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Achieving Superior Crash Performance for the Souest DX7

Analysis and optimization to improve crash performance while reducing reliance on physical tests.

ESAComp for Aerospace

One page flyer showcasing how ESAComp can be applied for design optimization in the aerospace industry.

Minimising Mass and Increasing Durability of a Vehicle Suspension System Using OptiStruct

Gestamp selected Altair to develop a set of custom tools within HyperWorks, eliminating the need for an initial 'trial and error' design loop while reducing mass and increasing durability of a rear twist beam suspension system. The company achieved a reduction in lead time while producing competitive low cost, low mass RTB designs.

Baker Hughes Drills 60% off Product Development Time With HyperWorks-Driven Simulation

One of the world’s leading suppliers of oilfield services, products, technology and systems, Baker Hughes operates globally with nearly 59,000 employees. The company, headquartered in Houston, Texas, recently recorded $21.4 billion in annual revenue from sales of both services and highly innovative products for the world’s oil and natural gas industry.

Fluid - Structure Interaction Analysis and Optimization of an Automotive Component

This paper discusses the behavior of a flexible flap at the rear end of a generic car model under aerodynamic loads. A strong bidirectional coupling between the flap’s deflection and the flow field exists which requires this system to be simulated in a coupled fluid-structure manner.

Indian Engineering Institute CoEP Establishes CAE Optimization Center Employing Altair HyperWorks

This success story illustrates how a reputed engineering institute of national acclaim has set-up a CAE - Optimization Lab, equipped with Altair HyperWorks CAE tools, to expose their students to the latest technologies in product design, analysis, and optimization. Within the range of the CAE - Optimization Lab, CoEP has launched various courses to impart knowledge on Altair HyperWorks. This CoEP initiative bridges the gap between industry expectations and needs and the knowledge that graduating students possess. Being trained on advanced and contemporary technologies such as the HyperWorks suite has opened new opportunities for students to embark their career, has improved the national ranking of the college due to investing in a modern and robust infrastructure, and also has benefitted the industry by creating a talent pool of well-trained manpower, available to work on breakthrough engineering initiatives.

Simulation Powers Development of Professional Power Tools

CAE is a core element in developing high-end, long-lasting professional power tools at DeWalt, a Stanley Black & Decker brand. <br><br> By Evelyn Gebhardt<br> <i>Concept To Reality</i> Winter/ Spring 2015 <br> <a href="http://www.altair.com/MagazineFreeSubscription.aspx" target="_blank">Subscribe to C2R Magazine</a><br><br>

CAE Simulation driven Product Development of Expandable Liner Hanger

CAE Simulation driven Product Development of Expandable Liner Hanger presentation given by Ganesh Nanaware of Baker Hughes at ATCx Energy 2014.

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. The widespread acceptance of these methods coupled with the power of modern computing has led to applications across a range of design problems and ever-increasing complexity. The size and scope of this expansion continually pushes the boundaries of existing exploration and optimization methods. Furthermore, a complete exploration of the optimal design space includes computationally intensive features such as multi-objective optimization, to understand the trade-off between competing objectives, and global optimization, to avoid local extrema.

Multi-Objective Optimization Study of LED Light using SC/Tetra and HyperStudy

2014 presentation by Software Cradle at the European ATC demonstrating how SC/Tetra worked with HyperStudy in the optimization of an LED light.

Tesla Optimizes CAE - Desktop Engineering Reprint

Automating CAE connectors creation in HyperMesh and utilizing HyperStudy for pedestrian impact simulation helped optimize Tesla’s design cycle and get better crash and safety performance.

Reducing Weld Distortion by 93% with HyperStudy

Gestamp Tallent Ltd is a world class designer, developer and manufacturer of cutting edge, chassis structural and suspension products, body in white structures, modules and systems for the automotive industry. Gestamp used the BMW MINI front subframe tower to demonstrate the weld distortion optimisation approach. The tower is particularly susceptible to distortion due to its tall and thin dimensions. The objective of this optimisation was to minimise the distortion of the tower measured by the displacement of the top of the tower as the weld sections cool. In order to further investigate weld removal optimisation they chose HyperStudy.

Northwestern University Success Story

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

Renault

<b>An Innovative Approach to Lighter and More Efficient Powertrains</b><br><br> 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.

Success Story: HBPO GmbH Achieves Flexibility and Cost Efficiency in Automotive Development By Leveraging the APA

HBPO GmbH optimizes their design process by utilizing multiple products, such as Moldex3D, Total Materia and MADYMO, alongside HyperWorks products for the development of their front end modules.

Altair Products and Partners Offering Assist Commercial Vehicles Seat Manufacturer to Enhance its Development Process

Isringhausen applies DesignLife, Moldex3D, and Total Materia alongside RADIOSS, OptiStruct and other HyperWorks tools to optimize weight and durability of their customized seats while still meeting safety standards.

Van-Rob Expands the Scope of Its Projects, Saves Time and Money, Using Altair Partner Alliance Software in Designing Automotive Assemblies

Van-Rob, a tier-one automotive supplier headquartered in Aurora, Ontario, designs and manufactures metal stampings, modular welded assemblies, structural welded assemblies, and mechanical assemblies. Van-Rob needed upgraded its durability and fatigue technology to satisfy customer demand, but infrequent use made it difficult to justify cost. Altair’s APA licensing model allowed Van-Rob to use nCode DesignLife for durability analysis without needing to spend resources on additional licensing.

Assystem Used HyperWorks CAE Simulation to Design, Simulate and Test Nuclear Encapsulation Vessels

Assystem is an international engineering and innovation consultancy group with a presence in 14 countries and 8500 employees. HyperMesh, RADIOSS and HyperStudy were used to design the safest possible nuclear encapsulation vessel for securely containing nuclear material. The designs not only achieved pressure vessel code PD5500 standards, but also helped Assystem gain external accreditation for the pressure vessel’s compliance to code. Download the Assystem Case Study

Cleveland Golf Drives Product Innovation Through Simulation and Optimization Using HyperWorks

Much more goes into a golf club than simply wood, iron and graphite. To shape the performance, the distinctive appearance, the personalized feel and even the sound of the club striking the ball, manufacturers must precisely engineer every aspect of the design. Today, simulation-driven design has dramatically reduced development time for new golf clubs while allowing them to meet strict regulations more efficiently.

Wind Turbines Take a Technical Spin at Generating Electricity

Wind turbines convert kinetic energy into mechanical power. In use for centuries, they have harnessed the power of the wind to pump water, grind grain and generate electricity. While their popularity has peaked and ebbed over the years, interest in wind turbines to generate electricity is again gaining momentum. As an alternative to fossil fuels, wind energy is seen as a viable way to produce energy while reducing global warming and pollution.

Biomedical Research at the Scripps Clinic: Modeling Orthopedic Implants with Altair HyperWorks

Every year, countless people — regardless of their age or level of physical activity — begin to experience the effects of osteoarthritis, a degenerative joint disease. As we age, the cartilage that cushions the joints begins to deteriorate. The head of the adjacent bones begin to break down from the friction, causing pain in the joint. When the condition worsens and non- surgical remedies are exhausted, surgeons may recommend joint replacement. Typically, titanium alloy implants are lined with plastics that act as cartilage and are fixed in place with cement or screws by the surgeon. The implants can give patients a new lease on life, dramatically reducing pain and improving mobility. However, questions naturally arise in the patient’s mind: How much range of motion will I have in the new joint? How much strength will I recover? And how long will the new joint last?

The Automatic Calibration and Robustness Assessment of a Complex Engineering Component: Airbag Inflation

This paper describes the application of new technology to achieve automatic calibration and assess the robustness of an airbag inflation model. Calibration of the kinematic response of the airbag is achieved by defining the activity as an optimisation problem. The objective is to minimise the error between the experimental test and numerical simulation curves. Once calibration has been achieved, a unique robustness assessment is performed, which utilises the optimisation technology used in the calibration exercise.

The Complete Package: Applying Altair's Technology Process to Reusable Packaging Design

This paper demonstrates the flexibility that Altair technology provides throughout the design process with tools applicable to all stages. An overview of the LINPAC design process incorporating Altair's technology is given together with examples of how and which tools are being implemented. The limitations of the traditional LINPAC approach and the use of Altair's tools is demonstrated through the use of a detailed example; without the use of Altair technology, more iterations in expensive tool modifications would have been required to achieve a satisfactory design without introducing unacceptable costs.

Design Development of a New Consumer Personal Care Product Pack Driven by Optimization

Packaging designers must constantly inject innovations to attract consumers in a constantly evolving and highly competitive market. Keeping ahead of the competition by bringing new and exciting products to market fast, and at the necessary level of quality, presents a major engineering challenge. A new deodorant pack development process is described, which introduces advanced simulation and optimization technology into the concept development phase. Detailed predictions of interacting parts in a mechanism assembly are made possible through use of advanced simulation technology. Design optimization is then employed using the modelling as a virtual testing ground for design variants. The approach provides clear design direction and helps to improve performance and reduce uncertainty in the development process.

Programmable, Open-Architecture HyperWorks Helps Toshiba Design Smaller Hard Disk Drives to Meet Market Demand

Toshiba Digital Network Company, faced with increasing global competition in the hard disk drive (HDD) marketplace, set out to create an advantage through the redesign of their existing HDD product(s). To support this effort, Toshiba partnered with Altair Engineering to automate its design process. This was accomplished by leveraging HyperWorks powerful modeling, visualization and optimization software applications with Toshiba’s proprietary solver for fluid dynamics. The specific goal was to optimize the air bearing surface (ABS) of the HDD’s magnetic head slider. This unique product development process resulted in minimizing the flying height as much as possible while considering its stability. This, in turn, reduced the overall size of the HDD and increased its recording density. In addition, the new design was brought to market in significantly less time than with Toshiba’s traditional design process.

HyperWorks CFD Optimization Helps MTU Improve Diesel Engine Compressor Blade Performance

To increase turbo charger efficiency, global diesel engine supplier MTU Friedrichshafen GmbH combined Altair’s HyperWorks computer-aided engineering (CAE) software suite with a computational fluid dynamics (CFD) solver. Combining the morphing capabilities of HyperMesh (the pre-processor for finite-element [FE] analysis and CFD) with HyperStudy (the solver-neutral design study and optimization tool), MTU redesigned the shape of the compressor blades to improve pressure gain and efficiency. The redesign, in turn, increases the fuel efficiency of the engine.

Optimization Methods Land Results in ExoMars Project

Sophisticated simulation tools enable aerospace engineers to study the feasibility of airbag landing systems.

Simulation Links Welding Data to Structural Analysis Models

A robust modeling process greatly aids the design of lower cost and higher quality welded structures.

Putting Simulation Muscle Behind a Sporty Concept Car

Optimization technology delivers innovative suspension design for Alfa Romeo's sleek concept car.

HyperWorks at Wagon Automotive: Speeding Development Time While Cutting Prototype Costs

Wagon Automotive, a system and module supplier of components to major car builders, sought ways to accelerate product development and reduce prototyping costs while maintaining high quality. Adopting the HyperWorks suite of advanced CAE tools enabled the company to achieve both those goals. Wagon Automotive now uses HyperWorks during the entire development cycle, from concept design to optimization.

Parametric Optimization of Fluid Dynamic Simulations using StarCD

HyperStudy's design optimization was combined with CFD simulation in order to optimize fluid flow.

Designing All-Terrain Vehicle Frames Using Topological Optimization

Upfront concept design optimization on a all terrain vehicle frame resulted in a 9% mass reduction. Using Design of Experiment (DOE) methods, peak accelerations during crash decreased by 22%.

ExoMars Rover Airbag Design and Reliability Optimization

Astrium used HyperStudy with LS-Dyna to not only optimize the landing behavior of the ExoMars lander but also to investigate the probability of failure using HyperStudy’s stochastic engine. HyperWorks’ process automation engine helped to quickly create design variations.

Opportunities in Packaging: Innovation & Savings

Technology allows companies to efficiently develop cost-effective, high-performance packaging systems.

Driving Performance with Optimization

Engineering enthusiasts and software tee-off to optimize club driver performance while ensuring conformance to the Rules of Golf.

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