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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.

Analysis of Grounding Performances of a Car Body Using FEM Shell Elements

In the automotive domain, the EMC phenomenon of the current return occurs over a wide frequency band due to the fact that the paths followed by the current are very different between the lowest frequencies (a few Hz) and medium frequencies(hundreds of kHz).

Checking Remanence Issues with New Hysteresis Model

Remanence is what is left when all current is removed, and there is still some flux density left in the iron core. This is often the case with a close path for flux density, especially in U or E shape devices. To get rid of this effect, it is sometimes useful to add a so-called remanent airgap. This paper explains what we have incorporated into Flux to model this effect due to hysteresis.

【シェルエコマラソン】ネルソンマンデラ大学 - エコカーの軽量設計

シェルエコマラソンのガソリン部門で優勝歴のあるネルソンマンデラ大学のエコカーチームNMMU Eco Carは、Altairのソフトウェアを使って車両の軽量化に成功しました。

Cogging Torque Computation and Mesh for Non-radial Electrical Motors in Flux®

All electrical motor designers know that the computation of cogging torque is a tricky task, particularly in 3D. Indeed, the amplitude of this variable is almost the same as numerical noise. In most cases, conventional mesh methodology is not sufficient and specific methodology must be used. At CEDRAT, thanks to its experience, the application team has developed methodologies to successfully compute cogging torque in most cases. This article presents a specific mesh methodology to compute cogging torque for 3D non-radial electrical motors.

Cogging Torque Computation and Meshing for Radial Electrical Motors in Flux®

All electrical motor designers know that the computation of cogging torque is a tricky task in 3D. Indeed, the amplitude of this quantity is almost the same as the numerical noise. In most cases, a classical meshing methodology is not sufficient and specific methodology must be used. At CEDRAT, the application team, thanks to its experience has developed methodologies to successfully compute cogging torque in most of cases. This article presents a specific meshing methodology to compute cogging torque for 2D and 3D radial electrical machine. It begins with some general recommendation concerning the definition of the geometry in order to facilitate the meshing operation. Then, it presents the specific meshing methodology applied to a 2D SPM motor and to a 3D IPM motor.

Comparative Study of Concentrated and Distributed Winding Using Flux®

The paper presents a comparative study of 3-phase permanent-magnet (PM) synchronous machines (PMSM) with concentrated and distributed windings. The purpose of this study is to identify the machine that gives the better electromagnetic performance (torque, efficiency, back electromotive force…). Two PMSM with concentrated and distributed windings having identical output power, stator and rotor outer diameter, airgap, axial length, are designed. Machine performance of the two machines is compared using finite element analysis (Flux 2D).

Eccentricities Faults in a Rotating Machine Analyzed with Flux®

In the present energy efficiency context of electrical machines, diagnosis of rotating machines is increasingly studied. Designers seek to include the on-line, non-invasive diagnosis and typical signatures of the rotating machines faults in the stator winding currents, torque, leakage magnetic field…etc. Among the rotating machine’s faults, 7 to 10% are located in the rotor and some of these faults are eccentricities. These faults generate electromagnetic torque oscillations: electromagnetic forces acting on the stator, particularly the stator winding, which can accelerate wear of its insulation. Friction between the stator and the rotor is not excluded; this can also have an adverse effect on the bearing. In the literature we often find three types of eccentricities: static, dynamic and mixed. Our Flux 2D/3D/Skew finite element solution can be of considerable help to predict the typical signatures of eccentricities faults and the influence of these defects on the electromagnetic and vibro-acoustic performances of these machines, a very differentiating feature of the software. The purpose of this article is to show the feasibility of the different eccentricities with Flux 2D/3D/Skew thanks to the possibilities offered by mechanical sets.

Eccentricities Faults Magnetic Signature of an Induction Machine Determined with Flux®

In the literature we can find two approaches to make diagnosis: Model approach - a specific method for automation engineers. Depending on the mechanism adopted, we can distinguish three branches in this method: monitoring by observers, by analytical redundancy and by parametric estimation. Signal approach - this approach is based on measurable signals data, such as current, torque, stray flux, noise and vibration, temperature. The principle of this method is to look for frequencies unique to the healthy or fault operation. Faults in electrical rotating machines can induce other phenomena such as noise and vibrations and possibly other faults like friction between the stator and the rotor or accelerated wear of insulations.

FE Steady State Thermal Analysis of Squirrel Cage Induction Motors with Flux®

The thermal analysis of electrical machines and the related fluid dynamic computation, tasks associated with mechanical engineering disciplines, seem to interest electrical engineers less than electromagnetic analysis. But, with increasing requirements to fully exploit new designs and materials, it has more or less become compulsory to analyze the thermal behavior of electrical machines, to the same degree as electromagnetic design.

Finite Elements Method Modeling of Contactless Energy Transfer Systems

Contactless energy transfer (CET) systems are used in many industrial sectors. These include conveyors, trolleys, storage and retrieval units, baggage handling, battery charging stations, mobile phones and medical implants. The energy transfer model is quite similar to a conventional transformer, except for the weak coupling between the primary and secondary windings and partial or non-existent ferromagnetic closing paths. Inductive coupling is commonly used in a range from a few mW to a few hundred kW.

How to Efficiently Design Power Transformers

Nowadays Power Transformers need to optimize their efficiency to make sure a minimum amount of losses are generated from the various physical phenomena. Flux Finite Element studies allow transformer designers to accurately analyze the different losses (Joule losses, iron losses, stray losses) to enhance the performance of their transformers. A few steady-state and transient tests permit determining the electrical and mechanical constraints that the power transformer will have to endure in its life. In addition, thermal studies can complete these analyses to detect and prevent hot spots on the tank or in the windings.

Induction Heating and Forced Cooling Analysis with Flux®

Principle of induction heating and forced cooling (shower): induction heating is the process of heating an electrically conducting object without contact. The flowing of the current through the coil (see Fig.1) generates an alternating magnetic field. This field induces current in the electric conductor (eddy current). The repartition of eddy current depends on the shape of the electric conductor, the frequency, and physical properties of the material used in the electric conductor. In addition to this, the high frequency used in induction heating applications gives rise to a phenomenon called skin effect: all the current is concentrated only on the boundaries.

Regulate Current with User Subroutine Using Groovy Language in Flux®

For Switched Reluctance Motor, a specific command of current is often used with a chopper in order to decrease the current ripple or hysteresis band. We propose to see in this example (see Figure 1) how to implement such a command in Flux using groovy language.

Study of Mounted Surface Permanent Magnet Synchronous Machine Using Flux® Skew

Requirements: rotating electrical machine designers want high-reliability, minimum power losses, maximum power, maximum torque and low mechanical resonance vibration and noise. To meet the needs of electrical machine designers, CEDRAT started developing tools that take Skew into account in 2003. Several improvements have been made to this tool. Skew is usually accounted for by sub-dividing the active length of the machine into several 2D slices. In the latest Skew version of Flux the post processing is directly a full 3D post-processing.

Taking Demagnetization into Account in Permanent Magnets Using Flux®

Materials can be classified according to their magnetic property into two main categories: Soft magnetic materials: which exhibit magnetic properties with the presence of external excitation. Hard magnetic materials: exhibit magnetic properties in the absence of magnetic excitation. Permanent magnets are part of this family.

Tunnel Magnetoresistance (TMR) Angle Sensor Simulation Results

The article presents the main results of magnetostatic 3D simulation using CEDRAT Flux software especially for new TMR angle sensor applications. Such magnetic sensors are deployed today in automotive electronics, as well as in many new industrial, consumer-product, medical, avionics, defence and other applications. Under Flux 3D, several effects of the influence of magnet geometry parameters and mechanical tolerances of sensor positioning were investigated, such as airgaps and tilts effects. The results include optimum solutions useful for TMR, as well as for a wide range of other angle sensor types and applications.

Using CEDRAT’s Tool to Review Thermal Solutions

Nowadays, it is more and more difficult to design electrotechnique devices without considering thermal stress. In more and more applications (electric vehicles, electric aircraft, etc.) there is a need to reduce weight and cost, increase efficiency, whilst maintaining security. One possibility is to increase current for the same device, and therefore how to draw away the heat. This is why conventional approximations need to be cross-checked with new tools. These new tools have to be quick and precise in order to run parametric and even optimisation analyses. Of course, thermal analysis is already available in the Flux suite for induction heating, induction hardening, forging, etc. Dedicated applications have been created to couple magnetic AC steady state to thermal transient analysis, for instance. What is new is easier and more effective coupling any type of magnetic application to thermal analysis. This article reviews what thermal analysis is, when the different tools were created, and looks at the latest advances in thermal analysis.





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.

FEKO Webinar: Evolution and Usage of EM Simulation in the Naval Industry

FEKO’s broad solver technology offering is well suited to the efficient and accurate simulation of electrically very large structures. In this webinar we will offer several use cases of Naval related electromagnetic simulations using FEKO. Besides more general problems like antenna placement, RCS or radiation hazard, we will also discuss special topics like ship magnetization and low frequency shielding of submarine hulls.

MotionSolve for Heavy Industry

MotionSolve for Heavy Industry. Optimize Machinery System Performance

MotionSolve for Automotive

MotionSolve for Automotive Optimize Automotive System Performance

200トンの船体ブロックを壊さず吊るには? シミュレーションでリアルに再現

多様化する船種・船型、省エネルギー化など顧客のさまざまなニーズに対応しているサノヤス造船のインタビュー記事。「1ヶ月かかっていた解析がわずか1週間で」 *本記事は2017年9月6日のマイナビニュースに掲載されました。




7月25日・26日に開催された「Altairテクノロジーカンファレンス(ATC)」で登壇した国立研究開発法人 宇宙航空研究開発機構(JAXA)の航空技術部門 構造・複合材技術研究ユニット 青木雄一郎様へのインタビューから、現在の航空機開発においてJAXAが果たす役割や挑戦をお伝えする。 *2017/08/21マイナビニュース掲載記事

OptiStruct for Nonlinear Analysis: Comprehensive, Fast and Accurate Solutions, Modern Solver Architecture

This webinar will show you some of the nonlinear capabilities available in OptiStruct with a few use cases at a high level. The use cases include but are not limited to car body durability, powertrain durability, aerospace etc.

ESAComp Complementing HyperWorks Composites Simulation

When faced with the challenges during the conceptual and preliminary design of composites structures, ESAComp is specialized industry-proven software that can make all the difference in achieving better designs faster.

Smart City - Pozuelo Del Alarcón

The citizens of Pozuelo de Alarcón in Spain wanted a cleaner and more efficient city. The goals were to protect the environment, decrease energy consumption, reduce CO2 emissions, and control expenses. The city council used Carriots platform to realize its digital transformation by: • monitoring city infrastructures • Smart irrigation in 11 parks with humidity sensors • Smart parking in 970 spaces with mobile app • Smart street lights adjusting for weather & traffic

MotionSolve for General Machinery

MotionSolve for General Machinery. Understand and Optimize System Performance

OptiStruct: Enabling Simulation Driven Innovation

Watch this on-demand webinar to get a complete overview of the comprehensive, unique and innovative functionality of OptiStruct for structural analysis and optimization. Learn why OptiStruct is quickly becoming widely adopted as the structural solver of choice.



Surrogate Models for Antenna Placement on Large Platforms

The RF Engineering group at the Institute of High Performance Computing (IHPC), develops advanced computational electromagnetics and multiphysics algorithms and tools, leveraging vast know-how in EMC for a wide range of applications. Typical challenges include electrically-large and multi-scale EM problems such as antenna placement on large platforms, and mutiphysics problems such as the electrical –thermal–mechanical analysis of composite materials. In a project that dealt with electrically large platforms, an efficient modelling tool was required to identify optimum antenna positions and minimize interference between various antennas. FEKO was used during the development process, helping to determine the design parameters of the surrogate models using its powerful optimization function.

Tutorial: HW & Anaglyph Laminate Tools Integration

This document provides step-by-step instructions on how to use Anaglyph Laminate Tools within HyperWorks.


モデリング、解析、最適化、可視化、レポート作成、共同作業による知識管理という、シミュレーション プロセスのあらゆる場面に対応するHyperWorks製品すべてを網羅した総合カタログです。 -2017.9.5

solidThinking Inspire日本語データシート

solidThinking Inspire®は、設計エンジニアや製品デザイナーが構造特性に優れたデザインを作成、検証するためのソフトウェアです。

solidThinking Evolve日本語データシート

solidThinking Evolve®を使用することで、初期スケッチを形にし、さまざまなデザイン案を検討し、リアルタイムで生成されるリアルなレンダリングにより製品のイメージを確認することができます。

solidThinking Activateデータシート

solidThinking Activateは、製品クリエーターやシステムシミュレーション技術者、制御システムエンジニアなどが複合領域のシステムに対してモデル化・シミュレーション・最適化を実行するためのシミュレーションおよびモデルベース開発ソリューションです。

製造業界の救世主あらわる! 中小企業と大企業のエンジニアリング格差を埋める

2017年7月25・26日に開催された2017 Japan Altair テクノロジーカンファレンス(ATC)で、数々の大手企業や有名企業が登壇する中、参加者が熱心に聞き入った非営利組織、デジタル設計モデルを活用し、設計品質向上や試作コスト削減などを図るデジタルプロトタイピングの取り組みを中小製造業に普及させる、デジプロ研の代表、太田明氏へのインタビュー。*本記事は2017年9月4日のマイナビニュースに掲載されました。

Success Story: IVECO Australia

HyperWorks and the Altair Partner Alliance Streamline Testing of Truck Components at IVECO Australia

Speeding up Altair OptiStruct* Simulations with the Intel® SSD Data Center Family for PCIe*

Altair OptiStruct* provides engineers and designers with a unified solution from concept to final design by leveraging advanced analysis capabilities and novel, optimization-driven simulation. In this process, the simulation time for one optimization iteration is a critical consideration, since it affects the computational speed and scalability of the entire design process.

Holistic System Performance Improvement

Raising efficiency by changing design paradigms for electric machines. This presentation was made at the CWIEME 2017 exhibition in Berlin, Germany, during June 2017

More Efficient and Economic Injection Mold Tools thanks to Topology Optimization, CFD Simulation and 3D Printing

Toolmaking is usually characterized by cost-intensive, custom made, single-unit production. To create innovative tools, the industry increasingly relies on new manufacturing methods such as 3D printing. To meet market demand, PROTIQ GmbH, a spinoff from Phoenix Contact needed to increase productivity through more efficient injection mold tools. The Altair solution included development of optimized tools using simulation, optimization and additive manufacturing (model setup with HyperMesh, topology optimization and FE analysis with OptiStruct, CFD analysis with AcuSolve and refinement with solidThinking Evolve. The benefits included increased productivity due to shorter production cycles, weight reduction of 75%, shortened development time and production costs reduced by 25%.

Efficient Injection Molding Tools through Optimization, CFD Simulation and 3D Printing

The company PROTIQ (www.protiq.com) worked with Altair and created a highly efficient molding tool. Optimization with OptiStruct was used to find the optimal design to guarantee the maximum tolerances of the generated products. The cooling process of the product was simulated with CFD (AcuSolve). As an overall result, the cycle time could be significantly decreased and the part quality also improved due to lower thermal deformations.

Converge 2016: Rafa Corell “We have the Tools, but let’s not lose sight of the knowledge”

Rafa Corell, CEO at Indigraf presents at solidThinking Converge 2016

Converge 2016: Franck Mouriax “Space 4.0 or the Next Paradigm for the Space Industry”

Franck Mouriax, General Manager of Structures at RUAG Space presents at solidThinking Converge 2016

Converge 2016: David Suriol “Master Class 3 – Using a Crowdfunding Tool for a Start-up”

David Suriol, Co-Founder of Vortex Bladeless presents at solidThinking Converge 2016

Converge 2016: Daniel Schneider “Designing APWorks’ Light Rider – How the First 3D-Printed Motorcycle Came to Life”

Daniel Schneider, Technical Sales Manager at Airbus APWorks presents at solidThinking Converge 2016

Converge 2016: Irmgard Lochner - "Biomimetically Inspired Topology Optimization"

Irmgard Lochner, Professor and Consultant at University of Applied Sciences of Biberach presents at solidThinking Converge 2016

Converge 2016 Keynote: Neb Erakovic “Modern Architecture – Design Process, Tools and Technology”

Neb Erakovic, Director Structural Design at CH2Mmace presents keynote at solidThinking Converge 2016

Converge 2016: Juan Manuel Romero Cortes “Optimization of Railway Bolster Bracket for Antiroll Bar”

Juan Manuel Romero Cortes, Calculation Lead Engineer at Alstom Transport Spain presents at solidThinking Converge 2016.

Converge 2016: Il Hoon Roh “Functional Architectural Sculpture”

Il Hoon Roh, Artist/Architect presents at solidThinking Converge 2016

Compose 2017: A Multi-Language Math Environment

Compose 2017 is a high level, interactive programming environment which enables engineers, scientists & product creators to efficiently perform numerical computations, develop algorithms, analyze & visualize various types of data. Compose 2017 supports multiple languages such as Tcl or Python and offers OML (Open Matrix Language) a matrix-based numerical computing language for all types of math from solving matrix analysis, differential equations to performing signal analysis and control design.



MIT, Pune

A team of students at MIT, Pune utilized Inspire to optimize and create two new 3D printed, lightweight drone designs.

Partner Spotlight: FluiDyna

Milos Stanic, Ph.D., Product Manager of nanoFluidX, discusses particle-based fluid dynamics simulation software, nanoFluidX, available through the Altair Partner Alliance.

System Modeling and Optimization of Multi-Disciplinary Systems in Activate 2017

Activate 2017 enables product creators, system simulation and control engineers to model, simulate and optimize multi-disciplinary systems to ensure that all design requirements are successfully met while also identifying system level problems early in the design process. By attending this webinar, you will learn about hybrid dynamical systems (systems containing continuous-time and discrete-time dynamics) and how they can be modeled rigorously in Activate 2017.

Less Interior Squeak and Rattle Noise Using a Simulation Driven Design Approach

In the development of new vehicles, the PSA Group aimed to detect Squeak and Rattle (S&R) problems before availability of physical testing. This led to a collaboration between PSA’s method development engineering team and Altair’s domain experts.

Model-Based Development with Altair

Today, most products are a combination of mechanical, electrical/electronic, and controls/embedded software. In order to manage product complexity and ensure innovation, organizations turn to a model-based development approach for concept studies, control design, multi-domain system simulation and optimization. Altair recently released a unified solution (solidThinking Compose, Activate and Embed) for math and system modeling. Watch this on-demand webinar to learn more.

Explicit Dynamic Simulation of Tool Drop on the Outer Wing of the Swift020 Unmanned Aerial System using RADIOSS®

The successful launch of a new platform UAS is a comprehensive design engineering and manufacturing endeavor. The full lifecycle must consider maintenance and replacement components. As these requirements often require the use of tools (i.e. screw drivers, wrenches, pliers), the concern became apparent that as the flight surfaces are minimum gage, heavy tools dropped on the structure could cause irreparable damage. The objective of this project was to determine the specification for maximum maintenance tool weight such that, if dropped from a nominal height of 0.762 meters, would not cause permanent damage to any part of the Swift020 UAS. The Altair solution included a RADIOSS Explicit Dynamic Impact Simulation.

Présentation en ligne sur le couplage des simulations électromagnétiques & mécaniques

L'aspect acoustique est de plus en plus pris en considération dans les machines électriques industrielles (automobile, ferroviaire, ...). Dès le stade de la conception, les industriels ont besoin de prendre en considération la réduction de bruit. La suite logicielle Altair (Flux, OptiStruct et HyperStudy) peut être la solution A l'aide d'un cas d'application, découvrez comment l'utilisation combinée de Flux, d'OptiStruct et d'HyperStudy peut contribuer à la réduction de bruit.

CFD Oilsplash Simulation in Driveline CAE

A brief presentation on how GKN Driveline performs CFD Oilsplash Simulation using nanoFluidX.

Experimental and Numerical Investigation of Churning Losses in Powertrain Components

A brief presentation on how Magna is predicting and improving powertrain efficiency with nanoFluidX.

Case Study: Simulation of a Moving Soccer Field with DSHplus

The Veltins-Arena in Gelsenkirchen, Germany is known for outstanding soccer games. Keeping the field in top condition is a major concern. Check out how FLUIDON's DSHplus and solidThinking Activate were used to simulate moving the field in and out of the stadium to keep it in tip top shape.

Antenna Research Group Success Story

Les antennes discrètes sont très recherchées pour diverses applications concernant de nombreuses plateformes de véhicules utilitaires et militaires. Un dessous de véhicule peut être considéré comme étant un endroit alternatif viable pour en dissimuler tant il fournit suffisamment de place pour éviter la miniaturisation d’antennes extrêmes. Afin d’analyser cette perspective, une étude a été menée par l’ Antenna Research Group (ARG) à l’aide d’Altair FEKO .

Subros tire profit de la suite Altair HyperWorks

Nous aimerions recommander les solutions Altair HyperWorks à ceux qui ont recours à de multiples outils ou GUI pour effectuer de nombreuses analyses. Nous voudrions également recommander l'utilisation de ces outils aux universités et aux lycées pour aider les étudiants à construire une base solide pour leurs carrières.

Multi-Body Dynamics: MotionSolve for Truck and Bus

Simulation is used in nearly every industry and the Truck and Bus industries are no exception. Within this domain, application of Multi-body Dynamics is common for improving designs for vehicle dynamics, suspension behavior, packaging and many other motion related applications. Altair has recently implemented major enhancements in MotionSolve specific to this domain. This webinar provides a comprehensive overview of the solution now available from Altair.

Mando Soffttech India réalise des simulations avec une plus grande précision grâce à Altair HyperWorks

" Les solutions d'Altair nous ont aidé à réduire notre temps de développement des produits. Ces solutions s'adaptent parfaitement même aux problèmes et aux secteurs les plus complexes. Les capacités des solutions d'Altair dans le maillage Hexa et Tetra, l'optimisation de conception, l'analyse structurelle et non linéaire ainsi que dans la simulation thermique sont remarquables" Mr Prasanna Chowdary- Specialist Engineer-CAE Team

Multiscale Designer がもたらす、 誰でもマルチスケール解析ができる世界

一般にマルチスケール解析を行うには、高度な計算アルゴリズムの理解が必要ですが、Multiscale Designerは、複合材パターンとひずみ応力特性を入力するだけで平均化された物理特性を得ることができます。Multiscale Designerで取得した材料特性のパラメータを使うことで、さまざまな解析・最適化を精度良く行うことができます。<br> *伊藤忠テクノソリューションズ様主催の「CAE POWER 2017 名古屋(2017年7月11日)」にて講演

Mando Soffttech India

"Les solutions Altair nous ont permis de réduire notre temps de développement des produits. Ces solutions se sont adaptées parfaitement aux problèmes et aux challenges les plus complexes auxquels nous avons dû faire face lors de la simulation et de l'analyse de conception des produits. Les capacités des solutions Altair dans le maillage Hexa et Tetra, l'optimisation conceptuelle, l'analyse structurelle et non-linéaire ainsi que la simulation thermique sont remarquables."

Webinar OptiStruct Non Linéaire (OS NL)

A l'aide d'exemple précis, découvrez les potentialités offertes par OptiStruct, notre logiciel qui peut résoudre vos analyses non linéaires. Programme de la présentation : - Les matériaux non linéaires - Une partie sur les contacts petits glissements/petits frottements mais également grands glissements/grands frottements - La non linéarité géométrique : grande déformation et grand déplacement - La simulation de process par l’activation/désactivation d’entités (contacts, éléments) en fonction des cas de charge - L' activation/la désactivation des entités du modèle en fonction des cas de charge

Webinar composite

De la définition d’un concept à la simulation de mise en forme de drapés composites en passant par la caractérisation multi-physique, la suite logicielle Altair HyperWorks propose de nombreuses fonctionnalités permettant de mener à bien les projets de dimensionnement de pièce ou d’assemblage incorporant des matériaux composites. Découvrez les potentialités offertes par la suite HyperWorks en terme de : • techniques de modélisation élément finis et de manipulation de pièce composite • simulation numérique de pièces composite et outils de validation mécanique associés • caractérisation thermomécanique de loi de comportement de microstructures composites • optimisation de design de pièces et d’assemblages • simulation des procédés de fabrication et de ses conséquences.

HW BestPractice Webinare: Customizable Model Checker

HW BestPractice Webinare

U-Shin Ltd.

U-Shin is currently employing Click2Cast to perform testing and optimization to create sound, redesigned automotive parts.U-Shin has seen significant time and cost savings by utilizing Click2Cast.



White Paper: One Source Solution for Short-Fiber Reinforced Materials in FEA

With use of today’s technology, FE simulation of the injection molding process is state of the art. Several unique solvers are available for this purpose. However, an appropriate coupling between the injection molding simulation and the mechanical simulation is required.

solidThinking Embedデータシート

solidThinking Embed(旧VisSim Embedded)は、組み込みシステムのモデルベース開発のためのビジュアル環境です。非常に効率よくダイアグラムからコードを生成でき、開発期間の短縮と製品品質の向上を実現します。

Developing Efficient Design Procedures for Wideband, Low-profile Antennas Using Altair FEKO Electromagnetic Simulation Technology

Low profile, concealed antennas are frequently desired for diverse applications across many military and commercial vehicle platforms. A vehicle underside can be considered a viable alternative place for concealment as it provides enough space to avoid extreme antenna miniaturization. A study conducted at the Antenna Research Group (ARG) at the University of Colorado evaluated the bottom side of the vehicle as an alternative to more conventional antenna placement positions for mounting high-frequency VHF antenna systems. Altair FEKO EM field simulation methods were applied to assess antenna performance.

Characterizing the Murchison Widefield Array Beam Pattern

A precursor to the SKA, the Murchison Widefield Array (MWA) radio telescope was constructed in the Murchison Radio-astronomy Observatory in Western Australia. In order to correctly calibrate and image the data collected by the radio telescope, it is imperative that the beam pattern is known accurately. In this study, a rigorous approach was applied where the full array geometry was simulated using FEKO with a goal to characterize the beam pattern of the MWA and demonstrate that this approach was more accurate.

電気モーターの事前設計用ソフトウェア FluxMotor™

FluxMotor は、電気モーターの事前設計用ソフトウェアツールです。標準部品またはカスタマイズされた部品、巻き線、材料などからモーターを作り、選択したテストを実行して結果を比較することができます。



Case Study: Denso Subros Thermal Engineering Center

Denso Subros Thermal Engineering Center (DSEC) Develops Fatigue Analysis Workflow with Altair OptiStruct and Moldex3D and nCode DesignLife available via the Altair Partner Alliance.

Subros Leverages Altair HyperWorks® to Build Optimized Product Designs While Reducing 60% Simulation Time and 40% Prototyping Costs

Subros is the leading manufacturer of thermal products for automotive applications in India and operates in technical collaboration with Denso. Being a major supplier of AC units to the predominant automotive segments and all classes of vehicles produced by global players in the country, it is very important for Subros to honor deadlines of product delivery with agreed benchmarks of quality. The Subros team has used Altair solutions such HyperMesh for FE modeling, RADIOSS and OptiStruct for structural analysis, AcuSolve for flow analysis, and solidThinking Inspire for Modal Analysis

Mando Softtech India Achieves Greater Simulation Accuracy with Altair HyperWorks®

As Manufacturers of Automotive Components such as Chassis and Brakes, Mando Softtech India has to ensure that they maintain highest performance and quality standards of the products they develop. Implementation of Altair HyperWorks solutions has helped them considerably reduce their product development time and costs, while augmenting product quality. Their overall development time was reduced by up to 30 to 40%.

HyperWorks 2017 稼働環境 - Platform Support

HyperWorks 2017 稼働環境 (サポートするプラットフォーム、OS、プロセッサー等一覧)


自動車メカトロニクス機器製造のBitron社の、Fluxを用いた電子アクチュエーター開発 *日本語字幕


FluxMotorは 電気モーターの基本設計に特化したソフトウェアです。初めてお使いになる方向けの説明動画です。

FluxMotor 2017 Brochure

FluxMotor is a flexible open software tool dedicated to the pre-design of electric rotating machines. It enables the user to build a machine from standard or customized parts, add windings and materials to run a selection of tests and compare results. Based on modern technology, the standalone platform offers fast and accurate computations. When necessary, connection with Flux finite element software enables more advanced studies, taking into account more complex phenomenon.

機構システム検証ツール - Inspireモーション


PBS Works データシート

PBS Worksの各製品概要や主な機能を紹介します。

Solid CPV Modelling with ESAComp & ComposicaD

Solid modelling has been added to the existing analysis module for composite pressure vessels. The videos in this playlist describe the modelling approach and workflow in detail.

Developing an Injury Threshold for Human Brain Concussion

Directed by Dr. King Yang, Professor of Bioengineering, the Department’s Bioengineering Center is a leading laboratory focused on research into impact trauma, low back pain, and sports injury biomechanics. For the development of complete understanding of injury mechanisms for mild traumatic brain injury or concussions in order to prevent or mitigate injury occurrence, Altair HyperMesh helped establish a meaningful injury criterion through the use of field concussion data and finite element modeling of the head.

Flux 12.3 Whats New

Discover Flux 12.3 New version!

Topology optimization and new manufacturing methods enable lightweight design in agricultural engineering

Amazone develops and produces innovative agricultural technology, enabling and supporting modern and economical arable farming methods. For the re-design of an originally welded suspension component as a casting part, solidThinking Inspire was used for topology optimization. The benefits included increased durability by a factor of 2.5 and an 8% reduction in weight.

ICAT Achieves Robust Structural Integrity of their Automotive Components using Altair HyperWorks®

The International Centre for Automotive Technology (ICAT) is an automotive testing and R&D centre. In their pursuit to carve a niche as a one-stop solution for the automotive industry’s needs in the areas of product design, testing and validation, the ICAT team required a very advanced suite of software solutions. They needed a software suite that would save them time, money and also help in all phases of product development. The Altair software suite has greatly helped the team in providing timely and appropriate solutions to their clients.

Arkal Automotive Case Study Video

Arkal Automotive Optimizes FEA Data Creation Workflow with HyperMesh and CADdoctor.

ESAComp 4.6 Release Notes

Highlights and new features in the latest release of ESAComp 4.6 from Componeering.

Ryerson’s International Hyperloop Team

Ryerson's International Hyperloop Team utilized solidThinking Inspire and metal additive manufacturing to redesign and produce a custom motor bracket for its Hyperloop Deployable Wheel System.

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