CATIA V5R21 for Designers introduces the reader to CATIA V5R21, one of the world's leading parametric solid modeling packages. In this textbook, the author. CATIA V5R21 for Designers introduces the reader to CATIA V5R21, one of the world's Get your site here, or download a FREE site Reading App. Editorial Reviews. About the Author. Prof. Sham Tickoo is currently working as a Professor at CATIA V5R21 for Designers - site edition by Prof. Sham Tickoo. Download it once and read it on your site device, PC, phones or tablets.
|Language:||English, Indonesian, German|
|Genre:||Academic & Education|
|ePub File Size:||21.71 MB|
|PDF File Size:||10.53 MB|
|Distribution:||Free* [*Registration needed]|
Download Now: raudone.info?book= Download CATIA VR for Designers Ebook #ebook #full #read. CATIA V5R21 for Designers book. Read reviews from world's largest community for readers. As of today we have 87,, eBooks for you to download for free. No annoying ads, no download CATIA V5 Tutorials in Mechanism Design and Animation.
It provides review capabilities including 3D tolerancing and annotation and allows you to perform a precise analysis of the geometric product definition.
Table of Contents
It does not allow you to save the created data or to export it. This configuration is subject to controlled availability in this release.
It allows designers to interactively create realistic and dynamic renderings and animations of Class A geometry in real time using Real Time Rendering 2 RTR. Capabilities include global shape mapping and deformation and extensions to base functions, such as advanced filleting, global blending, sweeping, and global flange creation. It also offers feature modeling and specialized functions dedicated to engineering features and advanced analysis to check head impact areas, gaps, and component levels.
It defines mechanical assembly constraints, automatically positions parts, and checks assembly consistency.
Interactive drafting for drawing production: 3D Insight offers a subset of Interactive Design product without the capability to save the imported data and to export in any 2D format.
You can address 2D design and drawing production requirements. You can import data but cannot export data. DMU Dimensioning and Tolerancing Review lets you visualize, query, and filter mechanical dimensioning and tolerancing information.
CATIA V5 Learning Paths
You can create in-context wireframe construction elements and basic surfaces. V4 integration: 3D Insight offers a subset of the V4 Integration product. It offers advanced surface and curve functions to create, modify, and analyze aesthetic and ergonomic shapes to the highest quality. It supports a hybrid environment for both explicit and feature-based surface modeling.
With traditional direct surface modeling techniques as the base, accompanied by strong associative and feature-based modeling methodology, ICEM Shape Design Center 2 significantly improves productivity within the Class A design process, delivering new levels of integration within the product development life cycle. This add-on module enables the creation and modeling of aesthetic and ergonomic shapes using advanced global surface modeling and shape modeling capabilities.
In addition, this product provides specialized Class A and dedicated industry-specific functions, such as advanced filleting, tri-tangent filleting, gap creation, accelerated surfaces, and feature modeling. Its specialized modeling functions and global modeling capabilities support typical aerospace workflow and processes. The configuration offers a comprehensive hybrid modeling environment for both explicit and feature-based surface modeling for high-quality surface generation, modeling, and analysis.
AeroExpert addresses both engineering and aeronautical needs by generating high-quality smooth but simple surfaces while respecting strict engineering tolerance requirements.
Material plasticity, typical of metals, can be modeled, as well as the nonlinear elasticity in hyper-elastic materials like rubber. Nonlinear Structural Analysis also provides more advanced contact capabilities, such as friction at contacting surfaces and the automatic detection of contact surfaces based on their proximity.
When used in conjunction with Thermal Analysis ATH , a new class of analysis problems can be tackled. Nonlinear structural analysis can be performed, including the effects of the temperature distribution calculated by Thermal Analysis, which can cause parts to expand and contract and also affect their material properties.
A steady-state or transient temperature distribution can be calculated in response to direct heating of a surface, the flow of a fluid past a surface, or the specified temperature of the surface.
CATIA V5 - kurz und bündig: Grundlagen für Einsteiger
The thermal material properties can be temperature dependent. When analyzing assemblies, the conductivity across the interface between contacting parts can be specified.
Thermal Analysis is available as both a shareable product and an AOP. It gives you the means to specify globally the desired meshing treatment of entities such as holes, fillets, and beads. Rules Based Meshing also gives you a means to specify acceptable element quality criteria, such as minimum edge length, aspect ratio, and skewness. Once the complete set of meshing rules has been specified, no additional user involvement is necessary, as the actual mesh generation is completely automated.
Rules Based Meshing features: Fully automatic meshing of complex surface geometry: Once the rules have been defined, you only need to push a button, and Rules Based Meshing generates the mesh automatically.
Automatic meshing greatly increases productivity because much less time is spent making manual improvements to the mesh. Higher quality surface meshes with fewer elements: The end-result of the rules-based meshing process is a higher quality and more efficient surface mesh than was possible previously. The mesh is optimized based on the rules, which is much more efficient than manual operations.
Rather than modifying and refining the mesh where you notice problems, Rule Based Meshing considers the meshing problem in a global sense and does not need to over-refine to meet meshing objectives.
User-defined rules to completely govern the treatment of common geometric entities: Rules Based Meshing can recognize common geometric entities, such as holes, fillets, and beads, and treat them in a manner consistent with your requirements.
For example, you can specify that holes with a diameter of less than 5 mm be removed, holes between 5 mm and 10 mm should have a single washer layer of six elements around the circumference, whereas holes with a diameter between 10 mm and 15 mm have two washer layers around the circumference. Using this approach, you can ensure consistent treatment of geometry from one region to the next and from one model to the next. Pre-specified mesh quality targets to guide the mesher to create meshes with the desired level of quality: In addition to consistent treatment of common geometric entities, Rules Based Meshing lets the you specify mesh quality targets to satisfy objectives for global quality.
You can specify limits for element geometry, such as minimum edge length, element aspect ratio, and element skewness, to ensure that element shape is not detrimental to simulation results. Consistent meshing results for all geometries subjected to the same meshing: Because Rules Based Meshing let you use the same set of rules for any number of part meshes, it ensures a high level of consistency in meshing results.
Such consistency is very important, especially when comparing models with minor variations. In such cases it is important that differences in the meshes do not influence the results. Easily selected meshing rules appropriate to the target discipline: Each simulation discipline has its own mesh requirements to produce high-quality results with an acceptable number of elements.
With Rules Based Meshing, you can easily select the appropriate set of rules for the target simulation discipline, such as noise vibration harshness NVH , durability, and crash. It is subject to controlled availability in this release. Nested assembly export: Large assemblies can be exported in multiple STEP files, with one file for each product.
There are two possible options, global and partial.
Supports validation properties: A global parts and assembly level offers center of gravity, volume, and area. First, you'll learn the fundamental tools and toolboxes from the Assembly Design workbench in CATIA V5, as well as how they are manipulated in 3D space on a product file.
Finally, you'll achieve detailed inspections and assembly validations for accuracy verification. When you're finished with this CAD course, you'll not only be able to assemble an office desk, but will also be proficient in any kind of multi-part product assembly in CATIA V5.
Can you help me find a CATIA V5 ebook to download?
About the author Bruno Giuntoli About the author Bruno is an aerospace manufacturing engineer with an MSc in composite materials design. My name is Bruno, and I'm a water sports and sailing enthusiast, as well as an aerospace manufacturing engineer with experience in the aerospace industry and academia.
Currently, other than being a Pluralsight course author, I work as an RND project engineer and designer. Some of the major topics that we will cover include putting together the pieces of an office desk on a step-by-step process, importing parts from third-party vendors, applying functional constraints, and verifying the assembly accuracy.
By the end of this course, you will be fully proficient on the basic assembly methods and techniques required to create your own product assemblies on CATIA V5.
On this first module, I will present the basic tools and concepts needed to assemble your product in the assembly design workbench on CATIA V5, how to customize your workspace for a quick reaching of the needed tools, the importance on defining the main assembly part, the process to include the multiple parts needed to complete the product, and how to efficiently manipulate all these pieces to generate a functionally-constrained assembly. These first steps will help you to get proficient on the manipulation on any kind of assemblies and products on CATIA V5.
So let's get started with the key points on this module. On this getting started module, I will begin with a quick overview of the assembly design workbench main elements showing you how to set up and customize your own workspace for a faster reach of the needed tools, as well as a detailed description on how to use these tools for a fully-constrained assembly.
CATIA V5R21 for Designers
Then, we're going to start a first product assembly file by placing the first and main part.SDNF is designed to be expandable to meet future needs and capabilities.
Repetition GSD mechanism: This release adds a relative mode for the creation of repetition features. In the case of Aerospace engineering an additional module named the aerospace sheetmetal design offers the user combine the capabilities of generative sheetmetal design and generative surface design. It supports a hybrid environment for both explicit and feature-based surface modeling.
It provides tools to complete product definition, including functional tolerances as well as kinematics definition. Drawing with mold conventions: Even if a tooling element includes part of the definition of the hole it creates in an impacted part, the rest of this definition depends on how this element is inserted into the molded part. Once you learn your way around, more On the Assembly Technique's module, I will present many specifics related to found manipulation, the practical use of constraint, as well as some techniques that will potentially save you some time while creating or modifying an assembly.