Autodesk Inventor 2020: Advanced Assembly Modeling (Mixed Units)


Book Description

The Autodesk(R) Inventor(R) 2020: Advanced Assembly Modeling guide builds on the skills acquired in the Autodesk Inventor 2020: Introduction to Solid Modeling and Autodesk Inventor 2020: Advanced Part Modeling guides to take you to a higher level of productivity when creating and working with assemblies. You begin by focusing on the Top-Down Design workflow. You learn how tools are used to achieve this workflow using Derive, Multi-Body Design, and Layouts. Other topics include model simplification tools, Positional and Level of Detail Representations, iMates and iAssemblies, Frame Generator, Design Accelerator, and file management and duplication techniques. A chapter has also been included about the Autodesk(R) Inventor(R) Studio to teach you how to render, produce, and animate realistic images. Topics Covered Applying motion to existing assembly constraints using Motion and Transitional Constraints. Introduction of the Top-Down Design technique for creating assemblies and its components. Tools for Top-Down Design, such as associative links, adaptive parts, multi-body and layout design, derived components, and skeleton models. Creating Positional Representations to review motion, evaluate the position of assembly components, or document an assembly in a drawing. Using Shrinkwrap and other model simplification tools to create a part model that represents an overall assembly. Creating Level of Detail Representations to reduce the clutter of large assemblies, reduce retrieval times, and substituting models. Using the Design Accelerator to easily insert standard and customizable components and features into your model. Creating rendered realistic images and animations of parts and assemblies using Autodesk Inventor Studio and the Video Producer. Prerequisites Access to the 2020.0 version of the software, to ensure compatibility with this guide. Future software updates that are released by Autodesk may include changes that are not reflected in this guide. The practices and files included with this guide are not compatible with prior versions (i.e., 2019). The class assumes mastery of Autodesk Inventor basics as taught in Autodesk(R) Inventor(R) Introduction to Solid Modeling. In addition, Autodesk(R) Inventor(R) Advanced Part Modeling knowledge is recommended. The use of Microsoft(R) Excel is required for this guide.




Autodesk Inventor 2020: Advanced Part Modeling (Mixed Units)


Book Description

Autodesk(R) Inventor(R) 2020: Advanced Part Modeling is the second in a series of guides on the Autodesk(R) Inventor(R) software that is published by ASCENT. The goal of this guide is to build on the skills acquired in the Autodesk Inventor: Introduction to Solid Modeling learning guide by taking users to a higher level of productivity when designing part models using the Autodesk Inventor software. In this guide, the user considers various approaches to part design. Specific advanced part modeling techniques covered include: multi-body design, advanced lofts, advanced sweeps, coils, generative shape design, surface modeling, and Freeform modeling. Material aimed at increasing efficiency includes: iFeatures for frequently used design elements, iParts for similar designs, and how to work with imported data. The guide also covers some miscellaneous drawing tools, such as: custom sketches symbols, working with title blocks and borders, and documenting iParts. Topics Covered Advanced model appearance options 2D and 3D sketching techniques Multi-body part modeling Advanced geometry creation tools (work features, area lofts, sweeps, and coils) Analysis tools Generative shape design using Shape Generator Creating and editing basic surfaces, importing surfaces, and surface repair tools iFeatures and iParts Importing data from other CAD systems and making edits Working with AutoCAD DWG files 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 Access to the 2020.0 version of the software (or later). The practices and files included with this guide are not compatible with prior versions. Future software updates that are released by Autodesk may include changes that will not be reflected in this guide. The material assumes a mastery of Autodesk Inventor basics, as taught in Autodesk(R) Inventor(R) Introduction to Solid Modeling. Users should know how to create and edit parts, use work features, create and annotate drawing views, etc. The use of Microsoft Excel is required for this guide.




Autodesk Inventor 2020


Book Description

The Autodesk(R) Inventor(R) 2020: Design Variations and Representations guide contains topics that teach how to efficiently create and represent designs based on existing geometry. You will learn how the iFeature, iPart, and iAssembly tools can leverage existing geometry to quickly create additional or slightly varied geometry. Additionally, how iMates can be used for placement in an assembly. The remaining chapters focus on how you can create positional configurations to evaluate a 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 large assemblies (Level of Detail Representations). The topics covered in this guide are also covered in the following ASCENT guides, which include a broader range of advanced topics: Autodesk(R) Inventor(R) 2020: Advanced Assembly Modeling Autodesk(R) Inventor(R) 2020: Advanced Part Modeling Topics Covered Create and place an iFeature. Use the Copy command to duplicate features in or between models. Create an iPart that can generate different configurations of a model. Insert standard or custom iParts into an assembly. Modify an iPart factory. Use a table-driven iPart to create an iFeature. Build iMate constraints into parts or subassemblies. Manually or automatically match iMates of parts in an assembly and use a Match List. Create, place, and edit an iAssembly. Create and edit different positional representations of an assembly. Create a Shrinkwrap part. Selectively determine which 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. Create and use Level of Detail representations in an assembly. Prerequisites Access to the 2020.0 version of the software, to ensure compatibility with this guide. Future software updates that are released by Autodesk may include changes that are not reflected in this guide. The practices and files included with this guide might not be compatible with prior versions (i.e., 2019). The material covered in this guide assumes a mastery of Autodesk Inventor basics as taught in the Autodesk Inventor: Introduction to Solid Modeling guide.




Autodesk Inventor 2020


Book Description

The Autodesk(R) Inventor(R) 2020: Surface and Freeform Modeling 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 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 guide are also covered in ASCENT's Autodesk(R) Inventor(R) 2020: Advanced Part Modeling 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 Access to the 2020.0 version of the software, to ensure compatibility with this guide. Future software updates that are released by Autodesk may include changes that are not reflected in this guide. The practices and files included with this guide might not be compatible with prior versions (i.e., 2019). The material covered in this guide assumes a mastery of Autodesk Inventor basics as taught in the Autodesk Inventor: Introduction to Solid Modeling guide.







Autodesk Inventor 2020: Introduction to Solid Modeling (Mixed Units) - Part 1


Book Description

Note: This book is continued in Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling - Part 2. The Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling guide provides you with an understanding of the parametric design philosophy through a hands-on, practice-intensive curriculum. You will learn the key skills and knowledge required to design models using Autodesk Inventor, starting with conceptual sketching, through to solid modeling, assembly design, and drawing production. Topics Covered Understanding the Autodesk Inventor software interface Creating, constraining, and dimensioning 2D sketches Creating and editing the solid base 3D feature from a sketch Creating and editing secondary solid features that are sketched and placed Creating equations and working with parameters Manipulating the display of the model Resolving feature failures Duplicating geometry in the model Placing and constraining/connecting parts in assemblies Manipulating the display of components in an assembly Obtaining model measurements and property information Creating Presentation files (Exploded views) Modifying and analyzing the components in an assembly Simulating motion in an assembly Creating parts and features in assemblies Creating and editing an assembly Bill of Materials Working with projects Creating and annotating drawings and views Customizing the Autodesk Inventor environment Prerequisites Access to the 2020 version of the software. The practices and files included with this guide might not be compatible with prior versions. As an introductory guide, Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling does not assume prior knowledge of any 3D modeling or CAD software. You need to be experienced with the Windows operating system, and having a background in drafting of 3D parts is recommended.




Autodesk Inventor 2020: Introduction to Solid Modeling (Mixed Units) - Part 2


Book Description

Note: This book is a continuation of Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling - Part 1 The Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling guide provides you with an understanding of the parametric design philosophy through a hands-on, practice-intensive curriculum. You will learn the key skills and knowledge required to design models using Autodesk Inventor, starting with conceptual sketching, through to solid modeling, assembly design, and drawing production. Topics Covered Understanding the Autodesk Inventor software interface Creating, constraining, and dimensioning 2D sketches Creating and editing the solid base 3D feature from a sketch Creating and editing secondary solid features that are sketched and placed Creating equations and working with parameters Manipulating the display of the model Resolving feature failures Duplicating geometry in the model Placing and constraining/connecting parts in assemblies Manipulating the display of components in an assembly Obtaining model measurements and property information Creating Presentation files (Exploded views) Modifying and analyzing the components in an assembly Simulating motion in an assembly Creating parts and features in assemblies Creating and editing an assembly Bill of Materials Working with projects Creating and annotating drawings and views Customizing the Autodesk Inventor environment Prerequisites Access to the 2020 version of the software. The practices and files included with this guide might not be compatible with prior versions. As an introductory guide, Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling does not assume prior knowledge of any 3D modeling or CAD software. You need to be experienced with the Windows operating system, and having a background in drafting of 3D parts is recommended.




Autodesk Inventor 2021: Advanced Assembly Modeling (Mixed Units): Autodesk Authorized Publisher


Book Description

The Autodesk(R) Inventor(R) 2021: Advanced Assembly Modeling guide builds on the skills acquired in the Autodesk Inventor 2021: Introduction to Solid Modeling and Autodesk Inventor 2021: Advanced Part Modeling guides to take you to a higher level of productivity when creating and working with assemblies. You begin by focusing on the Top-Down Design workflow. You learn how tools are used to achieve this workflow using Derive, Multi-Body Design, and Layouts. Other topics include model simplification tools, Positional and Level of Detail Representations, iMates and iAssemblies, Frame Generator, Design Accelerator, and file management and duplication techniques. A chapter has also been included about the Autodesk(R) Inventor(R) Studio to teach you how to render, produce, and animate realistic images. Topics Covered Applying motion to existing assembly constraints using Motion and Transitional Constraints. Introduction of the Top-Down Design technique for creating assemblies and its components. Tools for Top-Down Design, such as associative links, adaptive parts, multi-body and layout design, derived components, and skeleton models. Creating Positional Representations to review motion, evaluate the position of assembly components, or document an assembly in a drawing. Using Shrinkwrap and other model simplification tools to create a part model that represents an overall assembly. Creating Level of Detail Representations to reduce the clutter of large assemblies, reduce retrieval times, and substituting models. Using the Design Accelerator to easily insert standard and customizable components and features into your model. Creating rendered realistic images and animations of parts and assemblies using Autodesk Inventor Studio and the Video Producer. Prerequisites Access to the 2021.0 version of the software, to ensure compatibility with this guide. Future software updates that are released by Autodesk may include changes that are not reflected in this guide. The practices and files included with this guide are not compatible with prior versions (e.g., 2020). The class assumes mastery of Autodesk Inventor basics as taught in Autodesk(R) Inventor(R) Introduction to Solid Modeling. In addition, Autodesk(R) Inventor(R) Advanced Part Modeling knowledge is recommended. The use of Microsoft(R) Excel is required for this training course.




Autodesk Inventor 2022: Advanced Assembly Modeling (Mixed Units): Autodesk Authorized Publisher


Book Description

The Autodesk(R) Inventor(R) 2022: Advanced Assembly Modeling guide builds on the skills acquired in the Autodesk Inventor 2022: Introduction to Solid Modeling and Autodesk Inventor 2022: Advanced Part Modeling guides to take you to a higher level of productivity when creating and working with assemblies. You begin by focusing on the Top-Down Design workflow. You learn how tools are used to achieve this workflow using Derive, Multi-Body Design, and Layouts. Other topics include model simplification tools, positional representations, model states, iMates and iAssemblies, Frame Generator, Design Accelerator, and file management and duplication techniques. A chapter has also been included about the Autodesk(R) Inventor(R) Studio to teach you how to render, produce, and animate realistic images. Topics Covered Applying motion to existing assembly constraints using Motion and Transitional constraints. Introduction of the Top-Down Design technique for creating assemblies and their components. Tools for Top-Down Design, such as associative links, adaptive parts, multi-body and layout design, derived components, and skeleton models. Creating positional representations to review motion, evaluate the position of assembly components, or document an assembly in a drawing. Using the model simplification tools to create simplified part models and views of assembly designs. Creating model states and iAssemblies to create customizable versions of assembly designs. Creating rendered realistic images and animations of parts and assemblies using Autodesk Inventor Studio and the Video Producer. Using the Design Accelerator and Frame Generator to easily insert standard and customizable components and features into your model. Efficiently duplicating components in an assembly. Adding welds and weld symbols to weldment assemblies. Prerequisites Access to the 2022.0 version of the software, to ensure compatibility with this guide. Future software updates that are released by Autodesk may include changes that are not reflected in this guide. The practices and files included with this guide are not compatible with prior versions (e.g., 2021). The class assumes mastery of Autodesk Inventor basics as taught in Autodesk Inventor: Introduction to Solid Modeling. In addition, Autodesk Inventor: Advanced Part Modeling knowledge is recommended. The use of Microsoft(R) Excel is required for this training course.




Advanced Knitting Technology


Book Description

Advanced Knitting Technology provides complete coverage of the latest innovations and developments in knitting technology, including emerging methods as well as the latest best practice for classical processes. Many technologies can be used for the production of cloth such as weaving, knitting, nonwoven, and braiding. Knitting methods are being selected for a growing range of applications due to the spectacular properties of knitted fabric, such as softer tactile quality, higher stretchability, bulkiness, and functional properties that compare favorably with other woven fabrics. Beyond the well-known apparel applications, specially designed knitted structures are uniquely suitable for high performance applications like reinforcement for composites, medical implants, and geotextiles. This book presents recent advances in knitting technology, including structures, properties and applications of knitted fabrics in modern apparel, activewear, composites, medical textiles, and geotextiles. With reference to the latest industry practice, testing, quality and process control methods for knitting technologies are discussed. Advanced Knitting Technology covers recent advances in knitting technology, properties and performance of knitted structures, their applications in apparel and technical fields. - Provides detailed and practical instructions for the sustainable production of knitted textiles, including sustainable chemical processing natural dyeing processes, and sustainability analysis methods - Draws on the latest research to discuss the future of knitted apparels and high-tech applications of knitted structures as technical textiles - Explores the latest applications of AI and machine learning to the knitting process