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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.

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.


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。

SimLab sT 2019 Introduction
The purpose of this self-paced course is to provide an introduction to SimLab. The course contains information on the tools available in SimLab and provides exercises to provide you with practice in using SimLab. Models can be downloaded from within the module to practice the exercises on your own.

SimLab Basic Training V14
The purpose of this self paced course is to provide an introduction to SimLab. The course contains information on the tools available in SimLab and provides exercises to provide you with practice in using SimLab. Models can be downloaded from within the module to practice the exercises on your own. The menu in the course (on the left) can be used to jump to a specific module.

Note: This course requires a Connect login to view.

Introduction to OptiStruct for Structural Optimization
The purpose of this self paced course is to cover the basics of OptiStruct Optimization. The course contains modules introducing the basic optimization types and giving an over of each. Many exercises are available in the modules that use the See It, Try It methodology. See It allows you to watch a video demonstration of the exercise covered in the section, while Try It gives you a pdf and model to try it in the software on your own.

Note: This course requires a login to Connect to view.

Introduction to 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.

Note: This course requires a login to Connect to view.

HyperWorks for Aerospace Applications v13
The HyperWorks for Aerospace self paced course covers the critical processes used in the creation of FEA models in the Aerospace industry. This course contains 12 modules covering aspects from model setup to post processing. Each module contains background information on the tools used and practical exercises with recorded demonstrations to help you get familiar with the tools and processes.

Note: This course requires a Connect login to view.

HyperWorks for Aerospace Applications v2017
The HyperWorks for Aerospace self-paced course covers the critical processes used in the creation of FEA models in the Aerospace industry. This course contains 12 modules covering aspects from model setup to post processing. Each module contains background information on the tools used and practical exercises with recorded demonstrations to help you get familiar with the tools and processes.

Note: This course requires a login to Connect to view.

Two Arm Spiral Antenna
A two-arm self-complementary archimedean spiral antenna is modelled in FEKO to determine its wideband behaviour.

HyperMesh Quickstart v2017
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. 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.

Note: This course requires a Connect login to view.

Gulplug
French startup Gulplug, located in Grenoble, France, has set out to revolutionize plug and charging technology used in today's electric and hybrid vehicles. To create new products and to drive innovation in the market, Gulplug is using Altair Flux™ and the Altair startup program. Flux helped Gulplug to model and create an innovative, clean, automatically self-plugging, magnetic based charging solution for electric vehicles.

Vibration Behaviour of External Payload on Rotorcraft
This was a 2013 European ATC presentation given by David Schmid from RUAG Schweiz AG. The RUAG developed ISSYS Pod (Integrated Self Protection System Pod) is an external countermeasure dispenser / threat sensor system designed to protect the rotorcraft from incoming surface-to-air and airto-air missiles.

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.

Inspire 2017 Introduction
In this course you will get an overview of the tools available within Inspire 2017, including the new Motion Analysis tools. We will cover all aspects from Optimization to Finite Element Analysis right through geometry tools to help redesign and simplify parts.

Note: This course requires a Connect login to view.

Inspire 2018 Introduction
In this course you will have the opportunity to learn about the Inspire 2018 interface along with tools and workflows contained within Inspire. Modules contained within the course provide detailed descriptions of the tools and workflows within Inspire. You will also have the opportunity to watch and perform hands on exercises within each module.

Note: This course requires a login to Connect to view.

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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