Create multiple assembly configurations which can then be used to evaluate various design scenarios and the resulting concepts.
Inspire offers a number of topology options including: optimization objectives, stress and displacement constraints, acceleration, gravity, and temperature loading conditions.
Investigate linear static and normal modes analysis on a model and visualize displacement, factor of safety, percent of yield, tension and compression, von Mises stress, and major principal stress.
Easily generate dynamic motion of complex mechanisms, automatically identifying contacts, joints, springs, and dampers.
Create, modify, and de-feature solid models using Inspire's modeling tools. Leverage the speed and accuracy of SimSolid to evaluate multiple variants.
Altair Inspire now integrates Altair SimSolid for fast, accurate structural analysis of complex assemblies, as independently validated by NAFEMS. In this short demonstration we'll show how to analyze the structural performance of an agricultural seeder, applying geometry modifications in seconds.
In this video EDEM was used to simulate and analyze the discharge of bulk materials on a belt feeder. A structural analysis of the equipment was performed by coupling EDEM with SimSolid in order to assess the impact that the bulk material loads have on the equipment.
With no need for CAD clean-up and FEA meshing, structural engineers and facade engineers can use Altair SimSolid to meet deadlines and avoid costly redesign cycles.
Discover how to reduce product development time with Altair SimSolid, a new technology to analyze the structural performance of complex assemblies that operates on original, un-simplified CAD geometry directly.
The widespread adoption of Altair SimSolid™ has enabled customers to accurately test more ideas during each design iteration. Altair Inspire™ was the first tool to democratize topology optimization. Altair Inspire now embeds the speed and accuracy of SimSolid supporting faster, easier design exploration and product creation for allowing design engineers, product designers, and architects to create and investigate structurally efficient concepts for complex assemblies.
Altair offers a unique set of simulation tools to evaluate product feasibility, optimize the manufacturing process, and run virtual try-outs for many traditional, subtractive, and additive manufacturing processes. Users can validate designs early in the manufacturing process with the simplicity and affordability of the simulation software, as well as use optimization technology with specific manufacturing constraints to design better, more efficient products.Learn more at altair.com/manufacturing-applications.
Altair Inspire includes the ability to generate lightweight, unit cell lattice structures for 3D printing. Unit cells can easily be edited, evaluating the structural performance of different design variants in moments.
Altair Inspire is a tool that empowers you to create, explore, and study structurally efficient designs. This demo gives a brief overview of Inspire's motion, optimization, modeling, and analysis capabilities.
By performing structural analyses on fully featured CAD assemblies within minutes, SimSolid is the game-changing simulation technology for designers, engineers, and analysts. In this short demo, we'll show how the structural performance for different variants of a CubeSat can quickly be evaluated and compared.
Watch the video to learn how Altair enables designs for production, moving additive manufacturing from an advanced capability to a production capacity with the power of simulation.
Moving stage for the Qintai Culture & Art Center in Wuhan, China. The CAD assembly used for the analysis consisted of 7738 parts, including hundreds of bolts and welds. It required approx. one hour to import and setup the model, 30 minutes to solve the analysis on a regular laptop. SimSolid model created by: INNEO. Image source: SBS Bühnentechnik GmbH