Autodesk Inventor 2018: Design Variations and Representations


Book Description

The Autodesk® Inventor® 2018: Design Variations and Representations learning guide contains topics that teach you how to efficiently create and represent designs based on existing geometry. Using this learning guide, you will learn how the iFeature, iPart, and iAssembly tools can be used to leverage existing geometry to quickly and easily create additional or slightly varied geometry, and how iMates can be used to define geometry placement in an assembly. The remaining chapters in the learning guide focus on how you can simplify a model to create positional configurations to evaluate components’ range of motion (Positional Representations), create simplified geometry to share with customers while protecting your intellectual property (Shrinkwrap and Assembly Simplification), and how to manage working with large assemblies (Level of Detail Representations). The topics covered in this learning guide are also covered in the following ASCENT learning guides, which include a broader range of advanced topics: - Autodesk® Inventor® 2018: Advanced Assembly Modeling - Autodesk® Inventor® 2018: Advanced Part Modeling Objectives - Create and place an iFeature. - Use the Copy command to duplicate features in a model or between models. - Create a table-driven iFeature. - Edit an iFeature. - Create an iPart that can generate different configurations of a model. - Insert standard or custom iParts into an assembly. - Replace an iPart in an assembly with a new iPart instance. - Modify an iPart factory. - Use a table-driven iPart to create an iFeature. - Build iMate constraints into parts or subassemblies. - Combine multiple iMates into a Composite iMate group. - Manually or automatically match iMates of parts in an assembly. - Control the order in which iMate pairs are previewed by using the Match List functionality. - Vary constraint settings in iParts by including iMates. - Create and place an iAssembly. - Edit an iAssembly Factory. - Create and edit different positional representations of an assembly by overriding the existing settings of an assembly. - Create a Shrinkwrap part that is a simplification of the original component. - Selectively determine which assembly components to include in a simplified view and use that information to create a new part model. - Define bounding box or cylindrical geometry to represent assembly components and use that information to create a new part model. - Combine the use of a simplified view, envelopes, and visibility settings to create a new simplified model. - Display a system-defined Level of Detail (LOD) Representation. - Simplify the display and create user-defined LOD Representations in an assembly. - Replace a complex component for a simpler one using a Substitute Level of Detail Representation. Prerequisites The material covered in this learning guide assumes a mastery of Autodesk Inventor basics as taught in the Autodesk Inventor: Introduction to Solid Modeling learning guide.




Autodesk Inventor 2018: Design Tools and Strategies


Book Description

The Autodesk® Inventor® 2018: Design Tools and Strategies learning guide provides instruction on how to incorporate the use of top-down design and advanced modeling techniques into your design environment. This learning guide begins with an introduction to top-down design and the Autodesk® Inventor® software tools that can be used. There is a focus on multi-body design, deriving components, working with layouts and sketch blocks, and how associative links and adaptive parts can help you incorporate design intent into your models so they react as expected to change. This learning guide also includes chapters that cover Generative Shape Design, Frame Generator, and Design Accelerator, teaching you how you can use these advanced design tools to quickly create designs that meet your requirements. The topics covered in this learning guide are also covered in the following ASCENT learning guides, which include a broader range of advanced topics: - Autodesk® Inventor® 2018: Advanced Assembly Modeling - Autodesk® Inventor® 2018: Advanced Part Modeling Objectives - Define and compare the differences between bottom-up and top-down design. - Learn how to enforce design intent using three major top-down design techniques. - Create solid bodies and correctly assign features to specific solid bodies. - Modify solid bodies in a model by moving, removing, splitting, combining, or redefining them. - Create new parts and assemblies from the multi-bodies in a single part. - Derive new geometry in a part by importing and referencing objects from a source part. - Create and modify layouts and sketch blocks. - Define and test the kinematic motion of an assembly with the use of nested sketch blocks. - Create 3D models from sketch blocks. - Break the associative link between a sketched feature and reference geometry. - Specify geometric entities of part features to change, while controlling the size or location of other entities in an assembly. - Create a Shape Generator study that sets a goal to meet a mass reduction target. - Assign criteria in a Shape Generator study to accurately define a model's working environment. - Promote a Shape Generator study to the modeling environment. - Quickly and easily create structural frames and defining the location of structural frame members using a skeletal wireframe part. - Adjust frame member ends to obtain required joints. - Create and publish custom frame member profiles to the Content Center. - Automatically create geometry using component generators. Prerequisites The material covered in this learning guide assumes a mastery of Autodesk Inventor basics as taught in the Autodesk Inventor: Introduction to Solid Modeling learning guide.




Autodesk Inventor 2018: Surface and Freeform Modeling


Book Description

The Autodesk® Inventor® 2018: Surface and Freeform Modeling student guide teaches you how to incorporate surfacing and freeform modeling techniques into your design environment. You begin with instruction on how to create the splines and 3D sketches commonly used in surface creation. Chapters on surface creation focus on using these sketches or existing geometry to create surfaces for use in your solid models. Freeform modeling is also covered, which enables you to create complex shapes without needing the constraints required in a parametric workflow. To complete the student guide, you will learn how to use the Autodesk Inventor surface analysis tools to evaluate the continuity between surfaces and the curvature on a surface, determine if the applied draft is within a specified range, and conduct section analysis to evaluate wall thickness values. The topics covered in this student guide are also covered in ASCENT's Autodesk® Inventor® 2018: Advanced Part Modeling student guide, which includes a broader range of advanced learning topics. Topics covered: - Create spline and 3D sketched entities. - Create planar and three-dimensional surfaces. - Combine individual surface features into a single quilted surface. - Add or remove material in a model by referencing a surface. - Create solid geometry using surface geometry. - Remove portions of a surface using a reference surface or work plane. - Manipulate the extent of a surface by extending or stretching it. - Create a new solid face by replacing an existing solid face with surface geometry. - Remove existing surfaces or solid faces from a model. - Copy surfaces from one model into another.Create freeform geometry base shapes, faces, and converted geometry. - Edit freeform base geometry by manipulating existing geometry or adding new elements to the base shape. - Use the surface analysis tools to evaluate continuity between surfaces, check draft values, analyze curvature on a surface, and review sectioned areas of the model. Prerequisites: The material covered in this student guide assumes a mastery of Autodesk Inventor basics as taught in the Autodesk Inventor: Introduction to Solid Modeling student guide.




Autodesk Inventor 2018: Presenting Designs with Image and Animation Tools


Book Description

The Autodesk® Inventor® 2018: Presenting Designs with Image and Animation Tools student guide teaches you how to present your Autodesk® Inventor® designs using tools that are available with the software. You begin in the modeling environment, learning how to customize visual styles, include reflections and shadows in a display, set up and control lighting, and create and assign unique material appearances with the aim of enhancing how the model is presented. The student guide also discusses the Presentation and Inventor Studio environments, which can be used to create compelling still images or animations of a design. The Presentation environment enables you to create snapshot views (still images) and animations to help document an assembly. A presentation file can be used to indicate how parts relate to each other and create an exploded view for a drawing. Animating the exploded view enables you to further show how components fit together in an assembly. Inventor Studio is an alternate tool that can also be used to create realistic renderings or animations of models that can be used in model presentations. The topics covered in this student guide are also covered in the following ASCENT student guides, which include a broader range of advanced topics: - Autodesk® Inventor® 2018: Advanced Assembly Modeling - Autodesk® Inventor® 2018: Advanced Part Modeling - Autodesk® Inventor® 2018: Introduction to Solid Modeling Topics covered: - Enhance the appearance of surfaces and edges of a model by assigning visual styles, ray tracing, reflections, shadows, and a ground plane. - Customize and assign lighting styles to control the number, color, and intensity of light sources in a model. - Manipulate the visual appearance of a material using the in-canvas appearance and texture tools. - Create, assign, and edit existing appearances in the model using the Appearance Browser. - Understand how presentation files can be used to document an assembly model. - Create a presentation file with animations or Snapshot views. - Publish a presentation file to create images and videos. - Render a realistic image of a model that has had appearance, lighting, and camera customizations. - Create a realistic animation of a model by applying parameters, constraints, and actions. - Create a composite video by combining camera shots, animations, and transitions using the Video Producer. - Create a custom environment for use when rendering models. Prerequisites: The material covered in this training guide assumes a mastery of Autodesk Inventor basics as taught in Autodesk® Inventor®: Introduction to Solid Modeling. Enhancements that were introduced in the Presentation environment in the R2 release have been included in this version of the student guide. It is recommended that you use the R2 or R3 release of Autodesk Inventor 2018 with this student guide.




AutoCAD 2018 Review for Professional Certification


Book Description

AutoCAD® 2018: Review for Professional Certification is a comprehensive review guide to assist in preparing for the AutoCAD Certified Professional exam. It enables experienced users to review learning content from ASCENT that is related to the exam objectives. New users of the AutoCAD ® 2018 should refer to the following ASCENT student guides: AutoCAD®/AutoCAD LT® 2018: FundamentalsAutoCAD®/AutoCAD LT® 2018: EssentialsAutoCAD®/AutoCAD LT®2018: Beyond the BasicsAutoCAD® 2018: Advanced Prerequisites: AutoCAD® 2018: Review for Professional Certification is intended for experienced users of the AutoCAD software. Autodesk recommends 400 hours of hands-on software experience prior to taking the AutoCAD Certified Professional exam.




Autodesk Advance Steel 2018 Fundamentals


Book Description

The Autodesk® Advance Steel software is a powerful 3D modeling application that streamlines the fabrication process through the use of a 3D model which is used to create fabrication drawings, Bill of Materials (BOM) lists, and files for Numerical Control machines (NC). Since structural steel projects are extremely complex, the Autodesk Advance Steel software is also complex. The objective of the Autodesk® Advance Steel 2018: Fundamentals learning guide is to enable you to create full 3D project models at a high level of detail and set them up in fabrication drawings. This learning guide focuses on the basic tools that the majority of users need. You begin by learning the user interface, basic 3D viewing tools, and the standard AutoCAD® tools that are routinely used. Specific Autodesk Advance Steel objects, including structural columns, beams, bracing, plates, bolts, anchors, welds, and additional 3D objects are also covered. To complete the learning guide, you will learn to generate all of the required documentation files that enable your design to accurately and effectively communicate the final design. Topics Covered:Understand the process of 3D modeling and extracting 2D documentation from a model in the Autodesk Advance Steel software.Navigate the Autodesk Advance Steel interface.Work with 3D viewing tools.Review helpful AutoCAD Tools.Work with the User Coordinate System (UCS).Use the Autodesk Advance Steel Modify commands.Add structural grids.Create levels.Model columns and beams and add bracing.Create connections using the Connection Vault.Create custom connections.Create plates and add bolts, anchors, and welds.Add grating and cladding.Model ladders, stairs, and railings.Create concrete objects such as footings.Number objects.Extract 2D drawings from the model using Drawing Styles and Drawing Processes.Review and modify 2D drawings using the Document Manager.Modify 2D details with parametric dimensions.Revise models and drawings.Create Bill of Materials (BOM) lists.Export data to .NC and .DXF files. Prerequisites: Knowledge of basic AutoCAD tools.




Autodesk Inventor 2018: Review for Professional Certification


Book Description

Autodesk® Inventor® 2018: Review for Professional Certification is a comprehensive review guide to assist in preparing for the Autodesk Inventor Certified Professional exam. It enables experienced users to review learning content from ASCENT that is related to the exam objectives. New users of the Autodesk® Inventor® 2018 software should refer to the following ASCENT student guides: - Autodesk® Inventor® 2018: Introduction to Solid Modeling - Autodesk® Inventor® 2018: Advanced Assembly Modeling - Autodesk® Inventor® 2018: Advanced Part Modeling - Autodesk® Inventor® 2018: Sheet Metal Design Prerequisites Autodesk® Inventor® 2018: Review for Professional Certification is intended for experienced users of the Autodesk Inventor software. Autodesk recommends 400 hours of hands-on software experience prior to taking the Autodesk Inventor Certified Professional exam.




Autodesk Revit 2018 Structure: Review for Professional Certification


Book Description

Autodesk® Revit® 2018 Structure: Review for Professional Certification is a comprehensive review guide to assist in preparing for the Autodesk Revit Structure Certified Professional exam. It enables experienced users to review learning content from ASCENT that is related to the exam objectives. New users of Autodesk® Revit® Structure should refer to the following ASCENT learning guides: - Autodesk® Revit® 2018: Structure Fundamentals - Autodesk® Revit® 2018: Architecture Fundamentals - Autodesk® Revit® 2018: Collaboration Tools - Autodesk® Revit® 2018: BIM Management: Template and Family Creation Prerequisites Autodesk® Revit® 2018 MEP: Review for Professional Certification is intended for experienced users of the Autodesk Revit software. Autodesk recommends 400 hours of hands-on software experience prior to taking the Autodesk Revit Structure Certified Professional exam.




Autodesk Inventor 2018: Working with Imported Data


Book Description

The Autodesk® Inventor® 2018: Working with Imported Geometry student guide teaches you how to work with data from other CAD platforms using the Autodesk Inventor software. Using this student guide, you will learn the various methods for importing data into Autodesk Inventor and how you can edit both imported solid and surface data. Additionally, you will learn how to index scanned point cloud data, and attach and use it in an Inventor file. The final chapters in this student guide discuss how you can use AutoCAD .DWG files in the Autodesk Inventor software. The topics covered in this student guide are also covered in ASCENT's Autodesk® Inventor® 2018: Advanced Part Modeling student guide, which includes a broader range of advanced learning topics. Topics covered: - Import CAD data into the Autodesk Inventor software. - Export CAD data from the Autodesk Inventor software in an available export format. - Index a supported point cloud data file, attach, and edit it for use in a file. - Use the Edit Base Solid environment to edit solids that have been imported into the Autodesk Inventor software. - Create Direct Edit features in a model that move, resize, scale, rotate, and delete existing geometry in both imported and native Autodesk Inventor files. - Set the import options to import surface data from other file format types. - Transfer imported surface data into the Repair Environment to conduct a quality check for errors. - Appropriately set the stitch tolerance value so that gaps in the imported geometry can be automatically stitched and identify the gaps that are not stitched. - Use the Repair Environment commands to repair gaps or delete, extend, replace, trim and break surfaces to successfully create a solid from the imported geometry. - Open an AutoCAD DWG file directly into an Autodesk Inventor part file and review the data. - Use the DWG/DXF File Wizard and its options to import files into an Autodesk Inventor file. - Use an AutoCAD DWG file in an Autodesk Inventor part file so that the geometry created in Inventor remains associative with the AutoCAD DWG file. - Freeform modeling. - Emboss and Decal features. - Advanced Drawing tools (iPart tables, surfaces in drawing views, and custom sketched symbols). - Adding notes with the Engineer’s Notebook. Prerequisites: The material covered in this training guide assumes a mastery of Autodesk Inventor basics as taught in Autodesk® Inventor®: Introduction to Solid Modeling.




Autodesk Revit 2018 Architecture: Review for Professional Certification


Book Description

Autodesk® Revit® 2018 Architecture: Review for Professional Certification is a comprehensive review guide to assist in preparing for the Autodesk Inventor Certified Professional exam. It enables experienced users to review learning content from ASCENT that is related to the exam objectives. New users of the Autodesk® Revit® 2018 Architecture should refer to the following ASCENT learning guides: Autodesk® Revit® 2018: Architecture: FundamentalsAutodesk® Revit® 2018: Architecture: Conceptual Design & VisualizationAutodesk® Revit® 2018: Architecture: Site and Structural DesignAutodesk® Revit® 2018: BIM Management: Template and Family CreationAutodesk® Revit® 2018: Collaboration Tools