Whether you are just starting to learn SpaceClaim or you have been using it for a while, there are many tips that can help you design better. Learn how to handle thousands of bodies in a matter of a few clicks, parameterize key design variables, create complex geometries, and more.
Create complex geometries
ANSYS SpaceClaim is a robust and versatile modeling solution designed to help you create complex geometries quickly and easily. It is suitable for both engineers and designers. It provides you with tools to create, import, edit, and repair geometry. With the help of its advanced tools, you can simplify complex models and create manufacturable parts from meshes.
ANSYS SpaceClaim is a Direct Modeller. It allows you to prepare your geometry for FEA analysis with ease. It is ideal for engineers who do not have enough time to learn complex CAD tools. Its user interface is unique and simple.
SpaceClaim’s STL Prep module combines solid modeling techniques with the flexibility of STL editing tools. It includes features such as the Skin Surface tool, which autosurfaces complex shapes. It also offers tools for preparing geometry for CFD analysis.
Parameterise key design variables
Using SpaceClaim to it’s utmost you can take your 3D modelling a step or two up a notch. For a start you can record and re-record custom Python API scripts, import existing parameters, and convert your 2D sketches into 3D models to boot. Using a tool like SpaceClaim is a must for any 3D modelling aficionado. This is the best way to ensure that the model you’ve created is as close to the real deal as possible. It is also the best way to ensure that you get the most bang for your buck. For instance, you’ll get the most out of your models when you don’t have to make a single mistake.
Create cross-section sketches for prismatic or geometric parts
Using SpaceClaim to create cross-section sketches is an effective way to visualize your design in 3D. This enables engineers to make sweeping changes to models in record time. It is also a great tool for communicating with suppliers and customers.
SpaceClaim also has an STL module, which makes it easy to import and modify STL files for 3D printing. This allows users to create hybrid models from scratch or modify existing ones. It also allows you to import scanned data as an STL file and incorporate it into your own designs.
While SpaceClaim isn’t exactly AutoCAD, it does offer many of the same features. In addition, it has a few pricier specialized software products in its arsenal.
Import STL files for 3D printing
Using the STL Prep for 3D Printing module in SpaceClaim Engineer 2016, you can optimize your 3D designs for 3D printing. This innovative module offers a simple solution to the complex task of preparing your models for printing.
SpaceClaim has a unique set of tools that enable you to create, edit, and share your 3D models. These tools are powerful and intuitive. They rival those offered by more expensive specialized software products. They will help you take advantage of new technologies and simplify the process of creating and publishing your designs.
SpaceClaim’s STL module enables you to import and edit STL files for 3D printing. This allows you to quickly create 3D models and prepare them for analysis and manufacturing.
Learn SpaceClaim online
Getting started with Ansys SpaceClaim Price is not a difficult task. You’ll find that it offers a versatile set of tools that make the most of a variety of CAD formats. This makes it the perfect solution for designing and modifying new designs or making quick changes to existing ones.
SpaceClaim has a unique set of tools that allow users to quickly create and edit geometry, simulate models, and extract fluid domains. In addition to its slick user interface, it offers a host of other features to make the most of your modeling experience.
It is possible to import the vast majority of CAD formats, and it also supports the standard file formats. However, inconsistent file formats can lead to problems. Using the right file format is crucial for importing the most accurate geometry.
