The CATIA V5-6R2015: Introduction for Managers and Reviewers student guide provides an introduction to the interface and analysis capabilities of CATIA V5. Upon completion of this course, you will have acquired the skills to work with existing model data in CATIA V5. Through this extensive hands-on course with numerous practice exercises, focus will be given to concepts of measurement, analysis, image capture, and drawing creation.

Topics Covered

• Overview of Parametric Design Process
• Customization of CATIA V5 Environment
• Feature Management Using...

The CATIA V5-6R2015: Generative Drafting (ANSI) student guide enables you to use the generative capabilities of CATIA V5 to create an ANSI drawing from a 3D solid Part. This course is appropriate for new CATIA V5 users.

Topics Covered

• Start a generative drawing
• Define the main views
• Define section views and cuts
• Define secondary views: detail, clipping, broken, breakout, auxiliary, isometric and unfolded views
• Edit a view and sheet properties
• Add sheets to a drawing
• Reposition views
• Modify section, detail and auxiliary profiles...

The CATIA V5-6R2015: Functional Tolerancing & Annotation student guide is extensive hands-on course with numerous practices that helps you acquire the skills to create and display engineering, manufacturing, and assembly information directly on the 3D part, assembly, or process model. Students attending this course will receive a thorough understanding of geometric tolerances, dimensions, notes, and other annotations critical to the accurate and cost-effective creation of mechanical parts and assemblies. The 3D Functional Tolerancing and Annotation course complies with the industry...

The CATIA V5-6R2015: Advanced Surface Design student guide expands on the knowledge learned in the CATIA: Introduction to Surface Design student guide by covering advanced curve and surface topics found in the Generative Shape Design Workbench. Topics include: advanced curve construction, advanced swept, blend and offset surface construction, complex fillet creation, and the use of laws. Curve and surface analysis are introduced to validate the student's geometry. Tools and methods for rebuilding geometry are also discussed. As with the CATIA: Introduction to Surface Design student...

The ENOVIA V5-6R2015: DMU Fitting Simulator student guide enables you to simulate the assembly and dis-assembly of components. These simulations are analyzed for clash and minimum distances to determine whether the assembly process is realistic. Also, swept volumes are developed to visualize clash conditions. Finally, the path finder tool is used to modify a track to avoid a clash condition.

Topics Covered

• Introduction to the DMU Fitting workbench.
• Creating a shuttle.
• Creating a track and modifying track operators.
• Generating a sequence....

The ENOVIA V5-6R2015: DMU Navigator and Space Analysis student guide is an introduction to the DMU workbenches of the ENOVIA suite of products. Digital Mock-Up (DMU) is primarily used as a viewing and analysis tool for 3D CAD data. Students will be introduced to the DMU interface by viewing, manipulating and analyzing 3D model geometry. Specific focus is made on the Space Analysis workbench, which provides access to clash, sectioning, and comparison tools. Based on the results of these analyses, students will learn to create annotations directly on the 3D geometry in order to...

The ENOVIA V5-6R2015: DMU Kinematics student guide focuses on how to create and simulate V5 mechanisms using CATIA products. The course begins with an overview of the mechanism design process and then each step in the process is discussed in depth using lectures and hands-on practices. This course also introduces the concept of converting assembly constraints into kinematic joints. Additionally, this student guide provides an introduction to converting V4 mechanisms to V5 as well as the 3D model method of creating kinematic assemblies.

Topics Covered

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The AutoCAD^(R)/AutoCAD LT^(R) 2018: Fundamentals student guide is designed for those using AutoCAD(R) or AutoCAD LT(R) 2018 with a Windows operating system. This student guide is not designed for the AutoCAD for Mac software.

The objective of AutoCAD/AutoCAD LT 2018: Fundamentals is to enable students to create a basic 2D drawing in the AutoCAD software.

Part 1 (chapters 1 to 20) covers the essential core topics for working with the AutoCAD software. The teaching strategy is to start with a few basic tools that enable the student to create...

The AutoCAD^(R)/AutoCAD LT^(R) 2018: Fundamentals student guide is designed for those using AutoCAD(R) or AutoCAD LT(R) 2018 with a Windows operating system. This student guide is not designed for the AutoCAD for Mac software.

The objective of AutoCAD/AutoCAD LT 2018: Fundamentals is to enable students to create a basic 2D drawing in the AutoCAD software.

Part 1 (chapters 1 to 20) covers the essential core topics for working with the AutoCAD software. The teaching strategy is to start with a few basic tools that enable the student to create...

The AutoCAD^(R)/AutoCAD LT^(R) 2018: Fundamentals student guide is designed for those using AutoCAD(R) or AutoCAD LT(R) 2018 with a Windows operating system. This student guide is not designed for the AutoCAD for Mac software.

The objective of AutoCAD/AutoCAD LT 2018: Fundamentals is to enable students to create a basic 2D drawing in the AutoCAD software.

Part 1 (chapters 1 to 20) covers the essential core topics for working with the AutoCAD software. The teaching strategy is to start with a few basic tools that enable the student to create...