Autodesk Inventor 2017 Introduction To Solid Modeling Part 2

Author: ASCENT - Center for Technical Knowledge
Editor: Ascent, Center for Technical Knowledge
ISBN: 9781943184361
Size: 20,98 MB
Format: PDF, ePub, Docs
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Note: This book is a continuation of "Autodesk Inventor 2017 (R1): Introduction to Solid Modeling - Part 1." The "Autodesk Inventor 2017 (R1): Introduction to Solid Modeling" student 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 needed to design models using Autodesk Inventor, starting with conceptual sketching, through to solid modeling, assembly design, and drawing production. Topics Covered in Part 2: Placing and constraining/connecting parts in assemblies Manipulating the display of components in an assembly Duplicating components in an assembly Obtaining model measurements and property information Creating Presentation files (Exploded views and Animations) 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 As an introductory training guide, "Autodesk Inventor 2017 (R1): Introduction to Solid Modeling" does not assume prior knowledge of any 3D modeling or CAD software. Students do need to be experienced with the Windows operating system and a background in drafting of 3D parts is recommended.

Autodesk Inventor 2019

Author: ASCENT - Center for Technical Knowledge
Editor:
ISBN: 9781947456143
Size: 18,57 MB
Format: PDF, ePub
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Note: This book is a continuation of Autodesk Inventor 2019: Introduction to Solid Modeling - Part 1. The Autodesk(R) Inventor(R) 2019: Introduction to Solid Modeling learning 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 needed to design models using Autodesk Inventor, starting with conceptual sketching, through to solid modeling, assembly design, and drawing production. Topics Covered Understanding the Autodesk(R) Inventor(R) 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 Duplicating components in an assembly Obtaining model measurements and property information Creating Presentation files (Exploded views and Animations) 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 2019 version of the software. The practices and files included with this guide might not be compatible with prior versions As an introductory learning guide, Autodesk Inventor 2019: Introduction to Solid Modeling does not assume prior knowledge of any 3D modeling or CAD software. Students do need to be experienced with the Windows operating system and a background in drafting of 3D parts is recommended.

Autodesk Inventor 2017 Ilogic

Author: ASCENT - Center for Technical Knowledge
Editor: Ascent, Center for Technical Knowledge
ISBN: 9781943184415
Size: 17,22 MB
Format: PDF, ePub, Docs
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The Autodesk(R) Inventor(R) 2017 (R1) iLogic student guide teaches students to use the iLogic functionality that exists in the Autodesk(R) Inventor(R) 2017 (R1) software. In this practice-intensive curriculum, students acquire the knowledge needed to use iLogic to automate Autodesk Inventor designs. In this student guide, students learn how iLogic functionality furthers the use of parameters in a model by adding an additional layer of intelligence. By setting criteria in the form of established rules they learn how to capture design intent, enabling them to automate the design workflow to meet various design scenarios in part, assembly, and drawing files. Topics Covered iLogic functionality overview. iLogic workflow overview. Review of model and user-defined parameters, and equations and their importance in iLogic. Understanding the iLogic interface components (iLogic Panel, Edit Rule dialog box, and iLogic Browser). Rule creation workflow for Autodesk Inventor parts and assemblies. Using variations of conditional statements in an iLogic rule. Accessing and incorporating the various function types into an iLogic part, assembly, or drawing file rule. Event Triggers and iTriggers. Creating Forms to create a custom user interface for an iLogic rule. Prerequisites The class assumes a mastery of Autodesk Inventor basics as taught in Autodesk Inventor Introduction to Solid Modeling. The Autodesk Inventor Advanced Part and Assembly Modeling student guides are also highly recommended. No programming knowledge is required to use the basic iLogic functions; however, programming experience can be an asset when using the advanced functions.

Autodesk Inventor 2018 Advanced Part Modeling

Author: ASCENT - Center for Technical Knowledge
Editor:
ISBN: 9781946571229
Size: 14,84 MB
Format: PDF, ePub, Mobi
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The Autodesk Inventor 2018: Advanced Part Modeling is the second in a series of training 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 training guide by taking students to a higher level of productivity when designing part models using the Autodesk Inventor software. In this training guide, the student 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 The material assumes a mastery of Autodesk Inventor basics as taught in Autodesk Inventor Introduction to Solid Modeling. Students 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 training course.

Autodesk Inventor 2018 Sheet Metal Design

Author: ASCENT - Center for Technical Knowledge
Editor: Ascent, Center for Technical Knowledge
ISBN: 9781946571274
Size: 13,11 MB
Format: PDF, ePub
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The Autodesk(R) Inventor(R) 2018: Sheet Metal Design student guide introduces the concepts and techniques of sheet metal modeling with the Autodesk Inventor software. The structure of the student guide follows the typical stages of using the Autodesk Inventor software. That is, to create and edit sheet metal parts, generate flat patterns, and document the designs in drawings. Topics Covered Autodesk Inventor Sheet Metal interface Sheet metal design process Creating base Faces, Contour Flanges, and Contour Rolls Creating secondary Faces, Contour Flanges, and Contour Rolls Sheet metal parameters Creating Flanges Creating Hems, Folds, and Bends Corner Rounds and Chamfers Sheet Metal Cuts (Holes, Cuts, and Punch Features) Corner Seams (Seams and Miters) Generating Flat Patterns Lofted Flanges Rips Unfolding and Refolding Multi-Body Sheet Metal Modeling Documentation and Annotation of drawings Converting solid models to sheet metal models Sheet Metal Styles Prerequisites Prior knowledge of 3D solid part modeling using the Autodesk(R) Inventor(R) software. Familiarity with the Microsoft(R) Windows(R) operating system. A background in designing and drafting 3D parts is recommended. Knowledge of sheet metal processing is an asset, but not required.

Autodesk Inventor 2019 Essentials Plus

Author: Daniel Banach
Editor: SDC Publications
ISBN: 1630571725
Size: 17,93 MB
Format: PDF, Docs
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Autodesk Inventor 2019 Essentials Plus provides the foundation for a hands-on course that covers basic and advanced Autodesk Inventor features used to create, edit, document, and print parts and assemblies. You learn about part and assembly modeling through real-world exercises. Autodesk Inventor 2019 Essentials Plus demonstrates critical CAD concepts, from basic sketching and modeling through advanced modeling techniques, as it equips you with the skills to master this powerful professional tool. The book walks you through every component of the software, including the user interface, toolbars, dialogue boxes, sketch tools, drawing views, assembly modeling, and more. Its unique modular organization puts key information at your fingertips, while step-by-step tutorials make it an ideal resource for self-learning. Packed with vivid illustrations and practical exercises that emphasize modern-day applications, Autodesk Inventor 2019 Essentials Plus will prepare you for work in the real world. Each chapter is organized into four sections. Objectives, which describe the content and learning objectives; topic coverage, which presents a concise review of the topic; exercises, which present the workflow for a specific command or process through illustrated step-by-step instructions; and finally a checking your skills section, which tests your understanding of the material. Who Should Use This Manual? The manual is designed to be used in instructor-led courses, although you may also find it helpful as a self-paced learning tool. It is recommended that you have a working knowledge of Microsoft® Windows® as well as a working knowledge of mechanical design principles.

Autocad Electrical 2018 Fundamentals With Nfpa Standards

Author: ASCENT - Center for Technical Knowledge
Editor:
ISBN: 9781946571366
Size: 12,61 MB
Format: PDF, Kindle
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The AutoCAD(R) Electrical 2018: Fundamentals with NFPA Standards learning guide covers the indispensable core topics for working with the AutoCAD(R) Electrical software. In this learning guide, you will learn how to use many of the powerful electrical drawing creation tools in the AutoCAD Electrical software. You will create schematic drawings (ladder logic and point to point), panel drawings, and PLC-I/O circuits using automated commands for symbol insertion, component tagging, wire numbering, and drawing modification. In addition, you are introduced to methods of customizing AutoCAD Electrical symbols, circuits, and databases. Other topics covered include titleblock linking, reporting tools, templates, and project files. Topics Covered Understanding project files Creating and editing schematic and panel drawings Working with PLC symbols Creating custom symbols Generating reports Prerequisites Before taking this course, students need to have a good working knowledge of the AutoCAD(R) software and electrical terminology.

Autodesk Inventor 2018 Surface And Freeform Modeling

Author: ASCENT - Center for Technical Knowledge
Editor:
ISBN: 9781946571656
Size: 17,82 MB
Format: PDF
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The Autodesk(R) Inventor(R) 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(R) Inventor(R) 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 Tube And Pipe Design

Author: ASCENT - Center for Technical Knowledge
Editor: Ascent, Center for Technical Knowledge
ISBN: 9781946571298
Size: 12,67 MB
Format: PDF, Kindle
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The Autodesk(R) Inventor(R) 2018: Tube and Pipe Design student guide instructs students on the use of the Inventor Tube and Pipe environment. Through a hands-on, practice-intensive curriculum, students acquire the knowledge needed to design routed elements, including tubing, piping, and flexible hose. With specific tools to incorporate tube and pipe runs into digital prototypes, the Inventor Tube and Pipe environment provides rules-based routing tools that select the correct fittings and helps the pipe run to comply with your standards for segment length, round-off increments, and bend radius, that the student will learn to maximize. Topics Covered Describe the tube and pipe environment and why you would use it. Set up routes and runs and place the initial fittings in your tube and pipe design. Create, edit, and manage routes for rigid pipe, rigid tube, and flexible hose designs. Manage content libraries, publish custom content to content libraries, and create new styles that use custom content. Document tube and pipe designs through the creation of 2D drawings and parts lists and export the 3D design data. Prerequisites This student guide is designed for experienced users of the Autodesk Inventor software. The following is recommended: Students should have completed the Autodesk(R) Inventor(R) 2018: Introduction to Solid Modeling student guide, or have an equivalent understanding of the Autodesk Inventor 2018 user interface and working environments. Knowledge of part modeling, assembly modeling, and drawing view creation and annotation, is recommended.

Humanizing Digital Reality

Author: Klaas De Rycke
Editor: Springer
ISBN: 9811066116
Size: 18,50 MB
Format: PDF
Read: 273
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This book aims at finding some answers to the questions: What is the influence of humans in controlling CAD and how much is human in control of its surroundings? How far does our reach as humans really go? Do the complex algorithms that we use for city planning nowadays live up to their expectations and do they offer enough quality? How much data do we have and can we control? Are today’s inventions reversing the humanly controlled algorithms into a space where humans are controlled by the algorithms? Are processing power, robots for the digital environment and construction in particular not only there to rediscover what we already knew and know or do they really bring us further into the fields of constructing and architecture? The chapter authors were invited speakers at the 6th Symposium "Design Modelling Symposium: Humanizing Digital Reality", which took place in Ensa-Versailles, France from 16 - 20 September 2017.