| Login

Resource Library

Keyword
GO
Categories










Industries














92 Results
Filter by:
Product
Altair
Partner
Slide for More Clear All Apply
Solution

Product Type

  • All
  • Analysis and Optimization
  • Cloud and HPC
  • Enterprise & Analytics
  • Industrial Design
  • Modeling and Visualization
  • Product Design and Dev't

Discipline

  • 1d Systems
  • Additive Manufacturing
  • Advanced Mathematics & Analyics
  • Casting
  • CFD
  • Composites
  • Concept Design
  • Crash & Safety
  • Design
  • Durability
  • Electromagnetic
  • Enterprise Solutions
  • Ergonomics
  • HPC
  • Hydraulics & Pneumatics
  • Industrial Design
  • Injection Molding
  • Internet of Things
  • Lightweighting
  • Manufacturing
  • Materials Library
  • Model-Based Development
  • Modeling and Simulation
  • Multi-Body Dynamics
  • Multiphysics
  • NVH
  • Optimization
  • Product Design
  • Project Management
  • Rendering
  • Staffing Solutions
  • Stress
  • Thermal
  • Vehicle Dynamics
Clear All Apply
Language
  • Chinese
  • English
  • French
  • German
  • Italian
  • Japanese
  • Korean
  • View All
New Generation User Experience of HyperWorks
New Generation User Experience of HyperWorks
Michael Dambach Sr. Vice President, HyperWorks Program Management, Altair

  •  
複合領域システムの設計アプローチを用いた小型ブレーカーの開発
極めて短い期間での市場投入要求の下、小型ブレーカの自動再閉路装置の既存の標準設計を、新しい地域でのさまざまな動作条件(電圧や温度など)に適合させるという課題を抱えたSchneider Electric社の成功事例

Real-World Applications of Generative Design
Using Topology Optimization to Create Manufacturable Product Designs

Generative design is one of the hottest buzzwords in the product development world. You've seen the organic structures and promises of material reduction and cost savings, but how and when do you apply these principals to your design process, and how to you ensure that those designs can actually be manufactured?

Find out how manufacturers like American Axle are leveraging generative design to improve real-world, in-service products using both traditional and advanced manufacturing processes.

生産技術者・金型設計者向けCAEソリューション
Altairの生産技術ソリューションは、コンピューターシミュレーションの使い方を変革します。直感的な操作、高速計算、ダイレクトモデリングによる形状作成、最適化機能などにより、CAEは検証のために使うだけでなく、設計のために使えるツールになります。

Altair Inspire Cast
Inspire Castは、製造部品の改良や最適化を可能にする鋳造プロセスシミュレーションソフトウェアです。

Altair Inspire Extrude
Altair Inspire Extrude は、設計者のための金属・樹脂押出シミュレーションソフトウェアです。

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

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

Inspire Form 2019 Introduction
In this course, you will have the opportunity to learn about the Inspire Form 2019 interface along with tools and workflows contained within Inspire Form. Modules contained within the course provide detailed descriptions of the tools and workflows within Inspire Form. You will also have the opportunity to watch and perform hands-on exercises within each module.


3Dプリント向けソリューション
Altairが提供する3Dプリンティングのための最適設計環境をご紹介します

大型の航空宇宙構造開発で、シミュレーション、3Dプリンティング、鋳造の相乗効果を発揮
開発期間の短縮や柔軟な形状を作成できる積層造形と鋳造を組み合わせた開発プロセスにシミュレーションを取り入れることで、開発サイクルの削減と開発期間の短縮に成功した事例

Serapid
Serapid, the developer and manufacturer of the original Rigid Chain, designs and manufactures telescopic mechanical actuators for the horizontal and vertical movement of heavy loads. See how they use Altair SimSolid™ to aid in gravity loads of complete structure simulation.

あらゆる設計ニーズに応える Simulation-driven Design プラットフォーム solidThinking
あらゆる設計ニーズに応えるSimulation-driven DesignプラットフォームsolidThinking全体のご紹介

金属押出成形 シミュレーションソフトウェア Inspire Extrude Metal
Inspire Extrude Metalは、金属の押出成形に特化したシミュレーション環境です。

簡単セットアップ プレス成形シミュレーションソフトウェア Inspire Form
Inspire Form(旧Click2Form)は、上流工程で成形性・材料歩留り・材料コストを検討し、製品製造効率を最適化できるプレス成形シミュレーションソフトウェアです。

樹脂押出成形 シミュレーションソフトウェア Inspire Extrude Polymer
Inspire Extrude Polymerは、ポリマーの押出成形に特化したシミュレーション環境です。

Simulación de procesos de estampación y fundición con Altair Inspire™ 
Simulación de procesos de estampación y fundición con Altair Inspire™. Descubre cómo diseñar, simular y verificar al mismo tiempo con una única plataforma.

Getting Started - Inspire Cast
A course to help users get started using Inspire Cast including an interface tour and workflow training/videos.

Introducing the Next Generation Manufacturing Simulation Solutions on Altair Inspire™ Platform
Altair manufacturing simulation tools have received an extensive amount of development efforts to expand their simulation capabilities.

Altair Inspire Extrude Metal Datasheet
Altair Inspire Extrude is a simulation environment designed to help extrusion companies meet the ever increasing demands to produce complex profiles with tight tolerances, quality surface finishes, and high strength properties at reduced cost. Inspire Extrude is a virtual press where users can visualize material flow and temperature inside a die during extrusion and make necessary changes to ensure balanced flow, while identifying and eliminating product defects.

Altair Inspire Extrude Polymer Brochure
This brochure highlights the features, benefits and the steps that are involved in the polymer extrusion simulation under Altair Inspire Extrude.

Altair Inspire Cast Datasheet
Altair Inspire Cast was developed with its end users in mind. We strive to make casting simulation as easy as possible by using ‘foundryman’s language’ in our software. Every word in the interface comes from the casting process world. Not only is the software incredibly easy to use, it is also highly accurate and powerful. Get started with Inspire Cast today to further investigate and explore your casting process with just a few clicks.


Altair Inspire Form Datasheet
Altair Inspire Form enables users to better design products while reducing lead time by enabling early consideration of formability, process parameters, material utilization, and cost.


Design Lightweight and Efficient Stamping Dies with Topology Optmization
Ford Otosan in Turkey designs big stamping dies with the help of topology optimization using OptiStruct. Weight savings of 20% were possible on their first attempt to try optimization on a new stamping part.

Topology Optimization and Casting Feasibility of a Robot Arm
Oftentimes, in the design of a casting, suboptimal structural concepts are developed which at the same time are not castable, requiring multiple and time-consuming design iterations. This paper describes a process to generate both structurally efficient and also castable parts, while reducing the overall design cycle time. The optimal structure is determined by topology optimization, reducing component mass while maintaining performance requirements. This step is followed by a design smoothing operation and then by a casting simulation to check for casting defects. To demonstrate this software driven product design and process validation, solidThinking Inspire® is used to develop the concept design and Click2Cast® for casting process validation.

Designing Optimized Aluminum Castings with Fatigue Life Considerations
Andras Tanos, R&D Engineer at FemAlk ZRT, talks about how they have used Altair solutions for topology optimization of an engine part.

Optimization of Photovoltaic (PV) Mounting Structures – Savings on Material and Cost
Photovoltaic specialist Thesan, a subsidiary of global manufacturer Savio S.p.A, manufactures, and distributes mounting structures, consisting of a so-called Purlin, a Rafter, and a Pole (and Hat), designed to withstand potentially occurring loads from wind and snow, as well as dead loads. Drawing on the Savio Group’s competence in the design of steel and aluminum structures and thanks to a team of over 40 engineers, they are to satisfy every construction requirement of photovoltaic power plants at all altitude and climatic conditions, using any specific fixation requirements. For a recent project requiring optimization of a mounting structure of a medium sized PV field with a power of 5 MW, engineers used HyperWorks. The benefits included reduced material usage, reduced manufacturing and transportation costs and improved competitiveness for Thesan.

Altair Weld Certification Director Datasheet
Altair's Weld Certification Director (WCD) is a combination of a base software with customer specific additions and integrated services that allows engineers to accelerate the time taken to identify and analyze the performance of weld lines against mechanical requirements.

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Altair Embed
ブロック図モデルからコードを自動生成して一般的なコントローラーハードウェアにコードを転送できる、組み込みシステム開発用のツール

HyperForm 2017 Brochure
Altair HyperForm is an industry proven comprehensive finite-element-based sheet metal forming simulation framework. Its unique process-oriented environment captures the forming process with a suite of highly tailored and configurable analysis and simulation tools to optimize all aspects of stamped products development. HyperForm delivers a cost-effective solution to meet the demands of customers varying from individual analysts, and tool shops, and to large OEMS.

鋳造欠陥を回避する! Click2Castの設計活用事例ウェビナー
Click2Castの最大の特長は、「シンプルな5ステップによる鋳造シミュレーション」で、ポロシティなどの鋳造欠陥の予測を容易に、かつ高精度に行うことができます。本ウェビナーでは、ユーザー解析事例など、実際に役立つ情報をご紹介いたします。(2017年3月)

【日本語】APEL社が所要時間とコストを抑えながら、ダイスの押出性能を試験する
押出成形メーカーのAPEL社は、所要時間とコストを抑えながらダイスの押出性能を試験するため、Click2Extrude を利用して、製造を開始する前に押出成形をシミュレーションしました。

APEL Extrusions
APEL Extrusions employs die extrusion simulation software to test die extrusion performance. This allows APEL to greatly speed up the design process and test multiple simulations per week.

APEL社の押出成形シミュレーション
押出成形メーカーのAPEL社は、所要時間とコストを抑えながらダイスの押出性能を試験するため、Click2Extrude を利用して、製造を開始する前に押出成形をシミュレーションしました。

APWorks Choses OptiStruct for Topology Optimisation for the 3D Printed Light Rider
Despite its skeletal appearance, the Light Rider is an extremely strong yet lightweight electric motorcycle designed by Airbus subsidiary APWorks as a showcase of what’s possible when OptiStruct's topology optimisation is coupled with metallic 3D printing.


Written by Tanya Weaver from DEVELOP3D.

HyperXtrude 2015による押出成形シミュレーション
ユーザビリティを大幅に向上させることに焦点を当て、ダイス設計者、現場の生産技術の専門家およびエンジニアが、金型の設計を簡単に検証することを可能にするHyperXtrudeの紹介。(軽金属 第65巻11号)

Altair HyperWorks | Introduction to Altair's Manufacturing Solutions
Altair offers a comprehensive set of industry proven software for manufacturing simulation for a wide range of domains such as stamping, extrusion, casting, injection molding, forging, welding and additive manufacturing. View the webinar to learn more about Altair's manufacturing solutions offering.

Altair HyperWorks | Altair Solutions for Casting Simulation
Altair offers a complete solution for casting simulation benefiting different phases from early product development to final process optimization. Altair’s casting simulation suite of products include Click2Cast which is best suited for early feasibility and defect prediction and NovaFlow&Solid for advanced process validation and optimization. View the webinar to learn more about Altair's casting solutions.

HW BestPractice Webinare: Mapping von Umformergebnissen auf FE-Netze für die Struktur- und Crashsimulation


Student Passion Fueled by Altair Technology in Little America’s Cup C-Class Catamaran Racing
The C-Class Catamaran Team Rafale of Montreal’s École de Technologie Supérieure (ETS) is competing in the Little America’s Cup at Lake Geneva, up against some of the world’s best professional sailors, some of whom have a much larger budget.

[AOP]広島大学 - トポロジー最適化と3Dプリンタを用いたポーラス材料設計に関する研究
トポロジー最適化でポーラス材料の内部構造を設計し、それを積層造形技術で忠実に造形して、最適な性能を持つポーラス材料を実現するという取り組みの詳細と、実例として、金属積層造形を用いた高熱伝道材料・高剛性材料の開発、マルチマテリアル樹脂積層造形を用いた熱収縮材料の開発についての紹介 - 広島大学大学院高額研究院 機械システム・応用力学部門 準教授 竹澤晃弘 [2015.11]

ATC UK 2015: Enhancing Drop Testing Simulation for Luxury Smartphones
Presentation by Alexandre Michat & Paul Sharp


UK ATC 2015: Enhancing Drop Testing Simulation for Luxury Smartphones
Presentation by Alexandre Michat & Paul Sharp


Haier Redesigns Air Conditioners and Packaging with Altair HyperWorks to Eliminate Drop Damage
Haier Group is one of the world’s largest manufacturers of home appliances and consumer electronics. The company is the leader of its industry in China, where it is headquartered.



Haier ships its products all across the globe and in more than 100 countries, so well designed product packaging is crucial to the company’s ability to deliver products without damage to even the farthest destinations.



Download the Case study to see how Altair was able to reduce costs of physical testing and eliminate drop damage using simulated drop testing with HyperWorks.

Ensuring Extrusion Product Quality at Die Design Stage
Extrusion of metals is a commercially important mass production process and extruded part are used in a wide variety of applications in in aerospace, automotive, railway, medical, electronics, consumer products and nuclear industries. The key to successful extrusion is the die design and it affects the entire gamut of production process from feasibility to product quality. A die designer faces a complex challenge of delivering a working die and often, problem dies are returned for rework. This directly affect the cost and profitability. Hence, it is critical for a die designer to ensure that the die designed produces the desired profile within acceptable quality and in addition, die is strong enough to withstand multiple extrusion cycles.

Forming Simulation of Woven Composite Fibers and Its Influence on Crash Performance
The automotive industry, in its constant quest for weight reduction, is increasingly considering composite materials as a substitute for sheet metal components to meet future fuel consumption standards. However, composite forming processes are expensive and difficult to control because of the complexity of the material behavior with fiber and matrix layers or plies and its dependency on many parameters, such as non-linearity of tensile stiffness, effect of shear rate, temperature and friction. Hence, numerical simulation could be a viable approach to predict material behavior during composite forming. The objective of this study is to highlight capabilities of RADIOSS™ to simulate forming simulation of composite plies made from woven fibers, each ply modeled as a layer of woven fibers along two directions of anisotropy, warp and weft. For validation the well-known double dome model published in NUMISHEET’05 proceedings is used. The compared result is the shear angle after stamping that is, the final angle between warp and weft fibers, at several prescribed points on the ply. The variation of this angle has a strong impact on material characteristics which severely deteriorates when a critical value is reached. Hence, a study on crash simulations is performed, after mapping fibers angles from stamping simulation.

Meshing the Human Lumbar Spine
HyperWorks customer Jeff Harris from NuVasive has used HyperMesh to solid hybrid mesh consecutive human vertebrae and discs from a patient bone scan. The meshing, set up in Hypermesh, is simulated using Ansys for motion limits, stiffness, and disc material correlation. Once a model is correlated, disc implants are modeled and simulated with the goal of replacing degenerate discs.

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.

Accelerating Complex Simulations: An Example From Manufacturing - Radioss
Altair's software products enable a wide range of industries to conduct complex simulations crucial to engineering innovation and deliver reliable products to market. In a sector where supporting enhanced performance and new feature sets is critical, Altair is using Intel® Software Development tools to scale on Intel® Xeon® and Intel® Xeon Phi™ processors and coprocessors as quickly as possible to improve its customers' competitive advantage. Join us as Altair's Director of Engineering, Eric Lequiniou, discusses how Intel® tools help drive application innovation to provide the best possible performance.

DECKED
The huge capacity of a pickup comes at the expense of storage. The loading area is often a simple box with no ability to store smaller items safely or secure them from theft. After spotting an opportunity in the marketplace, entrepreneur, Lance Meller, started work on a well-built alternative. Lance founded DECKED with his business partner, Jake Peters, with a shared determination to create an innovative, robust and useful storage solution for both commercial users and private owners alike. The system had to be able to withstand a load of 2,000 lbs, fit it into a wide range of pickup models including those from Ford, GM, Chrysler, Toyota and Nissan and be manufactured for a compelling retail target price. DECKED selected Altair ProductDesign as it needed a partner that was able to deliver conceptual design work along with advanced engineering and prototyping services.

DECKED 成功案例
皮卡车的超大装载量要以牺牲储物空间为代价。载货区往往只是一个简单的货箱,无法安全存放较小的物品,也不具备防盗功能。因此,市场上出现了各种各样试图解决这类问题的第三方产品,产品形式通常是需要专业安装或必须经大规模改造才能正确安装的金属锁闭装置。在看准市场商机后,企业家Lance Meller开始着手开发一种更为精良的替代产品。Lance 携手商业伙伴Jake Peters 共同创办了DECKED,决心为商务用户和私家车主开发一款既坚固又实用的创新型储物解决方案。这套系统必须能够承受2,000磅的重量,同时还应足够浅,以免完全占用装货台的整个高度。此外,DECKED系统应能装入福特、通用、克莱斯勒、丰田和尼桑等各种型号的皮卡车。DECKED选择能够参与概念设计工作和提供高级工程及样机制造服务的Altair ProductDesign选为合作伙伴。

Combining topology optimization with laser additive manufacturing reveals new potential for lightweight structures
Challenge: Development of design and optimization methods to improve components made with laser additive manufacturing methods.

Altair Solution: HyperWorks, OptiStruct, Simulation Driven Design Process

Benefits: increased material efficiency, lighter and stiffer structures, less user training required, flexible and adaptable manufacturing process


拓扑优化与激光增材制造的完美结合挖掘轻量化结构的新潜力
挑战:如何利用开发设计和优化方法,从而改进采用激光增材制造方法生产的部件。

Altair解决方案:HyperWorks、OptiStruct 和仿真驱动设计流程。

优点:提高材料利用效率;使结构更轻、更坚固;所需的用户培训更少;制造流程灵活、可进行调整。



Engineering in the Cloud - A User's Perspective by Vertu
Find out how and why luxury mobile phone manufacturer Vertu has deployed Altair’s private cloud appliance. HyperWorks Unilimited (HWUL) is a fully managed pre-configured hardware/software solution that leads to greater user productivity and infinite innovation.

Stewart Dewey, FEA Specialist will explain how Vertu is applying the HWUL technology to replace time-consuming physical testing of valuable phone prototypes and much more.


Fully automated in a single process: Optimization and manufacturing of CFRP components
Use of HyperWorks and adapted threestep optimization process for Composite materials integrated in the production process

Benefits:
  • process suitable for large volume series
  • flexibility in production
  • short learning curve for users
  • light and yet stiff components


单一的过程中的全自动化:CFRP部件优化和制造
使用的HyperWorks对复合材料进行三步优化并集成于生产流程之中:

优势:
  • 使用大批量系列流程
  • 生产灵活性
  • 为使用者缩短学习曲线
  • 轻便且坚固的部件


Increasing Robustness and Reliability of a Race Car Engine with AcuSolve
This study is part of Prodrive’s implementation of AcuSolve to enhance its CFD capability after many years of outsourcing these simulations.

利用AcuSolve增强赛车引擎的稳健性与可靠性
该案例讲述了在多年的借助外部资源之后,Prodrive 实施 AcuSolve已增强CFD功能。

Accurate Simulation Modelling of Sports Impact Scenarios using HyperWorks
One of the key research activities within the institute is concerned with the development of enhanced human surrogate models for sports personal protective equipment (PPE) research. Impact surrogates are used to provide a representation of a living human which can then be impacted under injurious loading conditions such as a ball impacting the thigh to understand the response behaviour.

利用HyperWorks实现对运动撞击情景的精确仿真建模
开发用于研究运动类个人防护装备(PPE)的增强型假人模型是该学院主要的研究活动之一。撞击类假人模型可用于模拟真人,研究人员可通过对假人模型施加伤害性载荷(如用球撞击大腿)来分析人体的反应行为。

【日本語事例】HardMarque+Inspire&Evolve - 自動車 / 積層造形 - ピストン設計プロセス
「現在のピストンの設計プロセスを一から見直し、現行のものよりも軽量で、かつ同程度の強度を持つピストンを製造する。」という課題に取り組むHardMarque社は、solidThinking InspireとEvolveの両方をプロセスに取り入れ、コンセプトの生成と設計の改良を行ってから、チタンの積層造形を行った。

Failure Criteria for Stamping Analysis in Radioss
In this paper, several failure criteria are compared in their ability to predict necking point and failure propagation during a forming process. The paper has been presented at the 2014 IDDRG Conference in Paris, France.

RADIOSS 钣金成形的失效准则
在本文中,介绍了几个失效准则并对预测缩颈点和失效扩展等进行了比较。该论文在法国巴黎举行的2014 IDDRG会议上被演讲。

Improving the Design of Subsea Riser Systems: A Cray-Altair Solution for Improved Oil & Gas Component Engineering
With Cray and Altair, engineers have the computational systems they need to perform advanced subsea computational fluid dynamics (CFD) analysis with better speed, scalability, and accuracy. With Altair’s AcuSolve CFD solver running on Cray XC supercomputer systems, operators and engineers responsible for riser system design and analysis can increase component life, reduce uncertainty, and improve the overall safety of their ultra-deep-water systems while still meeting demanding development schedules.

Empire/Renishaw
Renishaw and Empire Cycles utilized generative design to conceptualize the world's first metal additive manufactured  bicycle frame. This resulted in a 33% weight reduction of the bicycle.

Empire社 / Renishaw社
Renishaw社とEmpire Cycles社は、世界初の3Dプリンティングによる金属製自転車フレームのシートポストの設計に、solidThinking Inspireのコンセプトデザイン生成機能を活用しました。

HardMarque
HardMarque coupled topology optimization with additive manufacturing to conceptualize and refine the design of a piston. The final piston design is 23.5% lighter than the original design. 

HardMarque社
HardMarque社は、solidThinking InspireとEvolveを用いて、積層造形のチタン製ピストンのコンセプトデザイン生成と生成されたデザインの仕上げ(スムージング)を行いました。

Intel Solution Brief: Maximize Performance and Scalability of Radioss on Intel® Xeon® Processor E7 v2 Family-Based Platforms
This paper summarizes the findings of a benchmark study with Radioss and Intel® Xeon® processors. In the study, Altair benchmarked Radioss using a modified crash simulation model on a single-node platform -- Radioss was able to easily take advantage of all 60 cores, running the workload 2.75X faster than on a comparable 24-core platform.

英特尔解决方案简介:最大限度地提高RADIOSS性能和可扩展性,基于英特尔至强处理器E7 V2 家庭平台
本文总结了利用RADIOSS和英特尔至强处理器基准测试的研究发现。在该研究中,Altair用RADIOSS在单个节点平台上使用修改的碰撞仿真模型——RADIOSS能够很容易利用所有60个核,运行的作业比在24核平台上快2.75倍。

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.

Gestamp、溶接変形を93%削減
自動車産業向けに最先端のシャシ構造部品やサスペンション製品、ホワイトボディ構造部品、モジュールおよびシステムを設計、開発、製造している世界レベルの企業Gestamp Tallent Ltd は、HyperStudyを活用して溶接変形を93%削減しました。

利用HyperStudy实现焊接变形率降低93%
Gestamp Tallent Ltd是世界级的汽车零部件设计商、开发商和制造商,为汽车行业提供尖端的底盘结构件与悬挂系统产品、白车身结构以及模块与系统。Gestamp Tallent利用了BMW MINI 车的前副车架支撑塔来验证焊接变形优化方法。该支撑塔结构细长,因而特别容易发生焊接变形。此优化方案的目的就是将支撑塔的变形程度降至最低,而这个变形程度则按照焊接部分冷却时塔顶的移位来测量。为了进一步研究焊接布局优化,他们选择HyperStudy。


Powertrain Mount Optimisation Webinar
Many engineers and designers in the automotive industry would like to determine a reasonable powertrain mounting system which meets a list of static and dynamic performance requirements, the design of which is limited by many factors. One of the approaches is to adopt a decoupling arrangement between powertrain rigid-body modes and to control frequencies in the main vibration directions of the powertrain so they fall within a desirable range. This is done by optimising stiffness, location and orientation of mounts.

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.

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.

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.

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

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.

Assa Ashuach利用solidThinking Inspire 优化凳子设计并实现3D打印
产业研究与产品设计咨询公司Assa Ashuach Studio是一家设计和制造生活类产品的公司,同时也是利用创新的设计和生产技术获得独特的造型和美学特征的限量版产品设计工作室。

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.

Evenflo Juvenile Products社(英語事例)
Evenflo社は、短期間で機能を向上させることが求められる“サステイニングエンジニアリング”において、Inspireを有効活用できることを見出しました。

BiggerBoat Solutions Makes Waves in Auto Industry Using HyperForm to Cut Die Development Costs and Time
When the auto industry crashed in 2008
and the tool shop where Jay Weiner worked
closed its operations, he started his own
company, called BiggerBoat Solutions Ltd.
He carries out metal-forming simulations
for major tooling suppliers and originalequipment
manufacturers. With 15 years
of experience in tooling design, Weiner and
his Toronto-based practice offered a service
that no one else had perfected but that
was crucial to a key process in automotive
manufacturing: the simulation-based die
design for stamped sheet-metal parts.

Quality Driven by CAE
Advanced CAE tools enable companies to design quality into their products.

Creating a Virtual Press to Optimize the Extrusion Process
Today's advanced computational tools increase productivity and quality, as well as lower energy consumption in the design and fabrication of extrusion dies.

创建虚拟机优化挤压流程
当今先进的计算工具增加了生产效率和质量,同时降低了挤压模具在设计和制造中的能源消耗。

Simulation Links Welding Data to Structural Analysis Models
A robust modeling process greatly aids the design of lower cost and higher quality welded structures.

Get the Most from Your Casting Process
By applying optimization technology to casting process design, manufacturers can produce less expensive, better-quality parts in record time.

HyperForm / HyperXtrude最新版紹介ウェビナー - HyperWorks14.0
HyperWorks 14.0では、生産技術系のアプリケーションも新たな進化を遂げています。本セミナーでは、HyperForm / HyperXtrude両製品の新機能を中心に紹介しています。
*2016年3月11日に開催されたウェビナー「Altair製品 最新版 ウェブ発表会 2016 HyperForm / HyperXtrude編」で使用した資料およびその録画です。

RSS icon Subscribe to RSS Feed

Be The First To Know

Subscribe