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Optimising Vehicle Dynamics for Student Racing with Altair University

You will learn how to use multi-body dynamics (MBD) simulation tools from the Altair HyperWorks CAE suite to improve the design and performance of your student race car. By using Altair’s academic vehicle library, you can adapt suspension models to represent your existing half or full vehicle and make virtual changes to the design in order to improve stability and manoeuvrability.

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.

Altair Bushing Models for the Automotive Industry

The Altair Bushing Model is a high level concept solution that can be used for all your vehicle applications. It has a library of sophisticated, frequency- and amplitude- dependent bushing models that you can use for accurate vehicle dynamics, durability and NVH simulations. The tool has been validated by BMW and Honda for robustly fitting measured data to analytical models and accurately simulating models.

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.

Scania Customer Story

Squeak and rattle phenomena are studied in the automotive industry in an attempt to reduce the cabin noise and as a result, give a better ride quality and comfort to occupants. In the case of Scania’s Cabin Development Department, this kind of simulation was not performed historically. The team had to rely on tolerance calculations as well as the choice of materials to reduce the risk of squeak and rattle. To reduce development time and cut down on iterative changes, a desirable solution was identified that enabled a simulation-driven design process during the early stages of the cabin development cycle.

HyperWorks provides flexibility and agility to development processes of Engineering Services Provider Beta Epsilon

Beta Epsilon designs racing cars and offers engineering. Beta Epsilon offers component and vehicle meshing, FEA analysis of metal and composite components, crash test simulation, optimization, and CFD simulation. Beta Epsilon uses HyperMesh, OptiStruct, HyperCrash, RADIOSS, AcuSolve, HyperView, and Virtual Wind Tunnel. With HyperWorks, Beta Epsilon could improve the quality of its products and extend its range of services.

Sundog Eyewear

Sundog Eyewear accelerates design times through the use of conceptual design softwarewhile improving visualization of the final product using integrated rendering.

Reducing Weight and Maximising Fuel Efficiency of a Formula Student Car with OptiStruct

Durham University Electric Motorsport (DUEM), are a UK-based team of students who design, build and race electric vehicles. In this project, DUEM wanted to demonstrate how they have applied the latest weight saving technology to achieve a faster, more efficient car by optimising an upright design for multiple load cases. As existing users of the Altair HyperWorks simulation suite, the DUEM team looked to OptiStruct to help meet this challenge.

Aircraft Carrier Alliance

Creating a Structurally Efficient Design for the Queen Elizabeth Class Aircraft Carrier

When making key decisions at the concept and preliminary design phases of a naval ship project, the designer is often obliged to work with limited data on the major structural design drivers for the vessel. This can lead to a largely subjective design approach which can result in inefficiency and even structural problems being locked-in from the start. To solve any issues, increased material use, weight and unnecessary complexity, as well as high design and manufacture costs can be introduced to the end product. To evaluate the potential of simulation-driven design under the unique requirements of naval ship design, the ACA partnered with Altair ProductDesign.

Northwestern University Success Story

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

HyperWorks Virtual Wind Tunnel on Cray: Benchmarks and Recommended Configurations

With Altair’s HyperWorks Virtual Wind Tunnel running on Cray XC30 or CS300 systems, manufacturers of all sizes can now predict a vehicle’s external aerodynamic performance without the need for numerous physical wind tunnel tests. This document includes scalability benchmarks for both small and large problems, along with Cray’s recommended system configurations to run Virtual Wind Tunnel.

When Engineering Intuition is Not Enough

A new technology helps design engineers quickly create dramatically lighter structures — and better understand the effects of material placement in whatever they’re developing.



By Beverly A. Beckert

Concept To Reality Winter 2013 Subscribe to C2R Magazine

Using Analysis to Innovate with New Materials

Analysis and optimization tools enable Samsung engineers to reduce
the cost of appliances without sacrificing performance.



By Beverly A. Beckert

Concept to Reality Winter 2013 Subscribe to C2R Magazine

Simulation Tools: Driving the Future of Design

The Clemson University Deep Orange 3 program introduced future engineers to analysis software, enabling them to develop a novel sports car concept architecture.



By Dr. Paul Venhovens

Concept To Reality Winter 2013 Subscribe to C2R Magazine

BASF Enlightens the Auto Industry

Continuous fiber-reinforced thermoplastic composite and virtual simulation technology enables BASF to develop an innovative and cost-neutral seat pan that is 45% lighter than its predecessor.



By Beverly A. Beckert

Concept To Reality Winter 2013 Subscribe to C2R Magazine

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.

HyperWorks Helps Midea Design and Optimize Millions of AC Units

HyperWorks Helps Midea Design and Optimize Millions of AC Units. Using an air conditioner, for example, with HyperMesh, it takes Midea Design one week to mesh the whole model, setup loads and constraints, run the analysis, and extract the result.

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.

Toyota Motorsport

Controlling Software Costs with Altair’s Software Asset Optimization System



TMG chose Altair’s Software Asset Optimization (SAO) system to address this problem. SAO (Software Asset Optimization) enables the user easy and efficient access of the actual software usage of existing licenses in his company. He can analyze the software usage and based on this information make appropriate decisions concerning the acquisitions of new licenses and the extension of existing contracts.

Introduction to HyperWorks Virtual Wind Tunnel

Altair’s HyperWorks Virtual Wind Tunnel is a new solution designed to provide better wind tunnel simulation technology and user experience. With a highly automated and streamlined workflow process and high quality CFD technology, Altair’s HyperWorks Virtual Wind Tunnel is able to more accurately and quickly predict an automobile’s aerodynamic performance.

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.

Introduction to HyperGraph

Altair HyperGraph is a powerful data analysis and plotting tool with interfaces to many popular file formats. Its sophisticated math engine is capable of processing even the most complex mathematical expressions. HyperGraph combines these features with high-quality presentation output and customization capabilities to create a complete data analysis system for any organization.

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.

Introduction to HyperView

Altair HyperView is a complete post-processing and visualization environment for finite element analysis, multi-body system simulation, digital video, and engineering data. HyperView combines advanced animation and XY plotting features with window synching to enhance results visualization.

HyperWorks On-Demand at HYDAC

HyperWorks On-Demand helps HYDAC with optimization of fluid analysis.

DSM Success Story

Thermal Analysis of LED Lamps using AcuSolve

HyperWorks Helps Volkswagen Motorsport Develop a World Champion Polo R WRC

Since January 2013 Volkswagen Motorsport compete at the FIA World Rally Championship with the Polo R WRC. To improve the vehicle performance it is essential to reduce the cars weight and inertia. Drivers perform best lap times when they feeling well in the race car. So you have to meet drivers ergonomically needs. Also passive passenger protection is an important topic. To meet these requirements an own racing seat has been developed.

RUAG Space Builds Reliable Satellites with HyperWorks

“Throughput time” or “Time to Market” is a key element for spacecraft structure. Structures are the first element required to start the integration of the spacecraft and it is essential that they can be delivered in time. However, late inputs require flexibility and efficiency to limit the impact on the development and manufacturing time.
This short video shows examples of automation and standardization of the analysis processes as implemented at RUAG Space using HyperWorks.


DeWalt Optimizes Power Tools with HyperWorks

The development of modern electric power tools requires special attention to be simultaneously paid to both the efficiency and user comfort of the tool, as well as the robustness and durability of the devices. For the fulfillment of these two groups of attributes, computer-aided simulations using HyperWorks has become central to the development process of Stanley Black & Decker Deutschland GmbH.

Optimal Design Exploration Using Global Response Surface Method: Rail Crush

As design exploration and optimization methods have become commonly accepted across a range of industries, such as aerospace, automotive or oil and gas, they are frequently utilized as standard practice to efficiently produce designs and aid critical engineering decisions. This paper present an overview of the practical usage of Altair HyperStudy's GRSM optimization algorithm, followed by application problems of rail
crush design optimization for a single and multi-objective formulation.


Success Story: M.TEC

M.TEC Engineering Continues to Benefit and Yield New Business Due to Advantages of the Altair Partner Alliance (APA)

Case Study Sogeclair

Case Study about Sogeclair's use of HyperWorks

Industry: Aerospace interiors

Challenge: Development of new flooring concept to fix the cabin seats while realizing a lighter structure, adjustable panels for all types of aircraft, and an easier installation and
maintenance.

Altair Solution: Use of HyperWorks, especially HyperMesh and HyperView as a pre- and postprocessor, OptiStruct for optimization issues, RADIOSS for linear and nonlinear simulation, and solidThinking Evolve/Inspire for concept modeling

Benefits:
  • Saving development time and costs

  • Use a new approach in the design leveraging optimization

  • Reduce product weight through structural optimization of composite components



LG Electronics Success Story

LG Electronics Performs Smartphone Drop-Test Simulation in Less than 24 Hours with New Automated Approach

Assa Ashuach uses solidThinking Inspire to Optimise 3D Printed Stool Design

Industrial Research and product design consultancy Assa Ashuach Studio, design and manufacture lifestyle products and also limited edition studio pieces using new design and production methods to achieve unique forms and aesthetic qualities.

Renault

An Innovative Approach to Lighter and More Efficient Powertrains



Carmakers the world over are investing heavily in the development of lighter vehicles and more economical engines that can go further on less fuel. Renault’s powertrain division wanted to further decrease the weight and increase the performance of existing and in-devolopment engines by redesigning key components to use a minimum amount of material. As an existing user of Altair’s simulation solutions, Renault approached Altair ProductDesign to assist in the development of the required optimization design methods and processes for use
at component and sub-system levels.

Automated Reporting Director

Automated Reporting Director is a novel set of comprehensive services and software automation to support the utilization of HyperWorks' post processing technologies embedded into your environment. The offering streamlines the often time-consuming tasks associated with the mechanics of results generation and reporting, allowing the engineer to focus on the interpretation and understanding of results.

NVH Director Overview

HyperWorks has a broad range of NVH functionality for NVH engineers, designed to reduce the simulation cycle time, freeing CAE engineers to focus on optimizing product design and performance. NVH Director (NVHD) is the first commercial software solution that makes full-vehicle NVH simulation possible in the most advanced and streamlined form.

Impact Simulation Director Overview

Altair's Impact Simulation Director (ISD) solutions empower engineers and designers to simulate the impact performance of designs faster to cost-effectively produce higher-quality products. ISD solutions automate the laborious, manual tasks associated with model setup, analysis, post-processing and reporting.

Squeak & Rattle Director

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.

Display Manager: Remotely Visualize Your Datasets for Rapid Collaboration and Innovation

This datasheet covers the benefits, features and capabilities of Display Manager, Altair's web-based 3D visualization portal.

Assa Ashuach uses solidThinking Inspire to Optimise 3D Printed Stool Design

Industrial Research and product design consultancy Assa Ashuach Studio, design and manufacture lifestyle products and also limited edition studio pieces using new design and production methods to achieve unique forms and aesthetic qualities.

PBS Professional Drives Computational Science at Scuola Normale

PBS Professional is managing the DreamHPC cluster at Scuola Normale di Pisa, a 2600-core Dell cluster used for compute-intensive simulations requiring parallel efficiency, scalability and fast memory access.

Panasonic Ecology Systems Shortens Development Time of Indoor Air Quality Products by Applying Virtual Product Validation with HyperWorks

They began by drop-testing
a single component, then moved on to
a combination of several components,
an assembled product and a packaged product. At each step, the team employed Altair’s RADIOSS solver to calculate the drop-test impact.

Toyota Motorsport GmbH uses Altair‘s SAO System to better control software costs in its commercial Software tools

License monitoring delivering information about the actual scope of software usage with Altair’s SAO solution, improving decisions on software renewal and acquisition.

PBS Professional Wins at NCI Raijin, Largest Supercomputer in Southern Hemisphere

Australia’s National Computational Infrastructure (NCI) chose PBS Professional to manage workload for its ‘Raijin’ cluster from Fujitsu, the largest supercomputing system in Australia with over 1000 users.

An Application of Using HyperWorks® Partner Alliance Software for Solving a Structural Problem with Anisotropic Material Properties

Jake Xu, Senior CAE Specialist, Van-Rob

In nowadays automotive industry, innovative materials are demanded to replace traditional metals for a variety of structural components in order to make the vehicle lighter. Meanwhile, there is no compromise of related performance requirements.

Improved Quality Prediction of Injection Molded Fiber Reinforced Components by Considering Fiber Orientations

Sascha Pazour, FEA Specialist, PART Engineering GmbH

For fiber reinforced parts the consideration of anisotropic material behavior is required to receive reliable results. In the scope of this fact a procedure is described how to consider these effects in terms of process-structure interaction and how to achieve possible benefits such as weight reduction and shorter development cycles shown for examples of the industry .


Evolving Trends in the Structural Optimization of Aircraft Gas Turbine Engines

Brian Cottrell, Chief Engineer of Structures, Honeywell Aerospace

The history of aircraft gas turbine engine design generally has not included significant optimization of the structural layout of engines. This optimization gap has been driven by the pace of engine layout during the concept development phase and by the extreme complexity of the problem. Therefore the initial selection of the structural system concept has tended to be anchored in experience and in simple parametric trade studies seeking to provide a sound configuration from the perspectives of strength, weight, cost, and modularity.

Optimization and Automation for the Naval Shipbuilding Industry

Raj Bishnoi, Account Manager, Altair (on behalf of General Dynamics Electric Boat)

In the Ship building industry, foundation design and verification is a very time consuming task, especially with the repetitive loops of design and validation. If we also include weight savings and shorter turnaround times into the equation, the task becomes even more daunting.

Resolving automotive EMC/EMI problems before they occur

Dr. Martin Vogel, Sr. Application Engineer, EMSS (USA), Inc.

The trend towards more electronic systems in cars continues unabated. Ever more electronic devices, some of them communication devices that radiate intentionally, have to co-exist in an automobile. Cable bundles carrying a multitude of signals in the car body lead to many possible EMC/EMI problems that have to be resolved early in the design stage.

PBS Professional at Kirchhoff Automotive

Hear how Kirchhoff Automotive improves resource utilization with PBS Works Works suite of HPC solutions.

PBS Works: Improving the Accuracy of Weather Forecasts

Running HPC systems and clusters with Altair’s PBS Professional® scheduler provides weather forecast centers with a rich solution for optimized forecasting. The solution ensures high-performance computing (HPC) resources are more efficiently scheduled to increase system utilization, improve application performance and throughput, and enhance quality of service.

Streamlining Aerodynamic CFD Analyses

External aerodynamic simulations using computational fluid dynamics (CFD) are well established tools in the product development process for
the automotive and aerospace industries. CFD simulation technology helps engineers to understand the physical phenomena taking place in
their design and provides an environment to optimize the performance with respect to certain design criteria.

Acer and Altair Cluster Transition Guide: Scaling from Workstation to Cluster for Compute-Intensive Applications

In this guide, Altair and Acer present the business case for switching to a cluster environment, including: documented performance gains when running a sample commercial application on both workstations and clusters; recommended cluster configurations; and key considerations for choosing and deploying a professional-grade cluster.

External Aerodynamics Simulation Introducing HyperWorks Virtual Wind Tunnel



Simulation Driven Weight Saving in Stamping

Dr. Subir Roy Director - Industry Solutions, Altair

With increasing regulation on fuel consumption and emission standards, weight saving has become one of the most important topics for automotive sheet metal design. Advanced high strength materials are becoming more prevalent for new vehicle models to reduce weight while enhancing structural performance.

Simulation for cabin noise inside a car due to external turbulent flow using AcuSolve and OptiStruct

Dilip Mandal (USA), Babak Emami (USA), and Robert Snadboge (Sweden), Altair

We present a new simulation procedure for evaluation of automotive cabin noise caused by external turbulent flow. A methodology for coupled simulations of flow noise sources and structural vibrations has been developed within the AcuSolve and Optistruct solver framework of Altair.

Building and Validating the Finite Element Model for an Expandable Liner Hanger

Ganesh Nanaware, Sr. Project Engineer, Baker Hughes

Expandable liner hangers used for wellbore construction within the oil and gas industry are complex mechanical systems. An expandable liner hanger is a revolutionary technology that is getting special attention during wellbore completion due to its unique capabilities of hanging liner weight under extreme conditions and problematic environments.

Integrated Composites Design with ESAComp and HyperWorks

Markku Palanterä and André Mönicke, Componeering Inc.

The design process of composite structures involves tasks that require special attention and which are not typically covered by general finite element simulation tools.

Validation and Optimization of Fiber-reinforced Plastic Parts, from Design to Manufacturing

Wilson Wang, Robin Wei and Venny Yang, CoreTech System (Moldex3D)

With increasing demands on weight reduction, fiber-reinforced thermoplastics have been a popular composite used in injection molding process due to its superior mechanical properties and high heat distortion temperature.

More innovation using Cradle CFD software

Yuya Ando, General Manager, Cradle North America Inc.

CAE software, including CFD, has been extensively used in R&D in many industries and becoming indispensable tools. However, each simulation is merely one of many aspects an engineer needs to consider about. Therefore, ideally, each tool utilized for R&D is easy, fast, robust, accurate, reliable and being able to interact with other tools to aid the innovation in onefs design.

Virtual and Real Testing to Evaluate Load Security for Heavy Products

Masahiro Takagi, Founder & CEO , eXcearch Corporation

Heavy packages cannot be easily tested in the lab to check the effectiveness of their securements against tip over accidents. We will demonstrate how virtual testing by Altair MotionSolve supported by real testing can be utilized to simulate a real-world tip over accident for examination and improvement.

Fatigue Due to Random Loadings

Jeffrey Mentley, Senior Engineer, HBM nCode

Fatigue damage is traditionally determined from time signals of stress or strain using the Rainflow method to extract fatigue cycles. This approach is satisfactory when the damaging events are deterministic and are represented by short data samples of extreme transient loads such as aircraft landing, or automobile potholes.

Development of a New Altair Customized Database of Advanced Material Properties

Dr. Viktor Pocajt, CEO, Key to Metals AG - Zürich, Switzerland

Key to Metals is a vast database which contains the properties of metallic – and more recently non-metallic materials, providing a turn-key solution for the global engineering community.

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.

From Concept to Design Verification in Half the Time

Rick Kerner, Staff Engineer, CAE Structures

Concept ideation on clean sheet designs can consume considerable time on the front end of a new project. From training-in new designers/engineers to collaborating with offshore contract firms, a significant amount of time is sunk into building momentum in a new program.

Scripting with HyperMesh to Automate the Process of Connector Creation and Realization at Tesla

Singai Krishnamoorthi, Technical Specialist, Tesla Motors

The paradigm of using connector entities within HyperMesh is a powerful method of quickly modeling various welds and other connections without having to manually define their finite element representation every time you need to build or update a model.

Free Size Optimized for a Doubler Repair of a Gouge Type Defect on Uniaxially Loaded Composite Sandwich Structures

Timothy Harrell, Structural Analyst, United Launch Alliance

Doublers are commonly used to repair composite sandwich facesheet defects, such as gouges or depressions, because they locally increase the strength of the facesheet in the area of the repair.

Altairs Solutions for Optimization and Analysis of Aerospace Structures



HyperWorks Optimization Capabilities Integrated into Packaging Design Process Help Unilever Cut Costs and Development Time

Unilever reduced the time required for
simulation and significantly lowered costs
by working with Altair HyperWorks suite
of computer-aided engineering tools.

Railcar Manufacturer Speeds Design Modifications with HyperWorks

American Railcar Industries, headquartered
in St. Charles, Mo., designs and manufactures
commercial railroad cars, producing
every part of the car above the wheels.
Customers use the company’s railcars to
transport all sorts of liquid and solid raw
materials, including oil, coal, cement, sand,
grain and other substances. Their designs
include boxcars, gondolas and hoppers,
among other styles.

PBS Pro at Czech National Supercomputing Center

The IT4I National Supercomputing Center uses PBS Professional to manage its new Bull cluster being shared by over 200 planned users. Center officials say PBS “provides the robust commercial functionality we need in a scheduler”

Streamlining Aerodynamic CFD Analyses

External aerodynamic simulations using computational fluid dynamics (CFD) are well established tools in the product development process for
the automotive and aerospace industries. CFD simulation technology helps engineers to understand the physical phenomena taking place in
their design and provides an environment to optimize the performance with respect to certain design criteria.

Aerodynamic Development of a Road Cycling Helmet with AcuSolve - LX Sim



Polaris Reduces Weight of Snowmobile Structures Up to 40% with solidThinking Inspire and OptiStruct

Polaris, based in Roseau, Minn., is a
renowned manufacturer of snowmobiles,
and its Snowmobile Chassis Structures
Group is engaged in design and testing that supports three different platform teams with chassis solutions for each set of requirements. Computer-based design and finite element (FE) analysis are integral parts of the Polaris snowmobile development process, as engineers work to create optimal structures that reduce weight without sacrificing performance.

Evenflo Juvenile Products

Evenflo employs topology optimization and generative design simulation for “sustaining engineering” where fast turnaround is essential for functional improvements of  infant car seats design.

HyperView and HyperGraph Introduction

The purpose of this self paced course is to introduce the post processing tools available in HyperView and HyperGraph. Most 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. Try It allows you to go through an interactive video which will guide you through performing the exercise. Do It consists of a written exercise and model that can be opened in HyperWorks Desktop which allows you to perform the exercise on your own.

Introduction to HyperWorks Desktop for Aerospace Applications

This course is meant for HyperWokrs Desktop users in the Aerospace environment. The course contains a tailored approach to using variuos tools within HyperMesh and HyperView for Aerospace users. Most Chapters will also contain demonstration videos based on Aerospace components.

Creactive Design

Using Optimization to Improve the Design of a Classroom



Product design consultancy and structural engineering partner, Creactive Design, wanted to explore the possibility of utilizing optimization technologies to improve the design of a cross-functional roof for an innovative new classroom environment. The classrooms, under development at architecture firm, Future Systems, would be prefabricated in glass reinforced plastic (GRP) to a high standard, making them energy efficient, durable and eminently replicable. The ambitious project was called the “World Classroom”. Creactive approached Altair ProductDesign, to assist in this explorative project due to Altair’s reputation for developing the market leading optimization software solution, OptiStruct.

Delivering Powerful Solutions to the Oil & Gas Industry

To maximize user productivity, oil & gas companies need HPC resources operating reliably around the clock. In addition, the systems need to be easy to use, manage, and scale, while still being cost-effective. Altair’s PBS Works suite of HPC tools offers state-of-the-art solutions that are built to address these challenges.

Smart Multiphysics Co-simulation with MotionSolve and Simulink for Mechanical System Control



Smart Multiphysics: Optimizing Fatigue Life by Automating Sequential Simulation using Altair HyperWorks and nCode DesignLife



The Successful Application of HyperWorks at Lenovo

To increase efficiency, improve the quality of meshing and shorten CAE simulation time, Lenovo engineers needed to own a powerful pre-processing tool, one that would really meet the demands of scientific research and engineering innovation. For this task, they chose HyperMesh, an important component of the Altair HyperWorks suite.

Samsung Uses OptiStruct to Redesign Washing Machine Component for Optimized Weight and Material Usage

To carry out optimization on the pulley, Suzhou Samsung chose OptiStruct, a key
component of Altair’s HyperWorks suite of computer-aided engineering tools and a
modern structural analysis and optimization solver. “OptiStruct provided us with important optimization features,” said Mr. Cheng, “such as topology, size and shape optimization. We were particularly interested in topology optimization to obtain the most efficient
structure or distribution of material used in the structure.”

HyperWorks Enables Global Appliance Manufacturer to Use New Material for Stronger, Lower-Cost Product

To qualitatively and quantitatively analyze the stress on the door cover during thermal expansion and contraction, the engineers used HyperMesh, a high-performance finite element pre-processor and RADIOSS, a modern structural analysis and optimization solver, both of which are part of Altair’s HyperWorks suite of computer-aided engineering tools. With these tools, engineers created a computerized simulation of the refrigerator door cover temperature field, employing HyperMesh to create a finely meshed model of the upper and lower covers, while shell elements were used to mesh the steel plate and interior lining, along with solid elements for the foaming material.

Limited Availability Program for Energy-Efficient Computing Solution

Altair and SGI are releasing an energy-aware computing solution to a limited number of early adopters. Download the flyer for details, including program requirements and benefits.

Communicate and Collaborate with PLM Systems in HyperWorks



Solving Real-Life Problems with CFD Parallel Performance of AcuSolve on Cray Systems



Clemson University Chooses PBS Professional for HPC Workload Management

Clemson University's IT department, Clemson Computing and Information Technology (CCIT), selected PBS Professional over open-source alternatives for mission-critical workload management. “We were looking to fulfill two requirements that our open source scheduling tool could not handle – reliability/scalability and technical support. After evaluating workload management vendors, Altair’s PBS Professional scheduling software came out on top as the solution that met our HPC needs.”

Altair Product Design Brochure

Our unique approach to product design includes an aggressive application of
simulation technology and automation from within the HyperWorks suite, with
a focus on weight efficiency through optimization. The result is a development
process with reduced risk and shorter cycle times, delivering products that
meet performance and mass targets, on time.

Intel-Colfax-Altair Trial Cluster Testimonial: Nexteer Automotive

Nexteer Automotive used Colfax’s “Try Before You Buy” cluster trial program to run an OptiStruct simulation for design optimization. Their job ran in just 30 minutes instead of 2-3 days.

HyperWorks, especially OptiStruct is one of the central tools supporting the CAE efforts of BASF Engineering Plastics

Mathematical optimisation methods can provide significant support in virtual CAE part development. In the early phases of the project topology optimisation affords valuable clues to the design of the geometry of the part.

Dana Adopts Altair’s SimLab to Automate Meshing of Powertrain Models with Dramatic Time Savings

Dana Holding Corporation is a world
leader in driveline, sealing, and thermalmanagement
technologies that improve
fuel efficiency, reduce emissions and
lower the cost of ownership in passenger,
commercial and off-highway vehicles.
Dana's 25,000 employees operate in
27 countries within a network of some
90 engineering, manufacturing and
distribution facilities.
Computer simulation of powertrain
components—entailing the creation of
very large models with 25,000 surfaces or
more—has long been an important aspect
of Dana’s product development process.
For many years, the company’s engineers
have employed a standard industry
methodology of transforming CAD designs
into prototypes, analyzing the prototype
to observe failure points, redesigning
the prototype and retesting until the
product met specifications.

Dante Sanchez Discusses the Optimization of Mabe's White Goods Packaging

For white goods manufacturer Mabe, the quality of the design and engineering of their home appliances is paramount. The objectives of this project were to simulate the effect of the distribution environment events to a washer and dryer product and perform optimization to improve product protection while reducing material costs and weight.

Investigating Aeroelastic Performance of Multi-MegaWatt Wind Turbine Rotors Using CFD

Recent trends in wind power technology are focusing on increasing power output through an increase in rotor diameter. As the rotor diameter
increases, aeroelastic effects become increasingly important in the design of an efficient blade. A detailed understanding of the fluid elastic
coupling can lead to improved designs; yielding more power, reduced maintenance, and ultimately leading to an overall reduction in the cost
of electricity. In this work, a high fidelity Computational Fluid Dynamics (CFD) methodology is presented for performing fully coupled Fluid-
Structure Interaction (FSI) simulations of wind turbine blades and rotors using a commercially available flow solver, AcuSolve. We demonstrate
the technique using a 13.2 MW blade design.

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