitation warranties of fitness for a particular purpose.

The advice and strategies contained herein may not be suitable for every situation. Neither the publisher nor the author shall be liable for damages arising here from. All brand names and product names used in this book are trademarks, registered trademarks, or trade names of their respective holders. The author and publisher are not associated with any product or vendor mentioned in this book.

It is the most widely used CAD software. The commands and concepts introduced by AutoCAD are utilized by other systems. Autodesk Inventor as a topic of learning is vast, and having a wide scope.

It is package of many modules delivering a great value to enterprises. It offers a set of tools, which are easy-to-use to design, document and simulate 3D models. Using this software, you can speed up the design process and reduce the product development costs. It is aimed for those with no previous experience CAD.

Each chapter has components explained with the help of real world models. This book is written for students and engineers who are interested to learn AutoCAD and Autodesk Inventor for designing mechanical components and assemblies, and then create drawings.

The user interface and terminology are discussed in this chapter. You will create simple drawings using the drawing tools. Chapter 3 , Drawing Aids , explores the drawing settings that will assist you in creating drawings. Chapter 4 , Editing Tools , covers the tools required to modify drawing objects or create new objects using the existing ones. Chapter 5 , Multi View Drawings , teaches you to create multi view drawings standard projection techniques.

Chapter 6 , Dimensions and Annotations , teaches you to apply dimensions and annotations to a drawing. Chapter 7 , Parametric Tools , teaches you to create parametric drawings. Parametric drawings are created by using the logical operations and parameters that control the shape and size of a drawing. Chapter 8 , Section Views , teaches you to create section views of a component. A section view is the inside view of a component when it is sliced.

Blocks are group of objects in a drawing that can be reused. Attributes are notes, or values related to an object. Xrefs are drawing files attached to another drawing. Chapter 10 , Layouts and Annotative Objects , teaches you create layouts and annotative objects. Layouts are the digital counterparts of physical drawing sheets.

Annotative objects are dimensions, notes and so on which their sizes with respect to drawing scale. Chapter 11 , Templates and Plotting , teaches you create drawing templates and plot drawings. Chapter 12 , 3D Modeling Basics , explores the basic tools to create 3D models.

Chapter 13 , Solid Editing Tools , covers the tools required to edit solid models and create new objects by using the existing ones. You will design a floor plan and add dimensions to it. Chapter 1 introduces Autodesk Inventor.

Chapter 2 takes you through the creation of your first Inventor model. You create simple parts. Chapter 3 teaches you to create assemblies. It explains the Top-down and Bottom-up approaches for designing an assembly. You create an assembly using the Bottom-up approach.

Chapter 4 teaches you to create drawings of the models created in the earlier chapters. You will also learn to place exploded views, and part list of an assembly. Chapter 5: In this chapter, you will learn additional modeling tools to create complex models.

Chapter 6 introduces you to Sheet Metal modeling. You will create a sheet metal part using the tools available in the Sheet Metal environment. Chapter 7 teaches you create Top-down assemblies. It also introduces you create mechanisms by applying joints between the parts.

It has completed 34 years by the If you are a new user of this software, then the time you spend on learning this software will be a wise investment. If you have used previous versions of AutoCAD, you will be able to learn the new enhancements. I welcome you to learn AutoCAD using this book through step-by-step examples to learn various commands and techniques. Windows display adapter capable of x with True Color capabilities.

On the Initial Screen, click Start Drawing to open a new drawing file. The drawing file consists of a graphics window, ribbon, menu bar, toolbars, command line, and other screen components, depending on the workspace that you have selected. You can change the color scheme by using the Options dialog. Click the right mouse button and select Options from the shortcut menu. On the Options dialog, click the Display tab and select an option from the Color Scheme drop-down.

You can create 2D drawings in this workspace. You can also activate other workspaces by using the Workspace drop-down on the top-left corner or the Workspace Switching menu on the lower-right corner of the window.

This workspace has all the tools to create a 2D drawing. It has a ribbon located at the top of the screen. The ribbon is arranged in a hierarchy of tabs, panels, and tools. Panels such as Draw , Modify , and Layers consist of tools which are grouped based on their usage. Panels in turn are grouped into various tabs. For example, the panels such as Draw , Modify , and Layers are located in the Home tab.

These workspaces are used to create 3D models. You will learn more about these workspaces in Chapter The other components of the user Interface are discussed next. The Application Menu appears when you click on the icon located at the top left corner of the window. The Application Menu consists of a list of self-explanatory menus. You can see a list of recently opened documents or a list of currently opened documents by clicking the Recent Documents and Open Documents buttons, respectively.

The Search Bar is used to search for any command. You can type any keyword in the search bar and find a list of commands related to it. This is located at the top left corner of the window and helps you to access commands, quickly. File tabs are located below the ribbon. You can switch between different drawing files by using the file tabs. Graphics window is the blank space located below the file tabs.

You can draw objects and create 3D graphics in the graphics window. The top left corner of the graphics window has In-Canvas Controls. Using these controls, you can set the orientation and display style of the model. Using the ViewCube, you can set the orientation of the model.

For example, you can select the top face of the ViewCube to set the orientation to Top. You can click the corner points to set the view to Isometric. The command line is located below the graphics window. It is very easy to execute a command using the command line.

You can just type the first letter of a command and it lists all the commands starting with that letter. This helps you to activate commands very easily and increases your productivity. Also, the command line shows the current state of the drawing. It shows various prompts while working with any command.

These prompts are series of steps needed to successfully execute a command. For example, when you activate the LINE command, the command line displays a prompt, Specify the first point. You need to click in the graphics window to specify the first point of the line. After specifying the first point, the prompt, Specify next point or [Undo]: appears. Now, you need to specify the next point of the line. It is recommended that you should always have a look at the command line to know the next step while executing a command.

System variables control the behavior of various functions and commands in AutoCAD. Usually, the system variables have two or more values. You can control a system variable value from the command line. The 0 value retains the text direction when you mirror it.

Whereas, the 1 value reverses the text direction when you mirror it. A list of system variables, which are monitored by default appears on the dialog. You can know the function of a system variable by clicking the Help icon located next to it. You can change a system variable value in the Preferred column of the dialog. The Status column shows a yellow triangle if you have changed the default value of a system variable.

The Enable balloon notification option shows a balloon on the status bar, if you changed any system variable value. You can click the Reset All button to restore the default values of system variables. You can monitor more system variables by clicking the Edit List button. Click OK on both the dialogs after changing the values. It contains many buttons which help you to create a drawing very easily. Some buttons are hidden by default. A new Show Violations dialog box provides visual feedback for flexible hose violations.

The Videos and Tutorials pane is removed. Click Tutorials in My Home to view the new gallery. The gallery contains a live display of all tutorials currently available for download, and all installed tutorials. In addition, progress tracking is displayed in the gallery image and the active tutorial. These changes yield a more equalized cross-product viewing experience. Environment and Standard Lighting styles used for model scene lighting are separated into Style types for an improved style management experience.

The new tabbed interface complements the lighting style workflow and ensures compatibility with legacy styles. Shadow settings are managed individually with the lighting style.

Inventor supports high-resolution 4K monitors. Icons and dialog boxes throughout the application take advantage of the larger screens at 4K resolution. Several new shortcuts speed up common tasks and allow you to customize Inventor for your specific workflow.

You can configure shortcuts for visibility, transparency, routed systems commands, and more, in addition to prior commands. A transparency toggle switch enables quick investigation of the interior of assemblies. Increased support for multithreading in import workflows results in increased performance and faster updates for reference model workflows. DWG Underlay workflows are streamlined with new cropping and profile selection tools for greater productivity.

DWG information can also be included in drawings as a reference. Measure and section tools can be used on mesh faces. Mesh can be selected and projected into sketches. The Fit Mesh Face command optionally allows users to convert a mesh face to a native Inventor surface, enabling the geometry to be edited downstream. Several enhancements in Inventor make it faster and easier to collaborate. Collaborators and feedback can now be reviewed and managed directly inside Inventor.

New controls permit you to share part properties and part names in addition to the model graphics for more detailed reviews. You can easily arrange components in exploded views for drawing creation and quickly create powerful and expressive animations. Snapshot views allow you to capture specific model and camera arrangements for use in drawing views and raster image outputs.

A new timeline-based story panel makes it easy to control and edit assembly sequences or movement. You can change the duration or order of actions appearing in an animation. Select design view representations, model properties, and attachments to include. Create a custom 3D PDF template to change arrangement of exported elements in the output files. You can also redefine the base point for your body or feature set.

The default uses the intersected profile center for the base point. You can now pattern features or bodies on sketch points defined in a 2D or 3D sketch. Optionally, you can redefine the Base Point or pick Faces to orient the pattern. You can now select curves and points to shape the patch.

Ruled Surface The Angle option is added to all ruled surface types. The Sweep surface type is renamed Vector and now supports both edge and sketch selection. Previously, you had to select closed profiles one at a time. This new interactive dialog box allows you to view feature dependencies from directly within your part.

In the Relationships dialog box, select the icon to switch to a Selected view. Select the icon to access the Edit Feature dialog box. These features include: Sketches Shared sketches Axes Planes Points To access the Relationships dialog box and viewable feature dependencies: Model browser: Right click the feature node in the model browser to display the context menu and select Relationships Part File Template View representations in the part file template are enhanced to make it simple to document your design.

The part file template now contains the following view representations: Master locked Isometric default Front Top Right Tip: Make sure that you activate the correct View representation before you change the default Home, Top, or Front assignments. A punch tool whose shape extends beyond the boundary of the flat pattern can now have its definition overridden to display as a center mark or sketch without error.

A legacy flat pattern punch override continues to display an error until the flat pattern is deleted and recreated in Inventor Corner Relief The options Round Tangent , Round Vertex , and Square Vertex are added to corner reliefs to provide more placement solutions. This new option lets you unfold certain types of punch features. You must specify the unfold option in both places to unfold the punch shape. Unfolding is limited to ifeatures that can be unfolded if they were created as normal sheet metal features.

Deformed shapes, such as stamped bosses and louvers, cannot be unfolded. The Corner Round dialog box is now resizable and persists throughout your session.

You can copy and paste entities in the same 3D sketch or between 3D sketches. Tip: The geometry is pasted in the same location as the source geometry. You can move the geometry after you paste it. Drag geometry Previous releases supported dragging geometry by endpoints and center points only.

You can now drag a 3D sketch entity by selecting any part of the geometry. Equal: Constrains selected arcs and lines to the same length. Delete Constraints is added to the context menu. Draw Curves Directly on a Face Curve on Face: You can create an interpolation 3D spline on a part face by directly sketching it in place. Curve creation supports snapping to vertices and edges, constraints, point insertion and editing, curvature display, and so on.

Draw on plane: Click a plane on the space indicator to draw on a plane. The new 3D Transform command provides a robust set of geometry manipulation tools. Use the new command to freely or precisely move or rotate the geometry. You can also set options to reorient the triad or manipulate the geometry based on the World, the current View, or the Local coordinate system. Select one or more components in the graphics window or browser and then: Right-click and select Transparent from the context menu.

Select iproperties from the context menu to open the dialog box. Click the Occurrence tab, and then select the Transparent check box. The browser nodes now display the following information: Dependent source component names now display in the reference browser node. The source dependency is illustrated by the following icons: Edge Face outer and inner boundaries of face are projected Loop Sketch geometry DWG geometry Cross-Part Reference – Occurrence Path displays a useful tooltip when you mouse over the node.

Break Link is available from the browser node. In a part file, right-click the Reference node in the browser and select Open Parent Assembly from the context menu to examine cross-part references in the assembly file the reference was created in.

Select Open References to open the part the reference was created from. In addition to References in a sketch, the same functionality is available for adaptive work features for copied objects. Support for Multiple Intermediate Point Creation on Flexible Hoses with Fittings Two new context menu options, Offset Point, and Intermediate Point, allow you to create multiple intermediate points when you route a flexible hose with fittings.

You can place one fitting, construct the hose, and finish by placing the second fitting. You can also place both fittings and construct the hose switching between Intermediate Point and Offset Point commands. The new Show Violations dialog box displays a tree view of spline segments where bend radius violations occur.

Selecting a node in the dialog box highlights the corresponding segment in the graphics window. Scrolling is no longer required to read the entire Name, Family, Standard, or Appearance information. Tube and Pipe Authoring: Now resizable, the width of the dialog box also increases when over seven connection numbers are added. Additional Productivity Enhancements The context menu option, Change Fitting Diameter, available for fittings in rigid routes starting in Inventor , is now available for fittings in a flexible hose run.

You can select one or more fittings in a flexible hose run and change the diameter for all selected fittings. New context menu options, Change Size and Edit Connection are available when placing a fitting into an existing route.

New context menu option, Delete All Connections, is available when you select multiple Tube and Pipe components. Use the spacebar to flip fitting connections on a Tube and Pipe fitting within a run that does not contain any routes. The default focus in the Connect Fitting dialog box is now set to OK. In an active route, you can now multiselect and delete a selection of multiple work features that were added as Included Geometry.

Migrate Presentations Created in Previous Versions All information from your old presentation files is automatically migrated to a new version. Exploded views are converted to snapshot views. All tweaks and other model and camera settings are preserved. Animations Task Sequences are converted to storyboards. Tasks are converted to animation actions and added to the timeline. Create a Presentation You can create a presentation file based on a default or custom template.

You specify the model on file creation, or you can insert the model to an existing IPN file. A presentation file includes scenes. Each scene is based on a specific source model and set of model representations. A scene stores snapshot views and animation storyboards. Tweak Components Use the Tweak Components command to move or rotate components. Tweaks are saved as actions to the animation timeline, and listed in the Tweak folder in the browser. Add Trail Lines for Tweaked Components To create trail lines, on the Tweak Components minitoolbar, select a trail option from the list.

All Components is selected by default. To hide a trail, right-click a trail line, and click Hide Trail Segment folder, right-click a component, and click Hide Trails.

Current or All. Or, in the browser, Tweak Set Component Visibility and Opacity To set component visibility, select the component, right-click, and click Visibility. You can change the visibility and opacity setting in a snapshot view, or save the change as an action to the storyboard. To create an action, move the playhead to the desired position on the storyboard timeline first. To change the initial setting for a storyboard, move the playhead to the Scratch Zone.

Snapshot views can be linked to the timeline or independent. Snapshot views are used to create drawing views or raster images of a model. Create Animations An animation consists of a sequence of actions positioned on the timeline. You can create the following types of actions: Move component, rotate component, change component visibility or opacity, and change camera position.

Animations can be published as videos. Change Position of Camera Use commands on the Navigation toolbar to change the view of the model.

The camera setting is not saved automatically. To change camera position in a snapshot view, edit the snapshot view, and click Update Camera. To save a camera position to an animation, place the playhead to the desired position on the timeline, and click Capture Camera. A camera action is added to the timeline. You set the publishing scope and other output options. By default, cut edges are displayed as smooth lines. Under Default Cut Edges, select Jagged. To override the setting for a specific section view, select Jagged in the Section View dialog box, or in the Edit Section Properties dialog box.

Column headings wrap to a minimum width to accommodate the largest word in the column. Table headings wrap to the minimum width of the included columns. Tip: Legacy drawings, when first opened, continue with the legacy behavior. To change a table to include the new functionality, open the Edit Table dialog box and click OK to allow for text wrapping.

When the Adjust QTY checkbox is enabled, the option quantity in a parts list adjusts according to the visibility of the items in the design view. Easily manage layer styles and line types. The AutoCAD layer styles and line types are imported into the drawing file. Use the Styles Editor to manage the layers and line types as needed. Changes made to the DWG underlay geometry in the corresponding Inventor file associatively update in the drawing file.

Cropping allows you to focus on the relevant design area when you are working with a large DWG file. Underlay geometry cropped in a part file displays as cropped geometry in a drawing view of the part file. Add constraints and joints to cropped underlays in an assembly file. For example, if you place a DWG underlay on the corner of a model, and then change the location of the corner of the model, the location of the DWG underlay updates associatively.

The changes you make with the Translate command are now also associative. Re-establish associativity with legacy files: The associativity that exists in a DWG Underlay Inventor part or assembly file is not maintained when you open the file in Inventor Use the Redefine command to re-establish the associativity.

References now have a robust level of associativity. Inventor enabled support for multithreading. Multithreading allows Inventor to use multiple processors if the hardware you are using uses a multi-core processor. As a result, performance is increased when working on files from other CAD systems. Inventor provides more support for multithreading in import workflows, which results in increased performance and faster updates. Importing a STEP file as Reference Model maintains a link to the selected file which enables you to monitor and update as the model changes.

Additional enhancements: Override values entered in the iproperties dialog box display as blue. Revert the value back to the original value using the new context menu option, Value From Source. Override values display in the Bill of Materials. Large mesh files may import slowly. Color is not currently supported. Create faces from mesh facets using the Fit Mesh Face command. Select a mesh facet and the face type you want created, or accept the Auto Fit option, and a preview of the surface appears.

Click Apply and the face is created. Use the Constrain and Assemble commands to create relationships between meshes and between mesh and solids or surfaces. Add work features using mesh as input for workplanes, axes, and points.

Use the Measure Distance and Angle commands with assorted mesh inputs: faces, edges, vertices, and inferred mesh axes, center points, and middle points. Measure Distance and Angle between a mesh component and an assembly feature is not currently supported. Load Express is supported. Visual Styles are supported for mesh components. When you export an Inventor model, selected design view representations are converted to model views and placed in the 3D PDF file.

Use 3D navigation tools to manipulate with the model views. A 3D PDF template file specifies arrangement of exported elements. You can create custom 3D PDF templates and use them to export your models. Design Share owners can now manage Design Shares directly inside of Inventor. You can also move the Connected Design entry button back to its default position using the new context menu on the Connected Design entry button.

New context menu options on the Connected Design entry button also make it easy to turn off Design Shares and get Help with using Inventor Connect. You can press F1 to go to a topic that explains different configuration issues and provides steps for resolving. The Connected Design entry button changes to a broken share icon to indicate an issue with configuration. For example, you can use a single ifeature to cut a hole through multiple bodies in one operation.

Previously, when you placed an ifeature, you could choose which body in a multibody part would be affected by the ifeature, but were limited to one single affected body. Guided Tutorials In previous releases of Inventor, the Guided Tutorial gallery displayed installed tutorials in the Videos and Tutorials panel with a small thumbnail. Clicking the More button in the panel displayed a download page which listed available tutorials as text with no graphics.

In , the Videos and Tutorials panel was removed. The display contains a gallery of all currently available tutorials. Improved Lighting Style Management Environment shown above and Standard Lighting styles used for model scene lighting have been separated into Style types for an improved style management experience. The two style types are distinguished visually by different icons and in the properties listed in the dialog box. These settings are located on the Shadows tab within the Styles Editor user interface.

A new option, Environment, uses the environment image to define Shadow Direction. This enhancement allows you to cycle forward or backward through browser panes that are available in the Inventor model browser; for example: Favorites, Representations, and Vault.

Visual Conflict with Select Other Option Resolved The Select Other feature drop-down menu no longer interferes with the visibility of the object selected. Enhancements to Dialog Boxes The following dialog boxes contain new features: Interference Detected dialog box: A new icon is added in the first column of the interference table in the Interference Detected dialog box.

Click the icon to zoom to the exact location of the detected interference. Previously, you could zoom to the interference by double clicking the item in the dialog box. This action is still supported. The icon is added to make this feature more discoverable. You can sort any column in the lists available within the Interference Detected dialog box. You can also select a column and press a key to search items in your selected column.

Parts List dialog box: In the Parts List dialog box, you can select one or more entries, right click, and open the associated component file not available in Inventor LT. Bill of Materials dialog box: When accessing the Bill of Materials editor in a drawing file, select any cell to open the associated component file not available in Inventor LT. Resizable dialog boxes: The following dialog boxes are now resizable and persist throughout your session: Interference Detected dialog box Insert ifeature dialog box Paste Features dialog box Custom tab in the iproperties dialog box Custom dialog box all tabs.

Shrinkwrap Assemblies You can now batch publish shrinkwrapped versions of your assembly models in Task Scheduler with the same settings in the Assembly Shrinkwrap Options dialog box: All the settings in the Assembly Shrinkwrap Options dialog box now are also available in the Task Scheduler Shrinkwrap Options dialog box. Local Help Now Supports Multiple Languages on the Same Computer You can download and install the offline help in multiple languages on the same computer and access the appropriate language depending on the active language pack.

No reboot is required to access the local help in a different language. To access the help in another language, switch to another language pack. The default number is 50, and the maximum is The changes mainly affect the modeling environment and have a relatively small effect on drawing shaded views where specific metallic materials have been used.

The net effect may look like an increase in exposure or brightness, most noticeable when ray tracing is enabled. If needed, adjust the lighting exposure settings for styles used or created in previous releases. Introduction Datum features are non-solid features used during the construction of other features. The most common datum features include planes, axes, coordinate systems, and curves.

Datum features do. Introduction We will focus on:. A mechanical drawing. It is fast, powerful and easy-to-use for every expert and beginners. Starting DWGSee. Edit sketches of the sketch based features. Edit the sketch plane of the sketch based features. Here you can find all of the drawing and editing tools needed to create fast, accurate, detailed working.

Dimension a sketch. Apply constraints to. Start a new file in the Part. As part of the.