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HyperMesh 14.0 Overview

See an overview of the new features available in HyperMesh for 14.0.

Modularization & Common Model

A new part-based workflow is available, which brings modularization to HyperMesh. One of its primary benefits is that it promotes flow of data from PDM to HyperMesh.

BatchMesher Workflow

New options are available for accessing the BatchMesher. One of those methods is through the Mesh Controls Browser. In this demonstration see how to use the Mesh Controls Browser and BatchMesher in HyperMesh 14.0.

Mesh Controls

A new browser-based workflow for meshing has been implemented. This workflow utilizes the new "mesh control" entity.

Aerospace Tools Overview

See an overview of the new tools available in HyperMesh 14.0 for aerospace users.

Entity Management

Redundant entity management is enabled which provides the ability to control which FE/geometry, material, and/or property attributes are read into session.

HyperView 14.0 Overview

See an overview of the new features available in HyperView and HyperGraph for 14.0.

Multi Model Results Overlay

This enhancement allows users to plot and view results for multiple overlaid models in a single window without having to switch between the models (In previous releases, result plots could only be viewed on current model).

Top/Bottom (Z1/Z2) Contour

This new method of contouring can be used to read and contour results (for example, stress or strain) on both the top and bottom layers of a shell element simulteneously in a single plot.

Video Overlay Enhancements

Significant improvements have been made to Video Overlay. A clean overlay of a Model and Video/Image can be achieved by providing the properties of the camera used to capture the image or by a multi-point alignment method.

Visibility Control Toolbar

A new toolbar called Visibility Controls has been added to HyperView for quick visibility manipulation- Isolate, Hide, Display All/None/Reserve and Unmask. This toolbar works on both component and element selections.

Slotted Waveguide Array

The slotted waveguide array is a popular choice for use in radar systems due to its mechanical robustness, compactness and ability to handle high power levels.

Using HyperWorks to Develop Human Body Models for Vehicle Crash Simulation

Wake Forest Baptist Medical Center is a leading research university in biomedical sciences and bioengineering that provides students and faculty with outstanding opportunities for personal and professional growth.

Printed Ka-band Reflectarrays with Offset Feed

Printed reflectarrays combine the advantages of parabolic reflector antennas with microstrip arrays, yielding high-gain, low-profile, low-cost antennas with simpler feeds that are easy to fabricate. This white paper demonstrates how FEKO can be used to model a printed reflectarray and its feed.

SimLab 14.0 Rollout Webinar

In this webinar the entirely new user experience of SimLab 14.0 is beeing discussed. Besides a presentation this video contains a demo of pre- and post-processing of an analysis in SimLab 14.0.

Virtual Durability Process: Bringing Together MBD, FE and Fatigue

Simulation is indispensable within any product development organization. We at Altair believe this outright and you see that in the vision statement from our CEO, to radically change the way organizations design products and make decisions. Simulation driven design is applied at different stages of development, from concept stage to the final design tuning and validation. Optimization is an integral part of it, so your starting point is an optimal design.

Solid Hex Meshing the Human Lumbar Spine

Computational modeling and simulation, which uses computer-based mathematical techniques, is on the verge of revolutionizing the field of medical devices. Modeling techniques allow computer models to eliminate bad ideas and refine the good ones long before they leave the drawing board.

Introduction to KTex Family by CEDREM

KTex Family is a set of tools dedicated to composite materials to represent them precisely at the scale of the yarns and take into account the impact of manufacturing processes on their mechanical properties.

Introduction to LW Finder by LW Engineering

LW Finder takes the guesswork out of strain gauge placement. LW Finder provides accuracy and control when using strain gauges to measure structural loads. It finds the best locations to place strain gauges and predicts measurement error.

FEKO Webinar Recording: FEKO 14.0 Automation & Scripting

FEKO 14.0 will be released with a myriad of new automation features. Extensive support for automation in CADFEKO has been added. In addition, control over custom dialogs has been improved. An introductory overview of automation will be presented, along with examples of how automation can be used to improve efficiency when working with FEKO.

Partner Spotlight: Brüel & Kjær

Alun Crewe, Vice President of Strategic Marketing at Brüel & Kjær, discusses NVH testing software, Insight+, available through the Altair Partner Alliance.

Transmission Modeling and Simulation with MapleSim

Maplesoft has developed a MapleSim library of components, transmission sub-assemblies, and complete powertrain examples that show the use of these components in driveline applications. Built with guidance from several transmission manufacturers, this MapleSim library allows you to mix the best of physical models and empirical data to maximize model fidelity, optimize your designs, and improve overall vehicle fuel-efficiency.

Maplesoft Engineering Solutions Team Helps FLSmidth Develop Revolutionary Mining Equipment

FLSmidth engaged the services of Maplesoft’s Engineering Solutions team to develop design and analysis tools that would help them design a Dual Truck Mobile Sizer (DTMS) - an innovative machine that can be relocated throughout a project, as the haul distances increase.

Maple Improves Quality of Life for People with Limited Upper-Body Mobility

Kinova’s Robotic Algorithms and Control Team faced a key challenge in the design of the controller for their robotic arm, JACO. In order to safely operate the robotic arm, they needed to design advanced algorithms involving large matrix equations to calculate the kinematics and applied forces through the arm.

Composite Plate Optimization with Practical Design Constraints

Composite free size optimization has the potential to generate weight savings and performance improvements for many applications of composite structures. Key to realizing such improvements is practical application of design and manufacturing constraints in the optimization model.

Renault Uses Maple to Develop and New All Electric Vehicle Engine

<i>*Document is written in French</i><br><br> In order to enter the expanding market of electric vehicles, Renault wanted to create a new concept of electric motor. Read how Maple helped them do so.

Altair Leveraging Disruptive Cloud Technologies

As decreasing hardware prices and attractive business models are democratizing high-performance computing (HPC) resources in the cloud, small- and medium-sized businesses (SMB) now have greater computing flexibility than ever before. 

Design Methodologies for ALM and Lattice parts

Design for additively made parts has become a very hot topic. Many engineers see the potential for topology optimization when designing ALM parts, but once they start the workflow, they tend to get bogged down in how to complete the process.

Advance Electromangnetic Simulations and their Applications in Oil & Gas Industry

Advances in computational electromagnetic tools have made electromagnetic (EM) simulations possible for various applications. Now numerical simulations can be performed to evaluate the effects of antenna design, placement, radiation hazard, EMC/EMI, etc. for wide ranging industry applications. Numerical approaches that include full wave techniques such as Method of Moments (MoM), Multilevel Fast Multipole Method (MLFMM) and asymptotic techniques such as Physical Optics (PO) and Uniform Theory of Diffraction (UTD) are being utilized to solve many challenging problems that were not possible in the past.

Advanced Design, Analysis and Optimization of Composite Structures

With stricter requirements on performance and weight, in many cases, composite materials are now becoming the natural choice of designers and engineers given their desirable characteristics such as low weight and high strength. Material properties can be tuned so they are directional – stiffer in one direction while compliant in another for example.

Multiphysics - A New Generation of Simulation

The application of CAE early in a product’s design cycle can make an important difference in its cost and functionality.  However the level of fidelity of the design early in the cycle limits the application of many traditional CAE tools.   Fortunately this is where systems modeling can be applied due to the nature of utilizing a more abstract representation of the overall system and its components. 

How Advanced Simulation will Impact the Offshore Industry both Now and in the Future

The easy days of Oil and gas extraction is over, and the ability to extract Oil and Gas from harsh enviornments is very dependent on the ability to overcome technical challenges through the use of advanced numerical analysis and simulation.

Challenges to Extending Design Verification and Optimization in Completion Tool Development

The oil and gas industry has shifted dramatically in the past year. The forecast for the industry is extremely different today compared to just a couple of years ago. To adjust, oil and gas producers are focusing on driving capital and operating efficiency to preserve their margins.

Automated Finite Element Model Creation using Structural Condition Data for Marine & Offshore Assets

Advanced structural integrity management software is capable of using a structural Computer Aided Design (CAD) geometry to track the condition of a marine or offshore asset in a virtual environment. ABS Nautical Systems Hull Manager 3D (HM3D) converts a 3D CAD model to a database that stores vessel condition information and provides the ability to track condition changes due to structural degradation.

FEA Based Design Optimization to Mitigate Anchor Cage Impact Damage Risk

The power of Finite Element Analysis (FEA) simulations can be effectively used for failure analysis and design optimization to improve product reliability and mitigate operational risks. Expandable Liner Hangers used for wellbore construction within the oil and gas industry are complex mechanical systems that require sophisticated setting tools.

Leveraging Geometric Shape Complexity, in Optimal Design for Additive Manufacturing

Additive manufacturing (AM) technology enables the possibility of realizing highly efficient, optimized structural components with configurations not achievable using conventional manufacturing methods.

Benchmark Study: Optimizing High Fidelity Crash & Safety Simulation Performance

Cray, Intel and Altair have collaborated to analyze crash and safety simulation performance that provides engineers the power, speed and accuracy needed for their design analysis.

Design Loop with CSC and CCC from Impact Design

Cross Section Creator enriches the functionalities and capabilities of Crash Cad Calculate, provides the possibility of fast and easy extraction of Cross Sections from a mesh model and consequently closes the optimization and design loop. This short tutorial explains how.

FEKO Webinar: Preview of FEKO 14.0 under HyperWorks

The release of FEKO 14.0 will be the first version of FEKO released under altair HyperWorks since the acquisition of EM Software & Systems S.A. by Altair Engineering last year. In addition to discussing some changes to this HyperWorks integration (such as licensing), the webinar will introduce new extensions to the FEKO solver and user interface.

FEKO Webinar: Choosing the Right Solver in FEKO

One of the key features in FEKO is that it includes a broad set of unique and hybridized solvers, giving the possibility to combine methods to solve complex and electrically large problems, with all solvers included in the same package. Presented by Jordi Soler, Director of Business Development, Electromagnetics, this webinar provides an overview and guide on how to choose the most appropriate method in FEKO.

Sharma & Associates

Sharma & Associates (SA), a Chicago-based consulting firm that is focused on providing engineering solutions to the railroad industry, led the effort. Since 1995, SA have delivered safe, effective and efficient solutions to its customers, which include the Federal Railroad Administration (FRA), the Association of American Railroads (AAR), railroads and transit agencies, rail car builders and rail car component manufacturers. The objective of the Altair ProductDesign team effort was to develop an ‘Engineer Protection System (EPS)’ that can protect train crew in frontal collisions (a common mode of train collision) from secondary impact injuries.

Introduction to nanoFluidX by FluiDyna

nanoFluidX is a particle-based fluid dynamics simulation tool to predict the flow in complex geometries with complex motion.

FEKO Integrated in HyperWorks 14.0

Altair’s computer-aided engineering (CAE) simulation software platform for simulation-driven innovation is Hyper- Works, which includes modeling, visualization, analysis and optimization technologies and solutions for structural, impact, electromagnetics, thermal, fluid, systems and manufacturing applications. The electromagnetics solver suite in HyperWorks is FEKO, a comprehensive electromagnetic analysis software used to solve a broad range of electromagnetic problems. It includes a set of hybridized solvers, giving the possibility to combine methods to solve complex and electrically large problems, with all solvers included in the same package.

LW Finder Flyer

Introduction to strain gauge placement software, LW Finder by LW Engineering.

Minimising Mass and Increasing Durability of a Vehicle Suspension System Using OptiStruct

Gestamp selected Altair to develop a set of custom tools within HyperWorks, eliminating the need for an initial 'trial and error' design loop while reducing mass and increasing durability of a rear twist beam suspension system. The company achieved a reduction in lead time while producing competitive low cost, low mass RTB designs.

HyperMesh and Custom Export Template Streamline CFD Analysis in Research Projects at Arizona State University

Integrative Simulations & Computational Fluids Lab researchers from SEMTE (School for Engineering of Matter Transport and Energy) at the Arizona State University (ASU) wanted to use the commercial code HyperMesh as a general preprocessor to mesh complex geometries for use with the spectral element CFD code Nek5000. The challenge was to benefit from the rich functionality of existing meshing tools such as HyperMesh while using the Nek5000 code, since this CFD code requires 3D hexahedral elements. SEMTE researchers set up a project to develop a converter tool with which a HyperMesh mesh could be exported into a format the Nek5000 code could work with. With this export template the overall process is now much more user-friendly and less error-prone. The mesh is generated in HyperMesh and the export template organizes all the data and sorts it so it can be imported in the proper formats into the Nek5000 user template.

StressCheck Solutions for the Modern Aerospace Industry

StressCheck has become the “Go-To” tool in the aerospace industry for analysis of critical components, sub-assemblies and assemblies in the areas of detailed stress analysis, fracture mechanics, composite materials and many other applications exhibiting challenging detailed linear or non-linear behavior.

Electromagnetic Design in the Electronic Industry

Technology advancement in the electronic industry is unyielding, but new trends will build on RF communications to drive new product functionality. Some examples include the Internet of Things (IoT), 5G mobile networks and automation/smart technology.

Partner Spotlight: ECS/Magna - FEMFAT

Axel Werkhausen, Manager of Sales & Support at ECS, discusses durability analysis software, FEMFAT, available through the Altair Partner Alliance.

ESAComp for composite structures design and verification in the Aerospace Industry

This webinar provides an overview on how to use ESAComp to efficiently tackle daily tasks concerning laminate design (incl. handling different environments, strength sets, probabilistic laminate analysis), design of structural elements (e.g. panels), and design verification (application of selected failure criteria and computation of reserve factors or margins of safety).

U-Shin Improves Product Design of Automotive Parts with Altair CAE Solutions

U-Shin is a global automotive part supplier, specializing in the development and production of automotive system appliances and mechatronics products as well as on the research of element technologies. Safety, reliability, adaptability, quality, eco-friendliness, are among the major concerns of the company.

Intel Solution Brief: Altair and Simulation-Driven Design

Altair and Intel offer a simple, cost-effective on-ramp to a complete simulation-driven design platform. This paper describes joint offerings including HPC and CAE in the public cloud.

Specialized Wins at Le Tour de France with Altair HyperWorks

Learn how Specialized analyzed and improved the aerodynamic performance as well as optimized the weight and structural efficiency of the new S-Works Venge frame.

How to Achieve Better Success rates in Aerospace Projects

In this webinar PTB Analytics, an advanced project planning tool will be presented along with relevant information for how it helps users achieve better project results. A specific use case from the aerospace and defense industry will be used.

SwiftComp - Get the right results, right away!

Drawing on cutting-edge university research, SwiftCompâ„¢ provides an efficient yet accurate tool for computational modeling of composite materials and structures. It can be used either independently as a tool for virtual testing of composites or as a plugin to power conventional FEA codes with high-fidelity modeling for composites.

NovaFlow&Solid CV Use Case: Heavy Machinery

NovaFlow&Solid CV (NFS), from NovaCast, is a casting process simulation system that can simulate virtually any type of casting. NFS simulates casting components used in the heavy machinery industry, regardless of if they are small or big, simple or complex.

StressCheck Use Case: Aerospace

Aerospace application example of how to apply StressCheck to compute maximum first principal stress in the area of airplane wing attachments.

Partner Spotlight: Moldex3D

Dr. Venny Yang, President at Coretech System, discusses injection molding software, Moldex3D, available through the Altair Partner Alliance.

MapleSim to VisSim

Rapid physical modeling, analysis and model deployment to VisSim.

Cabin Comfort - Analyze Airflows and Thermal Effects

It is cost prohibitive to rely on climatic wind tunnel tests in the initial vehicle HVAC system design process. Additionally, the passenger compartment airflow and thermal environment is one in a state of constant change requiring use of transient CFD simulations. In this 45-minutes complimentary session, we will give an overview of Altair’s CFD solution to simulate the airflow in the passenger compartment and include all relevant thermal effects such as convection, conduction and radiation heat transfer in the cabin. The geometry model of the vehicle interior is based on an Altair-developed generic cabin model. This geometry is used to demonstrate the model build and execution process including how to automate the model build process.

Using RADIOSS, HyperStudy and MultiMech for Improved Composite Design

The purpose of this webinar is to demonstrate how you can use the composite microstructure analysis tools of MultiMech to enhance the existing functionality of RADIOSS , specifically when dealing with the simulation of complex composite parts.

AlphaCell for Aerospace: Design, Optimize and Understand Your NVH Treatment

For optimizing the sound packages in project early stages, the Transfer Matrix Method (TMM) as implemented in AlphaCell is a reliable method.

Intel Solution Brief: Maximize Performance and Scalability with RADIOSS on Intel® Xeon®

This paper summarizes the findings of a benchmark project to evaluate the performance and scalability of RADIOSS on Intel® Xeon® Processor E7 v2 family-based platforms.

Safety Comes First – Development of a Maxi-Cosi Child Seat Using a CAE-Driven Design Process

When developing a new child seat, safety is paramount. Dorel Juvenile, market leader in child safety in cars, was confronted with the task to develop a new child seat - the Maxi-Cosi 2wayPearl. To investigate and analyze the best feasible design, considering the occurring forces during an accident, Dorel Juvenile turned to Code Product Solutions, an engineering service provider that supports their customers in the development and optimization of products, using computer-aided engineering (CAE) tools. Within the development process, Code Product Solutions engineers employed the Altair HyperWorks CAE suite utilizing RADIOSS® for crash simulation, OptiStruct® for the layout of highly loaded plastic parts that comprise the reclining system, HyperMesh® for pre-processing tasks, and HyperCrash® and HyperView® during post-processing.

Improving Rudder Shock Loading Following a Nearby Blast Event Using RADIOSS

Engineers in the Marine, Shipbuilding, and Offshore industries face many design challenges including physical space constraints, extreme weather conditions, deep water and remote locations. These constraints create an extreme environment for the engineer to develop a sound, reliable and safe operating platform.

Seat Design for Crash in the Cloud - NAFEMS World Congress 2015

The benefit of design exploration and optimization is understood and accepted by engineers but the required intensive computational resources have been a challenge for their adoption into the design process. The HyperWorks Unlimited (HWUL) appliance provides an effective solution to these challenges as it seamlessly connects all the necessary tools together in the cloud. The aim of this study is to showcase the benefits of HWUL on an optimization driven design of a complex system. For this purpose an automotive seat design for crash loadcases is selected.


FIAT chose Altair ProductDesign as a partner to perform a pilot project to investigate squeak and rattle. The project focused on studying issues on the FIAT UNO, a vehicle made exclusively for the South American market. Altair ProductDesign suggested that FIAT implement Altair’s ‘Squeak & Rattle Director’ (SNRD), a comprehensive set of services and software automations that rapidly identify and analyze design alternatives to eliminate the root causes of squeak and rattle in assemblies. With customization from the Altair ProductDesign team, the solution provides a semi-automated approach to determine relative component displacements in the time domain that can lead to undesired noise. A dedicated four day workshop facilitated a fast ramp-up of the NVH team’s knowledge of the SNRD and helped Altair to identify FIAT’s specific design process that the solution could be tailored to.

Materials and Material Management

When simulation results don’t make sense, what checks do you perform? Besides the modeling aspects of loads and boundary conditions, mesh sizes, right formulations, etc., the most often overlooked cause of problems is the wrong assignment of materials and properties in a solver input deck. In the midst of running many simulations it is so easy to modify values that users forget that what they intended for a part is not what is being analyzed. Identifying the correct material values and assigning them is such a crucial step in your analysis that any mistake can compromise the results and design decisions you make based on simulation.

Partner Spotlight: Elysium

Mr. Kentaro Fukuta, General Manager of Global Business at Elysium, discusses 3D geometry healing and translation software, CADdoctor, available through the Altair Partner Alliance.

Baker Hughes Drills 60% off Product Development Time With HyperWorks-Driven Simulation

One of the world’s leading suppliers of oilfield services, products, technology and systems, Baker Hughes operates globally with nearly 59,000 employees. The company, headquartered in Houston, Texas, recently recorded $21.4 billion in annual revenue from sales of both services and highly innovative products for the world’s oil and natural gas industry.

Fluid - Structure Interaction Analysis and Optimization of an Automotive Component

This paper discusses the behavior of a flexible flap at the rear end of a generic car model under aerodynamic loads. A strong bidirectional coupling between the flap’s deflection and the flow field exists which requires this system to be simulated in a coupled fluid-structure manner.

Tanker Truck Sloshing Simulation Using Bi-directionally Coupled CFD and Multi-Body Dynamics Solvers

In this work, the multi-disciplinary problem arising from fluid sloshing within a partially filled tanker truck undergoing lateral acceleration is investigated through the use of multiphysics coupling between a computational fluid dynamics (CFD) solver and a multi-body dynamics (MBD) solver. This application represents a challenging test case for simulation technology within the design of commercial vehicles and is intended to demonstrate a novel approach in the field of computer aided engineering.

Advanced Features for External Automotive Aerodynamics Using AcuSolve

Watch this 45-minute webinar to learn more on the use of advanced features for solving “on road” external automotive aerodynamics with Altair’s CFD solver AcuSolve. The webinar will focus on the analysis of external aerodynamics for passenger and racing vehicles while performing turning maneuvers. AcuSolve’s mesh motion capabilities, along with real time cosimulation with Altair’s multi-body dynamics solver, MotionSolve give engineers the ability to better simulate actual road conditions.

Application of HyperWorks for Collaborative/Global Computer-Aided Engineering And Design Instruction at Brigham Young University

For a recent ME 471 class, a team of five students re-engineered the chassis/suspension platform for a 1969 Chevrolet Camero. At the conclusion of the project, the team presented a comprehensive review of their re-design vehicle to a panel of PACE program representatives and partners. Key to arriving at an efficient design was the early application of Altair topology optimization to the chassis, suspension, and wheel design of the vehicle. Altair HyperMesh was applied to generate finite element models that formed the basis for the topology optimization studies. The team results showed that  The chassis mass was reduced by 34% through the application of topology optimization. The suspension control arm mass was reduced by 28%. The team was able to apply the Altair HyperWorks simulation tools in a seamless manner with the Catia-based CAD data that was generated for the vehicle re-design.

3D Printing for Innovative Mold Making Combined with Simulation Driven Design Inspiration Push the Limits for High Performance Castings

Altair, Click2Cast, HBM nCode, and voxeljet present a technology demonstration that stands out with dramatic performance improvements and the solid potential for serial manufacturing and mass production. Bringing design optimization, fatigue analysis, casting, and 3D printing together addresses the challenges of lightweight design and enables the creation of an innovative design and manufacturing process that enhances performance and efficiency.

Easily Compare Results of Different Analyses Using Moldex3D Report Wizard

Report Wizard allows users the ability to generate reports automatically without manually capturing every item from a results field. By selecting the Compare run option in project wizard, the difference between the runs (up to 4) can be clearly shown at a glance.

UK ATC 2015: How Analysis & Optimisation Help Meet the Time Consstraints in F1

Presentation by Simon Gardner, Sahara Force India

UK ATC 2015: Automated Post Processing of Multimodel Optimisation Data

Presentation by Markus Schemat, BMW Group

UK ATC 2015: Optimisation Driven Design and Additive Manufacturing Applied for ESA Sentinel-1 Antenna

Presentation by Alejandro Cervantes Herrera, Altair

UK ATC 2015: Optimised Rear Twist Beam Design

Presentation by Andrew Charlesworth, Gestamp

UK ATC 2015: A Systematic Approach to Weight Saving of Trailer Towing Systems at Jaguar Land Rover

Presentation by Andrew Blows, Jaguar Land Rover

UK ATC 2015: Enhancing Drop Testing Simulation for Luxury Smartphones

Presentation by Alexandre Michat & Paul Sharp

UK ATC 2015: Dynamic Explicit Analysis & Assessment of a Ships Steering Gear

Presentation by David Hunt, Assystem

UK ATC 2015: CFD - A Practical Tool for Large Passenger Carrying Vehicles

Presentation by Laurence Wood, Plaxton

Indian Engineering Institute CoEP Establishes CAE Optimization Center Employing Altair HyperWorks

This success story illustrates how a reputed engineering institute of national acclaim has set-up a CAE - Optimization Lab, equipped with Altair HyperWorks CAE tools, to expose their students to the latest technologies in product design, analysis, and optimization. Within the range of the CAE - Optimization Lab, CoEP has launched various courses to impart knowledge on Altair HyperWorks. This CoEP initiative bridges the gap between industry expectations and needs and the knowledge that graduating students possess. Being trained on advanced and contemporary technologies such as the HyperWorks suite has opened new opportunities for students to embark their career, has improved the national ranking of the college due to investing in a modern and robust infrastructure, and also has benefitted the industry by creating a talent pool of well-trained manpower, available to work on breakthrough engineering initiatives.

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.

See what's new in Coustyx 4.01

Learn about the latest features and enhancements available in Coustyx 4.01.

FEKO Webinar Recording: Radar Cross Section & Antenna Design

Due to the size and complexity of a Navy ship at sea, proper calculation of radar cross section and of antenna coverage has long been elusive. This webinar will show how, with hybrid numerical methods available today, this has become possible. The practical pros and cons of various methods will be introduced, after which results for a broad frequency range will be shown, up to many GHz for a realistic large Navy frigate.

Fatigue Life from Sine-on-Random Excitation

Fatigue life prediction of structures whose natural frequencies lie near the frequencies of the input loading requires the stress results from dynamic analyses. These analyses can be performed in either the time or the frequency domains depending on the nature or the loading. This presentation will outline the approaches available for fatigue life prediction using Altair OptiStruct and APA product, nCode DesignLife for both time and frequency based dynamic analyses. The strengths, weaknesses and assumptions of each approach will be presented, along with typical applications enabling the user to select the proper technique for their particular use case.

FEKO Webinar Recording: EM Design in the Electronics Industry

This webinar covers FEKO’s role in the design and optimization cycle’s typical to the electronics industry. These include early stage antenna selection, automated optimization, tolerance analysis and what-if trade-off investigations. Antenna integration, matching and performance for various conditions are also discussed.

Project Team Builder for the Aerospace and Defense Industry

Every year numerous defense projects are finished late, over budget or are outright cancelled. Project managers and systems engineers lack the tools and techniques to support collaborative decisions making. See how SandboxModel can help.

Improving Success Rates in Defense Projects using PTB

In this webinar the PTB Analytics, an advanced project planning tool will be presented along with relevant information for how it helps users achieve better project results. A specific use case from the defense industry will be used.

MADYMO Aerospace Use Case

MADYMO from TASS International delivers multibody occupant models in a finite element environment to analyze and improve seat layout and seat design with the aim to maximize passenger capacity without the need for costly testing. Each new seat layout requires demonstration to prove no head impact conditions exist or that any head impacts result in HIC values below 1000, traditionally accomplished through testing. Testing for head impact conditions for each new seat layout is costly and is often significantly reduced by using MADYMO in support of or in lieu of testing.

F.tech R&D North America

F.tech R&D North America utilizes HyperView to investigate test results, using the data to inform decisions on methods to improve designs. This data will often be used to create reports and presentations during the development process, using images and animations generated by HyperView to illustrate particular areas of a component where additional work may be required. However, exporting these assets is a highly manual process of loading in results, positioning the model and taking screenshots. To allow its engineers to concentrate efforts on exploring and interpreting the results, F.tech R&D North America wanted a way of automating this process.

Renishaw presents the first 3D printed metal bike based on solidThinking Inspire results

Renishaw's Product Marketing Engineer David Ewing is talking about the use of solidThinking Inspire for the first bike ever built with additive manufacturing and how optimization technology is essential to additive manufacturing.

Design of a Fuel Cell Race Car for the Annual Shell Eco-Marathon with Altair Products

The student team of the university of applied sciences in Munich participates in the annual Shell Eco-Marathon. The team has to develop a very light and highly efficient race car within less than a year. As there is no time for prototyping, simulation is mandatory. Altair provided the race team with the necessary software. The team secured 3rd place in the 2015 edition of the race!

Ford Research Center - Interview with Dr. Niels Pasligh

Niels Pasligh from Ford Research Center Aachen, Germany, is talking about his team's challenges and how they work with Altair products to tackle these.

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