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An Automated Head Impact Process Setup for Automobile Instrument Panel (IP) Application

FMVSS 201 procedure originally rolled out in 1968 by Federal Motor Vehicle Safety Administration to protect the automobile occupants from fatal injury during the crash. Since the beginning of the law, the automobile interior safety has become considerably more challenging for manufacturer to meet FMVSS 201 standard criteria. During the course of instrument panels (IP) development, engineers are heavily relied on computer simulation to optimize the design for a more robust design. Based on FMVSS 201, there are an infinite number of target points on the instrument panels that must be tested for head impact performance. Therefore, this becomes not only costly but it is impossible for the manufacturer to test all possible target points using the current conventional process.

The Use of Suimulation (FEKO) to Investigate Antenna Performance on Mobile Platforms

Wireless technologies have proliferated onto automotive platforms as part of infotainment, telematics and active safety initiatives. These wireless solutions present engineers design challenges in the area of applied electromagnetics in terms of antenna design, antenna placement, electromagnetic compatibility and wave propagation. The Applied EMAG and Wireless Lab at Oakland University possesses an outdoor vehicle-level antenna range (80 MHz - 6,000 MHz) and full-wave electromagnetic field solvers with high end computers to solve these issues. This presentation will highlight some of the past and recent research projects conducted in my lab that relied on a full-wave electromagnetic field solver to investigate the issue and subsequently be validated with measurements.

Motivations, Opportunities and Challenges of Additive Manufacturing for Space Application

Additive manufacturing (AM) technologies have progressed rapidly in the last years. Supported by the recent developments of design optimisation tools and manufacturing capabilities, components and parts produced using AM are emerging more and more into the focus of space industry. The aim of this presentation is to show why AM can be seen a promising manufacturing technique for space industry and in particular for satellite application? Opportunities and challenges that have to be faced to make 3D printed components “flying” on spacecraft are presented and discussed. The re-engineering and qualification approach of the already existing Antenna Support Bracket, that is part of the Sentinel-1 spacecraft, is discussed as a case study to bring this topic into the more tangible context of an industrial project.

A Multifunctional Aerospace Smart Skin Emerges from Computational Models and Physical Experiments

The capability to assess the current or future state of the health of an aircraft to improve safety, availability, and reliability while reducing maintenance costs has been a continuous goal for decades. Many companies, government agencies, and academic institutions have become interested in Integrated Vehicle Health Management (IVHM) and a growing effort of research into “smart” vehicle sensing systems has emerged. Methods to detect damage to aircraft materials and structures have historically relied on visual inspection during pre-flight or post-flight operations by flight and ground crews. More quantitative non-destructive investigations with various instruments and sensors have traditionally been performed when the aircraft is out of operational service during major scheduled maintenance. Through the use of reliable sensors coupled with data monitoring, data mining, and data analysis techniques, the health state of a vehicle can be detected in-situ.

Pure Michigan. We run on Brainpower

A presentation on Michigan’s automotive industry. An overview of the automotive strategy that was developed by the Michigan Economic Development Corporations automotive office and the continued work in the area of talent development including the new “We run on brainpower” campaign.

Pure Michigan. We run on Brainpower

A presentation on Michigan’s automotive industry. An overview of the automotive strategy that was developed by the Michigan Economic Development Corporations automotive office and the continued work in the area of talent development including the new “We run on brainpower” campaign.

S1 AM Bracket - Rupture Test Time Lapse

Additive manufacturing (AM) technologies have progressed rapidly in the last years. Supported by the recent developments of design optimisation tools and manufacturing capabilities, components and parts produced using AM are emerging more and more into the focus of space industry. The aim of this presentation is to show why AM can be seen a promising manufacturing technique for space industry and in particular for satellite application? Opportunities and challenges that have to be faced to make 3D printed components “flying” on spacecraft are presented and discussed. The re-engineering and qualification approach of the already existing Antenna Support Bracket, that is part of the Sentinel-1 spacecraft, is discussed as a case study to bring this topic into the more tangible context of an industrial project.

【事例】JSFのパイロットの体温上昇を抑える冷却ユニット - AMETEK

AMETEK 社は、モデルベースの組み込み開発システムにより、冷却ユニット制御システムの設計、シミュレーション、ファームウェアの作成、稼動確認を実施しました。

FEKO Webinar Recording: The CMA Advantage

In this webinar we cover some of the theory of CMA, as well as present several new case studies highlighting the CMA design advantage. These include optimum feeding and placement of antennas on platforms and decoupling of antenna elements in a MIMO configuration.

Steve McGugan Industrial Design

Award winning industrial designer Steve McGugan uses Altair Evolve to design and model a range of unique products.

Steve McGugan Industrial Design社(英語事例)

数々の受賞歴を持つ工業デザイナーであるSteve McGugan氏は、多くのユニークな製品の設計やモデリングにEvolveを使用しています。

Altair NVH Solutions - Americas ATC 2015 Workshop

This Workshop Presentation on NVH was conducted by Jianmin Guan at the Americas ATC on May 5, 2015. This workshop introduced Altair full frequency and multi-physics solutions for solving the most pressing problems in the NVH field. It provided an overview of Altair’s solutions designed to facilitate the best in class NVH design process at automotive OEMs, coupled with real-time demonstrations of key product features. The focus of the workshop is on effective NVH problem resolution.

FEKO for Automotive

FEKO is Altair’s comprehensive electromagnetic simulation software suite extensively used by OEMs and their suppliers for the analysis and design of antennas and electromagnetic compatibility (EMC) problems in the automotive industry.

FEKO for Defense and Aerospace

FEKO is Altair’s comprehensive electromagnetic simulation software suite, used extensively to design communication and radar antennas for aircrafts, ships, vehicles, satellites, missiles and other platforms.

FEKO for Electronics

FEKO, Altair’s comprehensive electromagnetic simulation software suite, is ideal for antenna virtual prototyping and simulation driven design for electronics. This includes antenna design for a wide set of products such as mobile phones, tablets, cameras, laptops and TVs.

FEKO for Healthcare

FEKO, Altair’s comprehensive electromagnetic simulation software suite, is ideal for the simulation of field interactions of antennas near or inside anatomical loads. Applications vary from magnetic resonance imaging (MRI) coil design and implant telemetry, through to surgical tools such as biopsy needle antennas.

Amcor Rigid Plastics

In today’s remarkably competitive markets, the packaging industry needs to be highly responsive to the rapidly changing industry they operate in. New products are being produced all the time, and packaging professionals must maintain a fine balance between packaging performance, environmental impact and shelf appeal while keeping costs to a minimum. Amcor wanted to explore ways that it could accelerate the engineering and analysis tasks associated with the development of new packaging products. Altair ProductDesign’s Enterprise Solutions Group worked with Amcor’s simulation specialists to identify where time and eventually costs could be saved within the design process. Following an investigation into current design practices, the ESG suggested that Amcor could take advantage of the Impact Simulation Director (ISD).

AMCOR实现仿真流程自动化

在当前市场竞争非常激烈的情况下,包装行业需要高度响应瞬息万变的行情。新的产品不断被生产,包装的专业人才必须在保证成本最低情况下,具有良好的平衡包装性能、环境影响和商品吸引力的能力。Amcor不断寻找创新和轻量化的容器设计,这不仅可以得到美观的产品,并且在质量、性能和安全等诸多方面均可满足消费者的要求。Amcor团队与Altair ProductDesign的企业解决方案团队ESG结合,该团队专门从事评估和提升产品开发过程和工作流程。为了加速这个过程,Altair产品设计部门建议Amcor能采用Altair Impact Simulation Director(ISD)进行模型的前处理工作。

Electromagnetic and Mechanical Analysis Using the Coupling between Flux and Vibro-acoustics

The purpose of this presentation is to show the different steps of the vibro‐acoustic study of a rotating machines with the new coupling between Flux 2D/3D and ANSYS

高周波電磁解析ソフトウェア FEKO のご紹介

-電磁解析法(CEM)のご紹介
-FEKOのCEMソルバー(解析法)と解析フロー
-解析事例(無線機器用アンテナの設計と最適化、PCBレベルのEMI(ノイズ結合分析)、シールド効果)

FEKO: Characteristic Mode Analysis for Antenna Placement

FEKO’s Characteristic Mode Analysis capability is instrumental in HF antenna placement and pattern synthesis.

FEKO: Characteristic Mode Analysis for Ultra-Wideband Antenna Design

FEKO’s Characteristic Mode Analysis capability is used to improve an ultra-wideband antenna.

Combined Electromagnetic Field and Cable Coupling Solutions

Many problems of electromagnetic compatibility and interference involve cables. FEKO offers engineers tools to solve combined electromagnetic field / cable problems

FEKO: Combined Electromagnetic Field and Cable Coupling Solutions

Many problems of electromagnetic compatibility and interference involve cables. FEKO offers engineers tools to solve combined electromagnetic field / cable problems

Designing an Impedance Matched Antenna: FEKO and Optenni Lab

Optenni Lab is a fast and easy-to-use matching circuit generation and antenna analysis tool tailored for antenna designers.

FEKO and Optenni Lab: Designing an Impedance Matched Antenna

Optenni Lab is a fast and easy-to-use matching circuit generation and antenna analysis tool tailored for antenna designers.

Electromagnetic and Thermal Analysis of a Human-Body Model with Implant in MRI

Image quality in magnetic resonance imaging (MRI) depends on good radio-frequency (RF) coil design. Such coils can be designed efficiently in FEKO thanks to the simulation methods the tool offers.

FEKO: Electromagnetic and Thermal Analysis of a Human-Body Model with Implant in MRI

Image quality in magnetic resonance imaging (MRI) depends on good radio-frequency (RF) coil design. Such coils can be designed efficiently in FEKO thanks to the simulation methods the tool offers.

Electromagnetic Environmental Effects on Aircraft with Composite Materials

FEKO is well-suited for simulations involving anisotropic multi-layer carbon-fiber-reinforced composite materials.

FEKO: Electromagnetic Environmental Effects on Aircraft with Composite Materials

FEKO is well-suited for simulations involving anisotropic multi-layer carbon-fiber-reinforced composite materials.

FEKO for High Performance Computing

A key feature of FEKO is its wide spectrum of numerical methods and hybridisations. Each method or hybridisation is suitable for a specific range of applications and model sizes

FEKO for Integrated Windscreen Antenna Analysis

Antennas for AM and FM radio, television, GPS navigation, GSM communication and automated tolling are becoming standard on vehicles. To find a combination of antenna topologies and locations that is both functional and aesthetically acceptable, is a challenging task.

FEKO : Intelligent Design with Characteristic Mode Analysis

The theory of characteristic mode analysis (CMA)is a well-known method that allows for the analysis of arbitrary structures. CMA gives insight into the resonating behavior of structures such as antennas.

FEKO: Microstrip Antennas and Circuits

Explosive growth in commercial and military applications for microstrip antennas has resulted in a highly active field for microstrip antenna research and development.

FEKO for Radiation Hazard / Human Exposure Modelling

Protection against the dangers of excessively high levels of radiation is an important part of any system design process that involves radio frequency (RF) transmitters.

FEKO: RF Design and Safety for Biotechnology

Systems for the healthcare industry are at the forefront of technology development. These drive the growing trend of ubiquitous computing - where computers are embedded and an invisible part of our lives. Applications include remote patient monitoring, drug delivery and sophisticated imaging systems like magnetic resonance imaging (MRI).

FEKO: RF Design and Safety of MRI Systems

Electromagnetic simulation software has become an indispensable tool in the development and analysis of magnetic resonance imaging (MRI) systems.

FEKO: Scattering and Radar Cross Section

The scattering properties of an object is the spatial distribution of scattered energy when the object is exposed to incident electromagnetic fields.

FEKO: Simulating Anechoic and Reverberation Chambers

A growing concern in the electronics industry is the increased pollution in the form of electromagnetic interference (EMI), radio frequency interference (RFI) and spurious signals caused by electronic devices and radiating cables.

FEKO: Waveguide Applications

Waveguides have been widely used since the first space communications. Driven by its use in the defence, aerospace, marine and communications industries, the technology is continuously evolving.

FEKO: Wireless Antenna Design and Compliance

With the roll-out of fourth generation (4G) networks across the world, compatible smartphones and tablets are becoming the norm. The design and integration of wireless antennas are increasingly receiving attention in a competitive industry.

FEKO Webinar : An Introduction to FEKO

This webinar is aimed primarily at new users of FEKO. Topics include the user interface, model set-up, solver selection, tips and tricks and demonstrations.

FEKO Webinar Recording : An Introduction to FEKO

This webinar is aimed primarily at new users of FEKO. Topics include the user interface, model set-up, solver selection, tips and tricks and demonstrations.

FEKO Webinar Recording : Radomes with Frequency Selective Surfaces

In this webinar we present a complete solution for the design and analysis of radomes. We also discuss in detail the challenges and the solutions to the design and analysis of Frequency Selective Surface (FSS) radomes.

Materials Property Data for Simulation Webinar - release of GRANTA MI:Materials Gateway™

Watch this 45-minutes webinar recording to find out how the new MI:Materials Gateway for HyperMesh application provides access to validated CAE materials models from directly within HyperMesh. See how to get the data you need, fast and error-free. Understand how and why leading engineering enterprises manage their materials information to ensure delivery of traceable, high quality information for simulation. GRANTA MI:Materials Gateway both provides access to this managed proprietary data and to a unique, comprehensive library of reference data on metals, plastics, composites, compiled over the 21 years since Granta’s spin-out from the University of Cambridge.

[AOP]豊橋科学技術大学 - A1合金/鉄鋼材料の摩擦攪拌接合における接合線形状の影響/異材摩擦攪拌接合における接合ツール形状が材料流動に及ぼす影響

1. A1合金/鉄鋼材料の摩擦攪拌接合における接合線形状の影響   2. 異材摩擦攪拌接合における接合ツール形状が材料流動に及ぼす影響 - 豊橋科学技術大学 機械工学系 伊東篤志、安井利明、福本昌宏 [2015.05]

[AOP]岐阜大学 - こもり音予測のための1DCAE用ビームモデル

こもり音予測のための1DCAE用ビームモデル/Beam model to predict interior booming noise in concept design stage - 岐阜大学/Gifu University [2015.05]

Intelligent Design with Characteristic Mode Analysis (CMA)

The theory of characteristic mode analysis (CMA) is a well-known method that allows for the analysis of arbitrary structures. CMA gives insight into the resonating behavior of structures such as antennas.

HyperWorks Unlimited Virtual Appliance Data Sheet

Altair’s HyperWorks Unlimited Virtual Appliance provides users with the CAE applications and HPC resources they need for design work—ready in minutes—through nothing but a browser

Webinar: Altair’s Solutions for Full-Vehicle NVH Analysis

An important factor in improving vehicle quality and perception is guided by how vehicles are designed for noise, vibration and harshness, making NVH an important domain for the automotive industry. Altair and its Alliance Partners offer a complete solution for automotive NVH applications. In this 45-minute webinar, we will give an overview of problems faced in the automotive industry for NVH analysis and how HyperWorks and Altair’s Partner technologies help address these issues, providing a complete solution that spans from modeling and assembly to analysis, diagnostic and optimization. Presenters: Jianmin Guan, Director, Vibration and Acoustics Solutions, Altair Vijay Ambarisha, Senior Project Engineer, ANSOL Jerry Manning, President, Cambridge Collaborative Francois-Xavier Becot, Co-manager, Matelys

HyperWorks Collaboration Toolsデータシート

HyperWorks Desktop製品群には、シミュレーションデータを効率良く整理、管理するために連携した各種機能が搭載されています。即座に利用可能なコラボレーション環境Collaboration Toolsは、HyperWorksの導入後、直ちに利用することができます。

Altairパートナーアライアンスカタログ

Altairパートナーアライアンスの概要&製品カタログ

【Tips動画】ご存知でしたか?ジオメトリ(CAD)も変形できることを!

今回はCADで作成したメガネを、HyperMeshのモーフィング機能を使って変形させてみました。変形できるのはメッシュだけではないのです! 通常、CAE結果からジオメトリを作成するとガタガタになりがちですが、この機能を使えばCAEエンジニアから設計者にCAE結果とCADデータ付きで形状の提案をするなんてことがスマートに出来ます。

HyperMesh Tips動画シリーズ 2015

「これ、もっと簡単にできるのでは?」「これは何に使う機能?」などと思っていた小さな疑問を解決する、HyperMeshをもう少し楽に使いこなすコツやヒントを集めました。

SimLab新機能紹介-HyperWorks13.0アップデートウェビナー

SimLab13.2では、マルチコアメッシングへの対応によりメッシングの更なる高速化を可能にするほか、部品間の干渉を有する大規模アセンブリモデルに対するメッシュアセンブリ機能、テトラ要素に対する自動クリーンアップの強化、Wrapper Meshへのローカルメッシュコントロールの適用など、数多くの機能追加および強化が行われています。

OptiStruct/HyperStudy新機能紹介-HyperWorks13.0アップデートウェビナー

OptiStruct更新版では数多くの新機能追加や機能強化を図っておりますが、本ウェビナーでは特に以下の項目についてご紹介します。
■接触、結合機能の強化  ■ラティス(格子)最適化
また、HyperStudyに新たに搭載された幾つかの機能強化についてもあわせてご紹介します。

本ウェビナーで紹介する追加機能を使用するには、13.0.210以上のパッチが当たっている必要があります。13.0.210はこちらからダウンロードできます。http://www.altairhyperworks.jp/HWProductDownload.aspx
なお、バグフィックス版である現在の最新バージョン13.0.211はこちらからダウンロードできます。http://www.altairhyperworks.jp/ClientCenterHWUpdateDownload.aspx?pro_cat=HyperWorks

HyperMesh/HyperView新機能紹介-HyperWorks13.0アップデートウェビナー

HyperWorks13.0のアップデートバージョン13.0.110では、モデリング&ビジュアライゼーションソフトウェアHyperMesh、HyperView、HyperGraphに様々な機能強化が実施されました。各製品の代表的な強化点は以下のとおりです;

-HyperMesh: CADインターフェースの追加やメッシング精度と性能の向上
-HyperView: 特に日本のお客様からのご要望が多いコンポーネント間の平均化処理オプションを追加
-HyperGraph: マニピュレーターを使ったカーブのオフセットにより、使い勝手を向上

ウェビナーでは、上述の機能およびその他の新機能、機能強化の概要、技術情報について、デモを交えてご紹介します。

NASA Develops Wireless Sensors to Detect Lightning Strike Damage to Composite Aircraft

Computational electromagnetic software enables a team of researchers at NASA’s Langley Research Center to develop wireless resonant sensors that can measure and mitigate lightning strike damage to composite aircraft.

By Beverly A. Beckert
Concept To Reality Winter/ Spring 2015
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NASA开发出用于检测复合材料飞机所受雷击损害的无线传感器

NASA兰利研究中心的一个研究小组借助计算电磁学软件开发出了一款无线谐振式传感器,它可以测量并减轻雷击对复合飞机造成的损害。

By Beverly A. Beckert
Concept To Reality Winter/ Spring 2015
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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.

By Evelyn Gebhardt
Concept To Reality Winter/ Spring 2015
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仿真技术增强专业电动工具的开发

DeWalt是Stanley Black & Decker的电动工具品牌,在其开发持久耐用的高端专业电动工具时,CAE是一项核心元素。

By Evelyn Gebhardt
Concept To Reality Winter/ Spring 2015
Subscribe to C2R Magazine



Chiller Unit Keeps Joint Strike Fighter Pilots Cool

A model-based embedded development system enables AMETEK to design, simulate, create firmware for and validate a chiller unit control system.

By Beverly A. Beckert
Concept To Reality Winter/ Spring 2015
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制冷装置使联合 攻击战斗机飞行 员保持凉爽

凭借基于模型的嵌入式开发系统,AMETEK能够 对制冷装置控制系统进行设计、仿真、固件创建和 验证。

By Beverly A. Beckert
Concept To Reality Winter/ Spring 2015
Subscribe to C2R Magazine



Optimization Technology: Leveraging a Solid Foundation to Innovate Better Products

Steady improvements in the OptiStruct solver platform over 20 years have enabled users to tackle increasingly complex design challenges. Now, OptiStruct in combination with 3D printing helps to achieve more efficient structural designs.

By Uwe Schramm
Concept To Reality Winter/ Spring 2015
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优化技术:利用扎实的基础打造更卓越的产品

OptiStruct求解器平台的性能在20多年间一直稳步提升,用户借此能够应对日益复杂的设计难题。

By Uwe Schramm
Concept To Reality Winter/ Spring 2015
Subscribe to C2R Magazine



Designing Composite Components for Automotive

Watch this 45-minute webinar recording to learn the latest advancements in composites design and optimization of carbon fiber composites and mixed material structures in the automotive industry. Capabilities included in Altair HyperWorks as well as third party products available through the Altair Partner Alliance will be illustrated, showing real life examples of application.

FEKO for EMC / EMI Applications

Broadband antennas such as biconical antennas, log period antennas, loop antennas and horns are typically used in EMC test set ups.

Development Time Reduction at Stadler Rail

Dr. Alois Starlinger is talking about how Altair products made an impact in shortening development time at Stadler Rail.

[AOP]Osaka University - Novel interpretations of respiratory impedance in COPD based on computational fluid dynamics

Novel interpretations of respiratory impedance in COPD based on computational fluid dynamics - Osaka University/大阪大学 [2015.04]

Anadolu Isuzu Increases Truck Safety with HyperWorks Products

Safety Engineer Caner Kara is talking about their usage of Altair products in the design process of trucks and buses at Anadolu Isuzu.

OptiStruct Plays a Key Role in the Air Wing Design for a Multi-Disciplinary, Collaborative University Capstone Design Project

The Georgia Tech Institute of Technology (Georgia Tech) took the lead in collaborating with five Universities to develop a senior-level capstone design course that would give engineering students collaborative design experience using state-of the art computational tools. The multi-disciplinary course was completed over two semesters. Students, under the direction of University professors and industrial mentors, completed a fixed-wing aircraft design.

Powertrain NVH and Durability Analysis with HyperWorks Webinar Recording

Altair OptiStruct is used by thousands of companies worldwide to analyze and optimize structures for their strength, durability and NVH (noise, vibration and harshness) characteristics.

In this complimentary 45-minute webinar you will learn some of the most recent features introduced in OptiStruct for powertrain NVH and durability analysis, with particular emphasis on the creation of flexible bodies for engine dynamics analysis. Altair OptiStruct has recently became the first FEA solver that can directly connect to AVL EXCITE to produce a ‘body property’ input data file (.exb) without the generation of intermediate files requiring translation.

Specific case studies will be shown to demonstrate how these new capabilities lead to significant improvements in turnaround time and robustness of the engine dynamics analyses.

Altair OptiStruct Revolutionizes Lattice Structures for 3D Printing

Altair recently announced new solver capabilities for OptiStruct that extend its topology and sizing optimization technology to support the design and optimization of parts manufactured by additive manufacturing, or 3D printing.

A unique capability of 3D printing lies in its ability to manufacture hollow shapes with complex internal geometry using repetitive cells of varying density known as lattice structures. OptiStruct now extends topology and sizing optimization to assist in the efficient blending of solid-lattice structures with smooth transitional material volume. This new technology satisfies an unmet need, since no tools previously existed for lattice structure design with optimal and structurally efficient material distribution.

In this 45-minute complimentary webinar you will learn more about optimization technology for lattice structures from the voice of Altair’s optimization leaders. OptiStruct’s two-phase lattice optimization process will be explained and real models will be shown to illustrate possible applications of the technology.

Simulation Manager Brochure

Altair's Simulation Manager allows users to manage the life cycle of simulation projects through an intuitive web based portal.

Electronic Design Automation (EDA) Optimizing Compute Farm Efficiency and Software Utilization

High-performance computing (HPC) workload management software is a key element of an efficient EDA computing environment. Altair’s market-leading PBS Works products are used by EDA organizations to increase efficiency in server farms and other computing environments.

MotionSolve for Aerospace

MotionSolve – Altair delivers a multibody integrated solution to analyze and improve mechanical system performance. In the aerospace industry, MotionSolve is used to simulate dynamic systems including ground aircraft operation (taxi, takeoff, landing, braking and rejected take-off), landing gear retraction and evaluation of gear forces, flap mechanism, flight control and dynamics, door opening mechanisms, helicopter design, satellite control and packaging study of seats.

Altair Bushing Model: Enhance the Accuracy of Multibody Simulation

The Altair Bushing Model helps you fit bushing test data to empirical models and subsequently simulate multibody models with fitted bushings to produce simulation results with highly realistic behavior. High fidelity bushings let you accurately evaluate vehicle dynamics, durability, and ride and comfort characteristics for automobiles. Below are details about the workflow and components of the Altair Bushing Model.

MotionSolve for Wind Power

MotionSolve – Altair’s multi-body solution is an integrated solution to analyze and improve mechanical system performance. In the energy industry, MotionSolve is used to simulate wind turbine dynamics systems. An accurate virtual wind turbine can be constructed by considering high-fidelity components, such as aerodynamic loads, wind loads, detailed structural sub-systems and co-simulation with control systems. MotionSolve can be used to predict the loads coming on to the structure, simulate extreme events (such as emergency stop), offshore wind turbine dynamics and extract stress/strain for further durability studies.

Euro-Pro Embraces Simulation-Driven Design with Altair HyperWorks

Euro-Pro, maker of Ninja blenders and Shark vacuums, has embraced simulation-driven design to reduce physical tests and improve product performance and durability. HyperWorks solvers (OptiStruct, RADIOSS and AcuSolve) are used across the board via Altair’s HPC cloud infrastructure

Euro-Pro社のシミュレーション主導の設計手法を導入

NinjaブランドのミキサーやSharkブランドの掃除機をはじめ、米国では知らない人がいないほど有名な製品ラインをいくつも展開する家庭用電化製品メーカーEuro-Pro社は、シミュレーション主導の設計という基本方針を開発の核とするため、Altairのソルバー(OptiStruct、RADIOSS、AcuSolve)をHPCクラウドインフラ経由でアクセスできるようにしました。

Euro-Pro 利用 Altair HyperWorks 实现仿真驱动设计

Euro-Pro,Ninja搅拌机和Shark吸尘器制造商,已经实现仿真驱动设计,以降低物理测试、改进产品性能和耐久性。通过Altair HPC云架构,广泛使用了HyperWorks求解器 (OptiStruct, RADIOSS and AcuSolve)。

Optimization and Manufacturing of Carbon Fiber-Reinforced Plastic Components at Manz AG

Dr. Martin Steyer talks about OptiStruct as essential part of their Fiber Patch Preforming Process.

【作業効率化のツボ】使ってみよう、ロードステップブラウザー

荷重コレクターがたくさんありすぎて、何の条件をどこに入れたのかが分からなくなってしまう方、是非一度お試しください。*HyperMesh標準機能

PBS Works Fact Sheet

PBS Works Fact Sheet Get an overview of the PBS Works organization and products Download the PDF.

【日本語事例】マーレ社がAltairソリューションを使用してシミュレーションのレポート作成を合理化

自動車システムサプライヤーのマーレ社は、Altairソリューションを使って全ピストンプロセスのレポート作成をどのように合理化したのか?

Webinar: Software Asset Optimization: Right-Sizing Global Software Investments

In this webinar, our expert will showcase the benefits of using Altair SAO in a global organization and will provide an exclusive profile of one customer’s success with SAO.

Scania

Scania uses a simulation-driven design process including topology optimization and finite element analysis. This speeds up their design and development process and produces lighter, more efficient components.

商用車/エンジンメーカー Scania社

試作機を使った従来型の実機試験から仮想試験に移行したところ、設計とエンジニアリングの部署間でのやり直しがあまりにも多く発生してしまいました。そこでScania 社は、設計作業における設計エンジニアの責任範囲を拡大する、シミュレーション主導の設計プロセスを導入しました。これを実現した施策こそが、solidThinking Inspire による設計の初期段階でのシミュレーションと最適化です。

新進デザイナーのための3Dソフトウェア solidThinking Evolve

に統合し、デザイナーがデザインそのものに集中してアイデアを自由に広げ表現することができるデザインツール

Monash Motorsport takes advantage of optimization and additive manufacturing technologies and wins again!

Since their first Australian SAE Student Racing competition in 2000, the Monash Motorsport team has steadily improved the performance of their race car. Recently the students discovered the benefits of combining Altair‘s OptiStruct optimization technology and 3D printing. Based on an initial prototype rear hub design from the 2013 car, the team proceeded to pursue titanium front hubs and uprights to decrease the car’s unsprung mass. This was a tough challenge, since the former design was already made of lightweight aluminum. To tackle this, Monash Motorsport employed Altair’s optimization technology OptiStruct to design and optimize a titanium upright, which was then produced using additive manufacturing technology from CSIRO. As a result, the students were able to reduce the component’s weight by a further 30 percent whilst maintaining the component stiffness and reducing the development time and costs.

[日本語字幕]HyperView紹介動画

有限要素解析 CFDやMBD解析向けのあらゆる機能が揃ったポストプロセッサHyperViewとは。

[日本語字幕]OptiStruct 紹介動画

静荷重と動荷重下における線形・非線形の問題を解く最新の構造解析ソルバーOptiStructとは。

[日本語字幕]RADIOSS紹介動画

動荷重下での極度な非線形の問題に対応する優れた構造解析ソルバーRADIOSSとは。

[日本語字幕]HyperMesh紹介動画

世界最先端の高性能の有限要素プリプロセッサHyperMeshとは?

[日本語字幕]Virtual Wind Tunnel紹介動画

揚力、抗力、圧力分布、流れの剥離、空力音響など数多くの空力性能を予測するための、外部空力解析の最新のソフトウェアHyperWorks Virtual Wind Tunnelとは。

[日本語字幕]AcuSolve紹介動画

極めて高度な工業や科学の問題を ほとんど解くことができる、先進的な汎用数値流体力学ソルバーAcuSolveとは。

Computer Simulation's Role in Advancing Composite Aircraft Structures

Reprint of an article published on the December 2014 issue of Aerospace & Defense Technology magazine

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