CATIA – Generative Shape Design (GSD) helps to design advanced shapes based on a combination of wireframe and extensive multiple surface features, with. “The Generative Shape Design workbench allows you to quickly model both simple and Visit catiatutorial – YouTube for more details/tutorials. Learn the surfacing tools used most often in CATIA’s Generative Shape Design Workbench such as pads, revolves, sweeps, and multi-section solids. Discover.
|Published (Last):||24 February 2007|
|PDF File Size:||16.9 Mb|
|ePub File Size:||10.20 Mb|
|Price:||Free* [*Free Regsitration Required]|
The FreeStyle capability is improved with the addition of wireframe function. Its feature-based approach offers a productive and intuitive design environment to capture and reuse design methodologies and specifications. Both standard and advanced combinations of elements use associative transformation, including symmetry, scaling, translation, affinity, extrapolation and fillet.
GSD has features that are used to join several surfaces together. Comprehensive set of advanced associative shape design features Shape Structure Editor facilitates the capture of design intent and speeds up design changes Integrated with CATIA Part Design and CATIA FreeStyle products for hybrid part design Time-saving modifications management Flexible post-design 3D parameterization Reuses the same surface geometry in different parts allowing concurrent engineering.
GSD’s Shape Structure Editor facilitates the capture of design intent and accelerates design changes. It provides an extensive set of tools for creating and modifying mechanical surfaces used in the design of complex shapes or hybrid parts.
The Windows user interface reduces the learning curve for new users. The Adaptive sweep function.
CATIA V5-6R2016 drives higher Design excellence
Standard and advanced surface features include extrude, revolute, sweep, including segment and circleoffset including skin and fill. Your email address will not be published. This functionality allows to create some high level and complex mechanical surfaces.
Is important at first to know all commands and what they can do. To be an experimented user of module Generative Shape Design, you must work many hours creating, modifying and using parts in this module. An other example of a smart modification system: Tutorrial Geometrical set will store all lines, curves, points and other construction elements in one. We also share information about your use of our site with dexign social media, advertising and analytics partners.
Generative Shape Design #1 – CATIA V5 Beginner Tutorial – How to use Extrude and Split
An assistant helps create and modify wireframe elements in a 2D environment. It includes high-level features with full specification capture and reuse. I recommend you to use a book or YouTube tutorials to learn what can do this module. Product Key Customer Benefits. Very useful and simple example…. The surface design specification can be also displayed in various modes, such as the Windows Explorer tree style or CATIA V4 ‘V’ shaped catai style, displaying all dependencies between features.
After that type the name of part and I recommend ticking the box Create a geometrical set. If you want know how to use this module, you should try to use this module to create simple parts at first, like a cylinder, cube or other else simple geometrical form.
Comments Very useful and simple example…. Several GSD features help for efficient management of design modifications. The feature editor can zoom and pan the surface design specification.
If you know all this things and can think like an engineer you will be very impressed by the complexity of the GSD module. Your friends will be happy to read this GSD shape design features Shapes can be designed using the part and assembly context. GSD can reuse the same surface geometry in multiple instances, allowing concurrent engineering to take place. Leave a Reply Cancel reply Your email address will not be published.
These include wireframe elements: When design changes are required, the user can control the propagation of modifications.
Flexible post-design 3D parameterization can be performed during the creation of a feature or after the design is completed, by adding 3D constraints to the features. If you have more questions, please use this form. Under-constrained designs are allowed and over-constrained designs can also be created. Have a tutoril day.