Analyzing full-featured parametric CAD assemblies is an extremely labor intensive process requiring skilled CAE expertise. Common practices to shorten simulation cycles have included simplifying and defeaturing CAD geometry – offering little “engineering” value, negatively impacting results accuracy and consistency, and falling short of desired program objectives. There is a better solution! Introducing Altair SimLab sT, an automated multiphysics simulation environment differentiated by live, bi-directional connections to parametric CAD systems for high-fidelity analysis of solid (thick-walled) assemblies and fluid flow systems.
Presented by Nic Minnaar from Altair and Jacobus Prinsloo from Aeroswift, we discuss the value of using topology optimization when designing for additive manufacturing. Aeroswift's 3D Printer is able to print parts which are up to ten times bigger and print them ten times faster than any other printer. In the case study the thought process behind the design of the largest UAV frame ever to be printed in metal, in a collaboration between Altair and Aeroswift, is presented.
This webinar will introduce you to Altair Activate for control system design and the ease of solving real world problems with co-simulation between MotionSolve (multibody simulation suite) and Activate.
Discover a highly robust approach to simulate the performance of your entire product; assess the overall behavior of the multi-disciplinary system in the form of 0D, 1D and/or 3D models.
This webinar outlines how 1D block diagrams can be successfully combined with 3D non-linear multibody systems for model based development of mechatronic systems. Examples include an active suspension systems and a robotics application.
Altair manufacturing simulation tools have received an extensive amount of development efforts to expand their simulation capabilities.
In order to stay competitive while pushing the envelope on innovation, simulation must drive the entire design process from the early concept design phase all the way to production. Leveraging robust simulation—including motion analysis, finite element analysis, and manufacturing feasibility analysis—early and often has become a necessary driver to innovation and is helping numerous industry-leading companies to meet quality, cost, and time-to-market targets.
To successfully take advantage of the benefits of 3D printing and additive manufacturing, a new design and simulation process must be used. It is not beneficial to simply ‘print’ a current design. New tools and advanced computational power have enabled users to optimize solid geometries for stiffness and weight, and also allowed them to simulate loading conditions and lightweight designs. These new computational tools also give users the opportunity to test how a design will perform under real-world conditions.
Learn how next generation math and system design products can be applied right from concept studies, control design, multi-domain system performance optimization to controller implementation & testing.
This webinar will highlight and feature: Adding/removing/modifying a material using the New Material Editor. Adding a coating to a mold and setting up the parameters. Predicting micro porosity using the NIYAMA criterion.
The additive manufacturing industry continues to grow as serial manufacturing applications across many sectors are realized. Topology optimization and generative design software further exploit the benefits and capacity of additive manufacturing by generating designs that increase function and reduce material, weight, design time, and cost.
This is where Altair Compose can help enable you to efficiently perform numerical computations, develop algorithms, analyze & visualize various types of data.
This webinar, hosted by IEEE, focuses on Motor Control using Embed
This webinar covers bird strike analysis on a wing, starting out with model setup, going over the impactor management and ending in the analysis of the results. Another topic to be discussed is the forming simulation of a composite rib and result mapping.
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