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Altair SimSolid Datasheet
Altair SimSolid is a structural analysis software developed specifically for rapidly evolving design processes. It eliminates geometry simplification and meshing, the two most time-consuming and expertise-extensive tasks done in traditional FEA, enabling the analysis of fully-featured CAD assemblies in minutes without meshing.

Andron Handling
Andron Handling needed to assess the strength of the welded fabrication and vertical clamping arms for both lifting and clamping loads. In previous analysis of this type in Altair SimSolid™, they would have removed the wheels from the model and applied reaction forces at the bottom of each of the clamp arms. In this case, Andron used a different approach that would not have been possible with previous FEA toolsets.

Fast contact method for speeding up solving finite element problems involving non-linear contact behavior
For large aerospace assemblies in finite element (FE) analysis problems, contact interaction between the surrounding bodies has to be established to simulate the load transferred between the components, like aircraft engine carrying bracket assemblies, spigots assemblies etc., and understand the effects of interaction between respective parts. In some cases, depending upon geometry of the assembly, the region of study may not be contact area but the stresses acting within the parts themselves. If there is no geometric or material non-linearity in such problems, a new contact formulation method known as Fast Contact can be used in these contact regions.

OptiStruct for Linear Analysis
The purpose of this self paced course is to cover the basic topics for OptiStruct Linear Analysis. The Setup sections will use the See It, Try It, Do It methodology to cover the concepts. See It allows you to watch a video demonstration of the exercise covered in the section.


Join the Simulation Revolution: Introduction to Altair SimSolid
SimSolid is a game-changing simulation technology for designers and design engineers. SimSolid accelerates product exploration with highly accurate engineering simulation:

-Analyze complex assemblies in seconds to minutes
-Simulate more, prototype less
-Predict product performance for better design decision making

SimLab Tutorials - Visualize and Organize
Open and import files; Use the model browser to organize your assembly; Visualize and isolate selected components; Select, isolate and hide entities such as faces or elements; Use some advanced selection modes; Create and retrieve entity groups.

Meaningful Results Earlier in the Design Process with SimSolid
Especially in the early design stages of product development, variants change quicker than conventional FEA tools and processes can keep up with. This is even more apparent when full assemblies or complex structures have to be evaluated. Simulation can be a powerful tool to help inform product development decisions, but you need fast, accurate results in order to react at the speed of design.

Altair SimSolid Connections Training Guide
Altair SimSolid is a next generation, high capacity, structural FEA product. It uses new computational methods which operate on original, unsimplified CAD geometry and does not need a mesh. This training guide provides details on how to connect and manage large assemblies in SimSolid. For general overview, please see SimSolid Fast Start Training Guide.

F.tech R&D North America
F.tech is a Tier-1 automotive systems supplier, headquartered in Japan. To help the CAE team at F.tech R&D North America overcome tedious challenges related to model build and geometry preparation for weld creation, Altair developed a customized solution. Developed using Altair’s Model Mesher Director (MMD) PSO (Packaged Solution Offering), the F.tech -Pre-processing Automation Solution (F.tech-PAS) is a streamlined toolset which aids F.tech engineers in CAE meshing and assembly from CAD to solver deck.

NVH Webinar Series : Squeak and Rattle Simulation at Scania and LeanNova
Altair's Squeak and Rattle Director is a novel set of comprehensive software automations to rapidly identify and analyze design alternatives to eliminate the root causes of squeak and rattle in assemblies.

Arup Uses the Latest Simulation Technologies for Architectural Design
Arup has determined the anticipated conditions throughout the interior of a complex architectural space through computational fluid dynamics (CFD) modeling. In this video Caroline Lama, Façade Engineer at Arup NY, explains how HyperMesh has been used to develop an efficient meshing scheme for this challenging geometry.

Studio-X
Studio-X and Tokyo DIGITAL use topology optimization to improve structural optimization and enhances building performance while reducing assembly time and material waste with lightweight design. 

SimLab Tutorials - Region Definition by Two Planar Faces
Create region mesh control based on 2 planar faces; Edit the dimensions of the cuboid region by changing the values, scaling and moving the region; Create region mesh control based on 2 intersecting planes

SimLab Tutorials - Weld Modeling
Prepare the mesh for a triangular weld; Create a triangular weld; Prepare the mesh for a bead weld; Create the bead weld

Luxon Engineering Applies Optimization-driven Design to Motocross Components
The motorcycles used in motocross racing demand light weight and high strength components in order to gain a performance advantage over the competition. In this video testimonial Billy Wight, President of Luxon Engineering, presents a case study of applying Altair HyperWorks optimization techniques in the design of a motocross triple clamp assembly and rear suspension linkage.

Optimization Driven Design Applied to Motocross Steering and Suspension Components
Billy Wight, President, Luxon Engineering

The motorcycles used in motocross racing demand light weight and high strength components in order to gain a performance advantage over the competition. A case study of applying Altair HyperWorks optimization techniques, this presentation focuses on the design of a motocross triple clamp assembly and rear suspension linkage.

SimLab Tutorials - QuickMesh - Gear
Import a CAD geometry; Quickly tetmesh a solid body using different global settings; Export your mesh.

Lead Time Reduction in Modeling and Visualization
Seminar held during 2018 Global ATC in Paris, France on October 16, 2018.

Simulation-Driven Design: Solving the Geometry Problem
One of the challenges of simulation is that geometry of CAD and traditional FEA are different, necessitating time consuming simplification work to define the mesh and resulting in losses in accuracy.

Altair SimSolid takes a different approach, analyzing fully featured CAD assemblies directly with no absolutely no mesh.

Faster, More Efficient Modeling With Next-Gen HyperMesh
The next generation HyperWorks experience was created to enable teams to move from physics to physics, domain to domain or even create reports without ever leaving their simulation model. Every tool in the suite delivers a solution-specific workflow with a meticulously designed and discoverable user-interface, differentiated for each user profile, but still familiar across the toolset.

Altair started delivering on this vision with the initial release of Inspire and has continued to bring more and more functionality to its customers with each release. Now, the next generation HyperMesh provides a modern environment for meshing, modeling, and morphing with no loss of existing functionality for long-term customers.

Learn about the reimagining of Altair HyperMesh and how your product development can benefit today.

The presentation will showcase:
-Brand new workflows for geometry recreation and editing
-Midmeshing and interactive batch meshing
-Free direct morphing
-Parts and reps management
-Concept design iteration

Motorcycle Crankshaft Modeling with SimLab at BMW Motorrad
Learn about the semi-automated motorcycle crankshaft modeling process developed at BMW Motorrad based on Altair's pre- and post-processor SimLab. The scripts developed take the FE model generation time down from 2 weeks of manual work to half a day.

Altair Model Verification Director Datasheet
Altair's Model Verification Director (MVD) allows engineering analysts to validate CAD model data received from the design teams, automatically identifying potential issues that could slow down the pre-processing stage of the simulation life cycle.

The MVD is embedded into HyperWorks pre-processing technology, HyperMesh and integrated into the Assembly Browser. The solution identifies CAD intersections, missing welds, and incorrect bolt-nut positions on an entire assembly structure and generates comprehensive reports in both Microsoft PowerPoint and Excel formats to allow for easy communication of the validation results. With this insight, the CAD design team can correct the model data and help streamline the finite element modeling process.

SimLab Tutorials - Defeaturing and Cleanup-Gear
Simplify your model by removing features; Locally remesh faces; quality cleanup your mesh

SimLab Tutorials - Logo removal
Remove a logo from meshed bodies

SimLab Tutorials - Welding Process with Connection
Create a bead weld using the open loop edges; Connect weld bead bodies defining a spline curve trajectory; Perform a boolean operation between weld bodies and the weld bead

SimLab Tutorials - Exploring Weld Basic Feature
Weld two bodies containing a gap; Configure weld parameters within the weld basic feature

SimLab Tutorials - Setting-up a Model for Molding Process
Import, position and inspect a CAD model; create mesh controls, surface mesh and organize the parts; create solution and define polymer properties to the bodies; define initial and boundary conditions; apply solver settings, export the deck and solve

Getting Started with SimLab
From CAD to analysis in minutes


Modeling: Bearings and Weldings
Parametric modeling of bearings and weldings in SimLab


Computational Fluid Dynamics (CFD)
Setup and run fluid a dynamics analysis in SimLab


Vibro-Acoustic Analysis
Setup and run a vibro-acoustic analysis in SimLab


Structural Optimization
Setup and run a structural optimization in SimLab


SimLab Automated Results
Improve CAE accuracy with automated results convergence

Integration CAD/FEA for Optimization/DOE
Seamlessly setup and run optimization and design of experiment (DOE) studies in SimLab

Automated LBCs Assignment
Automatically assign load boundary conditions (LBCs) in SimLab

Introduction to SimLab
SimLab is a process oriented, feature based finite
element modeling software that allows you to
quickly and accurately simulate engineering behavior of complex assemblies.

Better Indoor Climate thanks to Simulation and Optimization
Kampmann GmbH is an internationally leading specialist for heating, cooling, air-conditioning and integrated building automation. Within their virtual development process they are using the Altair HyperWorks® software suite, in particular AcuSolve®, the CFD solver; OptiStruct®, the suite's FE-solver and an optimization tool; and HyperMesh® for modeling and meshing tasks. For plant control design, Kampmann is currently considering solidThinking Activate®, a mapping software for control systems. Thanks to simulation, Kampmann engineers are now able to answer questions regarding the internal processes of the system, which are difficult, if not impossible, to study through physical testing.

SimLab Tutorials - Thermal FSI of Exhaust Manifold
Extract fluid surface from the solid; create CFD tetra mesh and boundary layer; apply boundary conditions with constraint option activated; run and post-process steady state analysis

SimLab Tutorials - Solutions Based Natural Convection Around a Hot Cylinder
Create a tetra mesh with CFD boundary layer; apply gravity and define heat source; apply initial and temperature boundary conditions; create symmetry planes; visualize results as contour or as vectors

SimLab Tutorials - Process Recording using Templates_ConRod
Use mesh-, LBC- and loadcase templates during a process recording; record a process including solver setup and solver execution

SimLab Tutorials - Steady Flow in a Centrifugal Blower
Create a tetra mesh with CFD boundary layer; work with moving reference frame; define CFD boundary conditions based on turbulence viscosity ratio; edit the solver settings; run and post-process the analysis

SimLab Tutorials - Turbulent Flow in a Mixing Elbow
Import custom ribbon; create a tetra mesh with CFD boundary layer; apply CFD boundary conditions; run a steady state turbulent flow analysis; visualize results as contour or as vector

SimLab Tutorials - Parametric Optimization using HyperStudy - Part I
Start recording a nominal problem; create parameters; import a parametrized CAD file; create a 2D/3D mesh using the parameters; solve and define the study responses

Piloting SimSolid for Fast Directional Feedback to Reduce Product Development Timelines
"The analysis team at CNH is piloting Altair SimSolid™ as a design refinement tool solution for providing fast directional feedback to the engineering team.

CNH has performed some correlation studies against HyperWorks FEA for accuracy, and has established some criteria for identifying the appropriateness of SimSolid in our workflow. It has been determined that good correlation is attainable even with relatively large assemblies. The relative speed in SimSolid vs that of HyperWorks has shown to vary widely from study to study. This presentation shares CNH's experiences and recommendations with this software."

HyperMesh and Custom Export Template Streamline CFD Analysis in Research Projects at Arizona State University
Integrative Simulations & Computational Fluids Lab researchers from SEMTE (School for Engineering of Matter Transport and Energy) at the Arizona State University (ASU) wanted to use the commercial code HyperMesh as a general preprocessor to mesh complex geometries for use with the spectral element CFD code Nek5000. The challenge was to benefit from the rich functionality of existing meshing tools such as HyperMesh while using the Nek5000 code, since this CFD code requires 3D hexahedral elements. SEMTE researchers set up a project to develop a converter tool with which a HyperMesh mesh could be exported into a format the Nek5000 code could work with. With this export template the overall process is now much more user-friendly and less error-prone. The mesh is generated in HyperMesh and the export template organizes all the data and sorts it so it can be imported in the proper formats into the Nek5000 user template.

Flux Webinar: Accelerate your Design Process with Flux - Dealing with Complex 3D CAD Models
In this webinar discover all the capabilities of the Altair pre-processing tools to handle real complex cases with Flux.

In addition we explore the powerful features of HyperMesh allowing you to to defeature, modify and manage your complex assemblies. We also explore the various functionalities in SimLab which will allow you to easily mesh large problems.

Solving Your Most Difficult Modeling Problems with Altair SimLab™
Altair SimLab is a process-oriented modeling software with the features and flexibility to address the complex needs of simulation teams. This webinar covers how Altair SimLab 2018's streamlined workflows and feature capabilities can address common pre-processing challenges in highly complex models, enabling your team to focus on analyzing results rather than cleaning up mesh.

Altair AcuSolve Datasheet
Altair AcuSolve is a most powerful Computational Fluid Dynamics (CFD) tool, providing users with a full range of physical models. Simulations involving flow, heat transfer, turbulence, and non-Newtonian materials are handled with ease by AcuSolve’s robust and scalable solver technology. These well validated physical models are delivered with unmatched accuracy on fully unstructured meshes. This means less time spent building meshes and more time spent exploring your designs.

SimLab Tutorials - Conjugate Heat Transfer
Create a tetra mesh with CFD boundary layer; work with turbulence and temperature equations; define CFD boundary conditions based on inflow average velocities and convective heat flux; define symmetry plane; create material and define properties; run and post-process a CFD steady state analysis

SimLab Tutorials - Thread Removal
Select cylinders based on a defined radius; create groups using select adjacent layers; create mesh control; use remove thread tool; remesh cylindrical faces using isoline mesh control; remesh cylindrical faces by modifying layers; change cylinder radius

Webinar: Lead-Time Reduction at Renault with Altair SimSolid
Renault presents how they've adopted SimSolid to significantly speed up design time and gain deep design insights upfront in the design process.

Find out how SimSolid is used to run multiple structural simulation iterations directly on their CAD geometry in minutes with amazing accuracy.

HyperMesh 14.0 - BatchMesher Workflow
New options are available for accessing the BatchMesher. One of those methods is through the Mesh Controls Browser. In this demonstration see how to use the Mesh Controls Browser and BatchMesher in HyperMesh 14.0.

Weld Distortion Optimisation using HyperStudy
Distortion induced in parts due to the cooling of welds complicates automated manufacturing lines in the automotive industry. The resulting deformation leads to additional investment such as end of line machining to correct affected assemblies. Utilising optimisation software a welding pattern can be found which retains the intended performance of a part while reducing the distortion induced from welding. Weld locations may be optimised alongside welding sequence to allow process requirements to be considered within the early design stage. This leads to high performance, low distortion assemblies which can ultimately be manufactured at the lowest possible cost.

SimLab Tutorials - Editing holes and circular faces_Housing
Remove and modify holes; Change the number of elements around/along circular faces; Align faces and edges to a given radius; Remesh partial cylinders

From Die Design to Defect-Free Castings: Shiva Tool Tech Achieves 80% Time Reduction with Altair Inspire Cast
Shiva Tool Tech is an automotive manufacturing focused, industrial powerhouse based in Pune, India. With over 25 years of experience in designing and manufacturing of gravity die casting (GDC), low-pressure die casting (LPDC), high-pressure die casting (HPDC) Dies, the company supports customers from manufacturing process design to the production stage. Manufacturing processes include milling, drilling, hardening, grinding, Computer Numerical Control (CNC) machining, Electrical Discharge Machining (EDM), inspection and polishing to get the final assembly of the casting die.

Altair SimLab Datasheet
Altair SimLab is a process oriented, feature based finite element modeling software that allows you to quickly and accurately simulate engineering behavior of complex assemblies. SimLab automates simulation-modeling tasks to reduce human errors and time spent manually creating finite element models and interpreting results. SimLab is not a traditional off-the-shelf pre- and post-processing software, but a vertical application development platform for capturing and automating simulation processes.

Altair Squeak and Rattle Director Datasheet
Altair's Squeak and Rattle Director (SnRD) is a novel set of software automations to rapidly identify and analyze design alternatives to eliminate the root causes of squeak and rattle (S&R) in assemblies. Tailored to be deeply integrated within your environment and processes, SnRD offers a complete set of capabilities to streamline the entire S&R simulation workflow process from model creation to results visualization.

Imperial Auto has Successfully Validated the Contact Pressure for O-Ring by Contact Analysis using Altair OptiStruct™ Solution
Established in the year 1969, Imperial Auto is one of the biggest integrated manufacturers of ‘Fluid Transmission Products (FTPs) in the world. The company has eight dedicated manufacturing and assembly plants in India. The grand vision of the company’s top management can be easily gauged from the strategic and technical alliances that Imperial has formed with major international players in their industry.

Altair Inspire Form Helps Pragati Engineering Address Sheet Metal Formability and Inconsistent Thinning Issues While Reducing Physical Try-out Time by 50%
Pragati Engineering, established in 2004, is one of the leading press tool design and manufacturing companies in India. The company has a national reach and successfully carries out projects riding on the robust shoulders of qualified and dynamic engineers from their Design department and Tool Room division. The company’s competency lies in manufacture of Press Tools Fixtures and Panel Checkers for various critical sheet-metal components and assemblies. With new technologies, facilities, and experience in Press Tooling, the company is confident of seamlessly catering to any requirement in the sheet-metal forming segment.

Solving Problems in Product Design in Aerospace
Robert Fox, Engineering Associate Fellow at Rolls-Royce presents at the UK Altair Technology Conference 2019.

This presentation provides some background on Rolls-Royce products and how CAE has changed the way in which such complex products are certified as being safe to fly. The presentation then moves on to outline some ways in which CAE is now being employed earlier in the design process to develop the next generation of aircraft engines. It concludes with some background on how Rolls-Royce engages with students and Universities engaging in CAE projects.

Altair Flux Actuator Design Tutorial
Complete set up, analysis, and post-processing of an electromagnetic actuator in Altair Flux™ 3D.

Altair Flux User Environment and Workflow
This brief video explains the general philosophy of how to use Altair Flux™. The video also shows how commands for geometry, mesh generation and general model setup can be accessed.

CAD to Multiple Physics in Minutes with SimLab
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.

Digital Architects
To build a very simple, robust, sustainable roof structure for a prosthesis lab associated with the Centre medico-chirurgical de l'Ulcère de Buruli, which is a hospital in Bouaké, on the Ivory Coast of Africa, the project team used Altair SimSolid, to conduct very fast, full assembly tests, saving time and money, while providing increased flexibility, without compromising accuracy.

Electric Motor Design Analysis Tutorial
Video shows how to set up a simulation of a brushless permanent magnet motor to do a cogging torque analysis using Altair Flux™. Model is created using Flux dedicated Motor Overlay.

Maximize Productivity in SimSolid
Getting started with SimSolid? View this video to see how you can get started and maximize your productivity with the tool.

Virtual Design and Testing of a Medical Autoinjector, Project Overview
Nolato specializes in polymer-based product design and manufacturing to virtually design a device to automatically inject medicines, such as insulin for diabetic patients. Within this presentation different aspects of the product design cycle are considered, including co-simulations of the device operation during the actual injection process, misuse in case of forceful bending or opening of the loading tray, and drop tests of the autoinjector. Based on Altair’s optimization technology, alternatives for the rib structure of the casing are investigated. To assure manufacturability, molding and assembly simulations are performed to identify and mitigate problems likely to occur throughout the process.

Rapid Exploration and Development of Intelligent & Efficient Vehicle Architectures
Altair's C123 process to create Simplified Loadpath Models (SLMs) for advanced body in white (BIW) design concepts provide a highly flexible and rapid platform to explore body structure loadpath alternatives and performance: weight optimization. The C2/SLM modelling process combines higher order Beam and Bush finite elements with coarsened Shell-meshed panels to represent the body structure. FCA US LLC has understood and validated the C2 process for a BIW, and correlated key structural performance metrics to higher order, detailed Finite Element (FE) models. While the benefits of loadpath optimization through Beam element parameter variation is well-documented, and applied extensively for these types of models, this presentation provides a better understanding of the sensitivities and influence of joint stiffnesses on key body structure attributes to promote more intelligent and efficient body structure joint designs.

Virtual Design and Testing of a Medical Autoinjector
Nolato specializes in polymer-based product design and manufacturing to virtually design a device to automatically inject medicines, such as insulin for diabetic patients. Within this presentation different aspects of the product design cycle are considered, including co-simulations of the device operation during the actual injection process, misuse in case of forceful bending or opening of the loading tray, and drop tests of the autoinjector. Based on Altair’s optimization technology, alternatives for the rib structure of the casing are investigated. To assure manufacturability, molding and assembly simulations are performed to identify and mitigate problems likely to occur throughout the process.


Introduction to Altair PollEx
This webinar introduces the benefits of PollEx for fast PCB design viewing and exploration, analysis (including signal integrity and thermal), verification (considering electrical, assembly, and manufacturing constraints), and how these solutions work within the unified PollEx electronics part data management software.

Increasing Your Productivity for CFD Model Build
This webinar, presented jointly between Altair and the UK's leading CFD consultancy, TotalSim, demonstrated how the latest model build technologies can drastically accelerate your external aerodynamics programmes, freeing up Engineers' time to provide design insight and enhance performance, not stuck endlessly refining meshes.

SimLab 14.0 Rollout Webinar
In this webinar the entirely new user experience of SimLab 14.0 is beeing discussed. Besides a presentation this video contains a demo of pre- and post-processing of an analysis in SimLab 14.0.


Introduction to HyperMesh
Altair HyperMesh is a high-performance finite element pre-processor to prepare even the largest models, starting from import of CAD geometry to exporting an analysis run for various disciplines.

Altair Squeak & Rattle Director Datasheet
Altair's Squeak and Rattle Director (SRD) is a novel set of comprehensive software automations to rapidly identify and analyze design alternatives to eliminate the root causes of squeak and rattle (S&R) in assemblies. Tailored to be deeply integrated within your environment and processes, SRD offers a complete set of capabilities to streamline the entire S&R simulation workflow process from model creation to results visualization.

CAE-driven design methodology for semi-autonomous product development for the next generation light weight vehicle structures
This was a 2013 European ATC presentation given by various presenters from German Aerospace Center. Passenger cell assembly makes up a large percentage of the overall structural weight of the BIW-design, and hence has a high lightweight potential. The structure of the passenger cell not only ensures a “rigid-like” behavior in different crash scenarios, it also contributes to comfort and driving characteristics with a high torsional and flexural stiffness.

Ford Motor Company: Building an Efficient HPC Infrastructure
The cars, trucks, vans and SUVs that roll off Ford Motor Company assembly lines are safer, quieter, and more comfortable than ever. Many of the intangibles that contribute to Ford quality flow from the innovative use of high performance computing (HPC) techniques. At Ford's Numerically Intensive Computing Department (NIC) in Dearborn, Michigan, engineers run simulations in codes such as NASTRAN and LS-DYNA for predictive analysis of cylinder cooling, wind noise, vibration, ride quality, crashworthiness, durability, and other characteristics that contribute to industry-leading automotive design.

OptiStruct Cuts Development Time to Design a Light Weight and More Durable Window Regulator Lift Plate at ArvinMeritor
Using Altair OptiStruct, ArvinMeritor was able to design a lighter weight window regulator lift plate which eased assembly. The new snap-fit design reduced the material compared to original design, without sacrificing performance and durability.

WJH Engineering Uses Altair HyperMesh™ to Cut Physical Testing Costs of Medical Devices by 95%
WJH Engineering Consultants provides finite-element analysis and design for many of America’s largest developers of medical devices. Company President, Jim Harrison, works directly with engineers at companies producing medical devices and with doctors to understand the clinical application of these products, including any anatomical loads or displacements that should be incorporated into their design.

Technology Acquisition
Combination of HyperWorks and RADIOSS delivers broadest CAE product family in PLM.

Northwestern University Success Story
Using HyperWorks for Teaching Computational Optimization Methods in Engineering Design at Northwestern University

Aircraft Radome Multiphysics Using Simulation
Watch this webinar to see a demonstration of a multiphysics simulation approach using the Altair HyperWorks platform for the analysis of airborne radomes for electromagnetic , structural, aerodynamic, and bird strike performances.

Aerodynamic Development of a Road Cycling Helmet with AcuSolve - LX Sim
LX Sim uses HyperWorks Suite and select Partner Alliance programs from Altair to help build an aerodynamic cycling helmet.

Speed and Safety- Interview with Luca Pignacca of Dallara Automobili
Manufacturing and supply of Racing Cars, Dallara Automobili uses HyperWorks to help design all of their racing cars.

FEKO 14.0 Overview
See an overview of the new features available within FEKO in 14.0. HyperWorks 14.0 is the first version containing the FEKO product line.

RUAG Space Streamlines Composite Analysis with Improved Data Workflow
RUAG Space combines the power of the Altair HyperWorks Suite with the advanced composite failure analysis methods from ESAComp to improve their efficiency and composite modeling process.

NVH Webinar Series: Transfer Path Analysis at General Motors
This webinar presents the most recent advancement in the vehicle development process at General Motors using Altair HyperWorks' Transfer Path Analysis (TPA) capabilities.

Honeywell Aerospace - Reducing the Weight of Aircraft Engines
Brian Cottrell, Chief of Structures at Honeywell Aerospace, discusses how Altair ProductDesign applied HyperWorks' optimization technology, OptiStruct, to minimize the weight of new aircraft engines.

Stanley Black & Decker Case Study
Stanley Black & Decker chose Altair’s HyperWorks Unlimited to optimize their CAE processes for power tool design, enabling them to explore concepts more deeply, reduce cycle times and make better decisions faster.

Simple, Powerful HPC Clusters Drive High-Speed Design Innovation
Solution brief from Intel and Altair on how to enhance the performance of Altair's HyperWorks using Intel Xeon processors.

NASA
A Safer Landing with Water Impact Analysis



Using Altair’s own HyperWorks virtual simulation suite, Altair ProductDesign built an accurate finite element model of the module from CAD data supplied by NASA, as well as a section of water and air which matched the conditions from the lake used during the physical tests. The effect on the module’s structure during impact was simulated to gauge how well the results correlated with the physical tests. The results showed excellent correlation between the simulation and physical tests, identifying areas where the model, input parameters and meshing methods could be improved to give a more accurate prediction of the event.

Lead-Time Reduction at Renault with Altair SimSolid
Renault presented on their use of Altair SimSolid at the HyperWorks 2019 Roadshow in France. They showed a reduction in lead time from weeks to hours with results accuracy within 5% of their standard processes.

FEKO Webinar : New Features in FEKO 2018, including WinProp
In this webinar we will be presenting the exciting features in the new FEKO 2018 release.

Flux Webinar: Accelerate your Design Process with Flux - Dealing with Complex 3D CAD Models
Flux is now fully part of HyperWorks and thanks to our flexible HyperWorks Units, users are now able to access even more tools that will help you to save time in your designs and enable powerful simulations. Flux embeds its own pre-preprocessing tools but designers sometimes need to deal with complex 3D geometries generated by their CAD team.

SimLab Tutorials - Topology Optimization with Solutions - Bracket
Create a linear static solution, define loads and boundary conditions then compute; define a topology optimization, design space, constraints, response and objective; export the optimized shape as .stl; import the .stl file and perform a mesh cleanup; transfer properties and LBCs to the optimized geometry and apply TIE contact; re-analyze the model then review the results

Altair SimSolid Fast Start Training Guide
Altair SimSolid is a next generation, high capacity, structural FEA product. It uses new computational methods which operate on original, unsimplified CAD geometry and does not need a mesh. This training guide provides more details on the workflows and the technology behind SimSolid. This document is a great resource to get you going.

Altair SimSolid Dynamics Training Guide
Altair SimSolid is a next generation, high capacity, structural FEA product. It uses new computational methods which operate on original, unsimplified CAD geometry and does not need a mesh. This training guide provides details on how to perform dynamic analysis in SimSolid including modal frequency response, transient response and random response analysis. For general overview, please see SimSolid Fast Start Training Guide.

Altair SimSolid Thermal Analysis Concepts Guide
Altair SimSolid is a next generation, high capacity, structural FEA product. It uses new computational methods which operate on original, unsimplified CAD geometry and does not need a mesh. This training guide provides details on how to perform steady state thermal analysis including convection and conduction. It also talks about thermal stress analysis in SimSolid. For general overview, please see SimSolid Fast Start Training Guide.

Altair Aerospace: FE Model Setup and Validation
This webinar will cover a brief overview of all simulations done on an Altair benchmark airplane wing. All steps from CAD to CAE are discussed, starting with the generation of the geometry, including midsurface generation to meshing and mapping CFD results. The presentation concludes with post-processing and automated report generation.

Museum of the 20th Century
For a competition launched for the Museum of the 20th Century, Zaha Hadid Architects re-invented a similarly radical approach by applying new advances in technology to generate structural and architectural expression. With Altair’s assistance, they created a plug-in for their design tool, enabling topology optimization. Altair HyperMesh was used for finite element preprocessing mesh generation, with Altair HyperView providing post-processing and visualization solutions. Structural analysis solver Altair OptiStruct provided advanced analysis and optimization algorithms.

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