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OptiStruct for Linear Analysis

The purpose of this self paced course is to cover the basic topics for OptiStruct Linear Analysis. The Setup sections will use the See It, Try It, Do It methodology to cover the concepts. See It allows you to watch a video demonstration of the exercise covered in the section.

HyperMesh Quickstart Version 13.0

The purpose of this self paced course is to introduce HyperMesh to new users of the software. Most sections will use the See It, Try It, Do It methodology to cover the concepts.

Inspire Introduction 2015

In this course you will get an overview of the tools available within Inspire 2015. We will cover all apsects from Optimization to Finite Element Analysis right through geometry tools to help redesign and simplify parts.

Evolve Introduction 2015

This course contains a set of modules to help familiarize you with basics of using Evolve. We will cover an overview of the Evolve interface and working environment, creation of curves, creation of surfaces, transforming and editing surfaces, creating and editing PolyNURBS, and an overview of rendering models.

Collaboration Tools Introduction

The purpose of this self paced course is to introduce the Collaboration Tools environment built within HyperWorks Desktop. Most sections will use the See It, Try It, Do It methodology to cover the concepts.

HyperView & HyperGraph入門

HyperViewとHyperGraphに装備された、ポストプロセッシングツール入門の自習コースです。多くのセクションは「見る」「試す」「使う」方式で進められます。「見る」では概要について学び、「試す」では演習を紹介します。「使う」では、HyperWorks Desktopで開くことのできるモデル等を使って自習を進められるようになっています。

Inspire入門

Inspireで最適化を実行するための自習用入門コースです。多くのセクションは「見る」「試す」「使う」方式で進められます。

航空宇宙業界向けHyperWorks Desktop入門

航空宇宙業界ユーザー向けのHyperWorks Desktop入門です。HyperMeshやHyperViewに装備された、航空宇宙業界ユーザーに適した様々なツールを使用します。航空宇宙部品に基づいたビデオで構成されています。

Advanced Midsurfacing

The purpose of this self paced course is to introduce advanced midsurfacing tools and techniques. Most sections will use the See It, Try It, Do It methodology to cover the concepts. See It allows you to watch a video demonstration of the exercise covered in the section. Try It allows you to go through an interactive video which will guide you through performing the exercise. Do It consists of a written exercise and model that can be opened in HyperMesh which allows you to perform the exercise on your own. Some sections will also contain interactive guides to provide a detailed description of the different options contained within a panel or browser.

Hexa Meshing Introduction

The purpose of this self paced course is to introduce the solid editing and hex meshing tools available in HyperMesh. Most sections will use the See It, Try It, Do It methodology to cover the concepts. See It allows you to watch a video demonstration of the exercise covered in the section. Try It allows you to go through an interactive video which will guide you through performing the exercise. Do It consists of a written exercise and model that can be opened in HyperMesh which allows you to perform the exercise on your own. Some sections will also contain interactive guides to provide a detailed description of the different options contained within a panel or browser.

HyperView and HyperGraph Introduction

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

Inspire Introduction

The purpose of this self paced course is to introduce running optimizations with the Inspire environment. Most sections will use the See It, Try It, Do It methodology to cover the concepts. See It allows you to watch a video demonstration of the exercise covered in the section. Try It allows you to go through an interactive video which will guide you through performing the exercise. Do It consists of a written exercise and model that can be opened in Inspire which allows you to perform the exercise on your own.

Introduction to HyperWorks Desktop for Aerospace Applications

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

Patran to HyperMesh Conversion Self Paced Course

The purpose of this self paced course is to help Patran users in their conversion to HyperMesh. Included in the course are examples to help users get acquainted with HyperMesh and the way that it interacts with the models. Most sections will use the See It, Try It, Do It methodology to cover the concepts. See It allows you to watch a video demonstration of the new feature. Try It allows you to go through an interactive video which will guide you through using the new feature. Do It consists of a written exercise and model that can be opened in HyperMesh which allows you to perform the exercise on your own. Some sections will also contain interactive guides to provide a detailed description of the different options contained within a panel or browser. The sections can be completed in any order, or simply complete the ones that answer your questions.

solidThinking Activate and XLDyn Integration

XLSE’s easy to use interface and project view capability is ideal for managers and teams to keep abreast of project status.

Influence of Discrete Inductance Curves on the Simulation of Round Rotor Generator Using Coupled Circuit Method

This paper presents a study on the influence of the discretisation of the inductance curves on a detailed coupled circuit model of a synchronous generator with a damper winding and search coils. The self and mutual inductances of all coupled circuit are computed in magnetostatic with a 2D finite-element method (FEM) for different rotor positions.

Gasoline engine development using LOGEengine

LOGEengine is an integrated simulation method for the prediction and optimization of engine in-cylinder performance parameters and studies of fuel effects on exhaust emissions. It contains a stochastic reactor model for 0D modelling (0d-SRM) with local effects in gas-phase space, direct fuel injection, temperature and species concentrations as random variables, detailed chemical kinetics, prediction of engine exhaust emissions (Soot, NOx, uHC), turbulence consideration via mixing modeling and self-calibration. LOGEengine can also model soot formation for diesel engines using detailed kinetic soot models, with gas phase chemistry, soot particle inception, condensation, coagulation, surface growth and oxidation. It can run equivalence ratio - Temperature (f-T ) diagnostics maps for analysis of regimes of emission formation in diesel engines using zero-dimensional methods with low CPU cost. It analyses local inhomogeneities in gas-phase space for species concentration and temperature due to mixing, fuel injection and heat transfer to cylinder walls, and their influence on soot and NOx formation from different fuels and in individual combustion cycles.

Mabe

The consumer goods industry is fast paced and highly competitive, with designs becoming increasingly complex while the timeline for production shrinks. Companies like Mabe must innovate and develop new products quickly in order to remain on the consumer radar, and conducting various analysis studies on their designs helps them to do so. This project addresses the tedious and time consuming task of modeling the foam within the product door that helps maintain the internal temperature and also absorbs shock in a drop situation. Modeling the foam effectively is complex and difficult due to the complicated nature of the doors and other cavities, so the step was often skipped, causing inefficiencies with the product.

Heart Valve Analysis

Predicting Aortic Stenosis through Simulation Aortic valve Stenosis is a heart value disorder that narrows the aortic valve opening due to calcium build up in the leaflets. This prevents the valve from opening properly and obstructs the flow of blood causing the heart to work harder. Finite Element Analysis (FEA) has the potential to allow researchers to study the condition without the need for traditional physical testing. An efficient process was required to make this possible since modeling tissue behavior, back pressure, and the interaction between tissue and blood are highly complex challenges. Altair ProductDesign led this self funded project to improve the simulation and analysis of heart condition research.

White Paper: How to Digitalize Effectively for IoT

Internet of Things (IoT) is starting to mature and organisations across many sectors are facing the challenges of scaling up from small, trial deployments and proof of concepts into mainstream, high volume consumer deployments.

Altair's Solutions for IoT: Shaping the Future of Smart Product Design

Whether you're designing cars or robots, or any mechatronic system in between, development time is tight, products are complex, and you've got multiple applications to consider.

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