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CATIA V5 INTRODUCTION
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CATIA V5 INTRODUCTION
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This course will introduce you to CATIA V5. This 100% instructor led class will teach you how to build simple parts and assemblies in CATIA and how to make simple drawings of those parts and assemblies. This outline will be the main foundation for you to learn the other applications inside CATIA and the base methodology to achieve success. |
Objective
- Understand the CATIA V5 interface
- Plan the construction of a part in order to properly convey its visual and functional aspects
- Create simple parts in CATIA V5
- Understand how to manage parts in the context of an assembly
- Produce simple drawings and assembly layouts
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INTRODUCTION TO SURFACE DESIGN
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INTRODUCTION TO SURFACE DESIGN
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This course introduces you to the Generative Shape Design interface and basic tools. You will be taught wireframe and surface creation and you will familiarize yourself with hybrid design. |
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Objective
- Identify and use the tools specific to the Generative Shape Design workbench
- Create simple reference and Wireframe geometry
- Use the reference wireframe elements to create simple surfaces
- Create clean topology from a set of surfaces and smooth sharp edges
- Detect and correct the discontinuities on curves and surfaces
- Create solids from surfaces
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ADVANCED SURFACE DESIGN
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ADVANCED SURFACE DESIGN
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This course focuses on the Generative Shape Design tools that CATIA is famous for. You will understand how to generate complex surfacing techniques (class A) in a multi-model environment. |
Objective
- Surface Analysis
- Creating Advanced Swept Surfaces
- Creating Advanced Blending Surfaces
- Additional Surface Design Tools
- Create advanced and parameterized swept surfaces
- Perform advanced surfaces analysis and gap correction
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ADVANCED SOLID BASED DESIGN AND ASSEMBLIES
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ADVANCED SOLID BASED DESIGN AND ASSEMBLIES
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This course will teach you to design ‘Complex’ 3D mechanical parts from sketches in context of an assembly. You will build upon the knowledge gained in the Part Design Course and will be equipped to use ‘Advanced’ features offered by the Part Design workbench. |
Objective
- Use 3D reference Elements to create a part
- Create advanced Sketch-Based Features
- Apply Advanced Dress-Up Features
- Design using Boolean operations
- Share Designs by working in Multi-Model environment
- Analyze Parts
- Annotate Parts for review
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MOLD TOOLING
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MOLD TOOLING
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Upon completion of this course you will be able to create the mold base having guided and fixed components using the CATIA Mold Tooling Design workbench. This class is designed to provide you with the ability to generate a complete assembly of a Plastic Injection Mold. |
Objective
- Introduction to Mold Tooling Design
- Creating a New Mold
- Editing the Mold Base
- Working with Mold Components
- Mold Design to Manufacturing
- Creating Injection Features
- Additional Information
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SHEETMETAL
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SHEETMETAL
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This course will teach you how to design a sheet metal parts using associative feature-based modeling. |
Objective
- Review the terminology and creation process for sheet metal part design
- Define and manage sheet metal part parameters
- Design walls, bends and flanges
- Add features such as cutouts, holes, corners and chamfers
- Create standard and user defined stamped features
- Manage folded and unfolded views and export a finished flat pattern
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GENERAL DIMESIONING AND TOLERANCING
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GENERAL DIMESIONING AND TOLERANCING
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This course will teach you how to create annotation planes in a CATPart and how to add and manage 3D annotations on these planes. You will also learn how to create 3D views in the CATPart and how to use them to create 2D views in a CATDrawing. |
Objective
- Add 3D annotations to a part
- Manage and position these annotations
- Create and manage annotation planes and views
- Manage the 3D geometry associated to the 3D annotations
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FINITE ELEMENT ANALYSIS
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FINITE ELEMENT ANALYSIS
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This course will teach you how to perform a Finite Element Analysis using an existing CATIA parts and assembly, and will focus on the creation of connections between assembly components and how to assign appropriate connection properties. |
Objective
Upon completion of this course you will be able to, at the mechanical design level, complete a static FEA result including:
- Define and customize material properties
- Apply pressure, acceleration and force density loads; and define virtual parts
- Apply pivot, ball-joint, and user-defined restraints
- Compute a frequency analysis for a single part
- Create planar sections with which to visualize internal result values
- Compute and refine a mesh using adaptive meshing in order to achieve a pre-defined accuracy
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