Altair HyperWorks™

Driving More Design with Simulation

Altair HyperWorks - Design Explorer

Altair HyperWorks' Design Explorer is an end-to-end workflow for real time performance prediction and evaluation.

Use Cases

Efficient Engineering Based Modeling of?Layered?Composite Structures

This presentation is by Program Manager Rob Jopson. It’s a given that the simulation models we build are intended to capture and predict physical behavior, the data used to create them is not always representative of the manufacturing process used to build the physical part. For layered composite parts in particular, this mismatch can cause significant overhead in managing the simulation data as the model is created and evolves. To solve this problem, Altair’s ply-based modeling methodology strives to maintain a 1:1 relationship between the simulation data and the manufacturing process, independent of solver. The latest developments of this methodology will be presented as a workflow in the new Composite Browser, available in HyperWorks. The recording is about 18 minutes long and was originally presented at the 2020 ATCx Composites.

ATC Presentations

End-to-end Workflow for Modeling Layered Composites in HyperWorks

This workshop on end-to-end workflow for modeling layered composites in HyperWorks was conducted by Program Manager André M?enicke. The recording is about an hour and 37 minutes long, and and was first presented at the 2020 ATCx Composites.

ATC Presentations

Altair HyperWorks - Hotspot Finder

Results port-processing in Altair HyperWorks includes the abiility to automatically identify and tag hotspots on contoured results. Users can easily customize their search paramenters, browse through results and query individual hotspots.

Use Cases

Altair HyperWorks - Report Generation

Altair HyperWorks post-processing capabilities include automated report generation. In very few clicks users can generate comprehensive reports of their analyses and export them to either an html summary or an MS PowerPoint slide deck.

Use Cases

Altair HyperWorks - NVH Director

Altair’s Noise Vibration and Harshness Director is the most advanced full vehicle assembly building framework on the market. It enables the implementation of global NVH best practices while covering the entire NVH workflow from model setup, assembly management to postprocessing.

Use Cases

Altair Squeak and Rattle Director - Basic Screening Risk Assessment

Altair’s Squeak and Rattle Director (SnRD) enables expert and novice computer aided engineering (CAE) engineers to rapidly identify and eliminate squeak and rattle in products at an early design stage. By utilizing a novel set of tools and methods in a streamlined, semi-automated process that is fully integrated in the Altair HyperWorks? environment, SnRD simplifies otherwise complex and time-consuming tasks.

Use Cases

Molding and Structural Simulation of Injection Molded Parts

This workshop on molding and structural simulation of injection molded parts was conducted by Frank Ehrhart, EMEA Technical Specialist - Material Engineering/Multiscale Designer. The recording is a little over an hour long, and and was first presented at the 2020 ATCx Composites.

ATC Presentations

VABS: Modeling Composite Beam-like Structures with 3D FEA Fidelity

Variational asymptotic beam section (VABS) is a unique technology continuously funded by the US Army since 1988 and it has become a tool of choice in the helicopter and wind turbine industries for modeling composite rotor blades. With analysis of a finite element meshed cross section, VABS can compute the best set of beam properties for 1D beam analysis and also accurately recover 3D stress/strain distribution over the cross section. VABS has been integrated with HyperWorks and OptiStruct for Altair users to take advantage of this powerful technology for better design and analysis of composite beam-like structures.? The recording of the presentation by Dr. Wenbin Yu, CTO of AnalySwift, is almost 20 minutes long, and was originally presented at the 2020 ATCx Composites.

ATC Presentations

End-to-end Workflow for Modeling Layered Composites in HyperWorks

This workshop on end-to-end workflow for modeling layered composites in HyperWorks was conducted by Program Manager Rob Jopson. The recording is about an hour and 32 minutes long, and and was first presented at the 2020 ATCx Composites.

ATC Presentations

Material Characterization / Virtual Testing

This workshop on material characterization/ virtual testing was conducted by Jeff Wollschlager, VP of Composites Technology. The recording is about an hour and 32 minutes long, and and was first presented at the 2020 ATCx Composites.

ATC Presentations

Composites at Altair

This presentation is by Markku Palanter?, Director Composites Business Development, Altair The composites design and simulation suite by Altair is actively developed with a holistic view to cover all stages of the process from material modeling all the way to the certification of composite structures. On the material modeling side, the focus is on continuous further development of Altair’s multiscale modeling technology for continuous fiber composites and injection molded plastics, but not forgetting further application areas, such as additive manufacturing. The ply-based composite modeling in Altair HyperWorks has recently undergone a major update to achieve an improved, more efficient modeling workflow. This together with planned further developments tie the modeling even better with the manufacturing to create realistic models of composite components as built. Altair’s solver technology for implicit and explicit analyses can utilize multiscale material models to accurately describe composite material nonlinear behavior up to failure. Altair’s unique composites optimization technology is being enhanced with the repeat laminate concept that provides added efficiency and user control over lay-up design. To further complement the idea of an integrated system with all the necessary composites capabilities, the Composite Stress Toolbox has been introduced in HyperWorks to support design and certification. The recording is about 22 minutes long and was originally presented at the 2020 ATCx Composites.

ATC Presentations

Multiscale Methods: from Theory to Practice

In this presentation, Dr Jacob Fish, Professor, Columbia University, introduces some of the key concepts and approaches in multiscale modeling, highlights recent advances aimed at developing practical multiscale tools, and survey the current landscape in multiscale modeling ranging from linking atomistic-to-continuum and continuum-to-continuum scales, physics and data-driven multiscale approaches, and applications in automotive, aerospace and biomedical industries. The recording is about 41 minutes long and was originally presented at the 2020 ATCx Composites.

ATC Presentations

Improved Workflow with Integrated Composite Stress Toolbox and Certification

This presentation is by André M?nicke, Program Manager Classical composite analysis and certification methods continue to be used in a significant share of the composite design process. In particular, applying classical methods early in design, and integrating them with finite methods as soon as possible can allow faster decisions which will be rewarded when it comes time for certification. Altair’s latest developments to respond to those needs will be presented, covering the Integrated Composite Stress Toolbox and a Certification framework available in HyperWorks. The recording is about 20 minutes long and was originally presented at the 2020 ATCx Composites.

ATC Presentations

Increasing the Efficiency of Damage Modeling for Filament Wound?Pressure Vessels through Multiscale Simulation?

This presentation is by Dávid Migács, R&D Engineer at CIKONI GmbH. A key design issue for new hydrogen-based vehicle drive systems is assuring safety of the start-of-the-art polymer lined, carbon fiber overwrapped vessels working at pressures over 700 bar. Cikoni will describe how a multiscale approach gives a better estimation of burst pressures and insight into damage mechanisms for different laminate layups, at both the macroscopic and micromechanical levels, to validate simulation models for structural optimization of layups, along with life predictions. The recording is about 28 minutes long and was originally presented at the 2020 ATCx Composites.

ATC Presentations

Curing, Cracking and Distortions in Epoxy Composites. Simulating Manufacturing Processes using Finite Element Approach

This presentation is by Dr. Tomasz Garstka and Graham Barnes, LMAT Ltd. Manufacturing induced deformations and residual stresses are an unavoidable consequence of processing composites at elevated temperatures. A number of mechanisms have been identified causing residual stresses and distortions, including mismatch in the thermal expansion, cure shrinkage of the resin, consolidation and tool-part interaction. These mechanisms usually act collectively through the curing process and may lead to severe changes in the laminate characteristic. When cured and exposed to natural environment moisture swelling, as well as subsequent stress relaxation mechanisms lead to further geometrical changes. A novel cure simulation solver is demonstrated here with the application to typical aircraft components. The recording is about 10 minutes long and was originally presented at the 2020 ATCx Composites.

ATC Presentations

Machine Learning in Engineering

When applied to engineering, ML can be a powerful tool to aid in a range of applications, from faster finite-element (FE) model building to optimizing manufacturing processes and obtaining more accurate results from physics-based simulations.

Technical Papers

Two- and Three-Wheel Vehicle Simulation

Two- and three-wheeler vehicle manufacturers, whether they are existing OEMs, new EV start-ups, or suppliers serving this segment, all have the goal of shortening product development time and getting product to market faster. With Altair HyperWorks?, ride, durability, and vehicle dynamics simulations for two- and three-wheeled vehicles can now be seamlessly performed using an intuitive and easy to use GUI with built-in libraries for vehicle models, analyses, and predicting and optimizing vehicle behavior.

Technical Papers

FEKO - Intro and overview

Intro and overview

Reseller Webinar

FEKO - Sensor/antenna placement

Sensor/antenna placement

Reseller Webinar

FEKO - Radiation Emission

Radiation Emission

Reseller Webinar

FEKO - Network coverage

Network coverage

Reseller Webinar

FEKO - PCB Modeling

PCB Modeling

Reseller Webinar

FEKO - Multiphysics and Optimization

Multiphysics and Optimization

Reseller Webinar

SmartWorks

Overview

Reseller Webinar

SmartWorks - Cloud platform

Cloud platform

Reseller Webinar

SmartWorks - Edge Computing Platform

Edge Computing Platform

Reseller Webinar

SmartWorks - Structural Health Monitoring

Structural Health Monitoring

Reseller Webinar

SmartWorks - Belt drive demonstrator

Belt drive demonstrator

Reseller Webinar

SmartWorks - Brake system

Brake systems

Reseller Webinar

SIMULATION DRIVEN ANTENNA DESIGN TO MEET ENVIRONMENTAL SPECIFICATIONS

In this paper, we illustrate a simulation-driven workflow process using Altair HyperWorks Suite for antennas to meet environmental specifications during the design process so time taken for test and certification can be minimized and thus, cost savings and faster product development cycles.

White Papers

Lightweight Mining Haulers Optimized

Truck dynamics, control system, thermal, and fatigue analyses all need to be completed when designing a new truck design. Using Altair HyperWorks, Hitachi achieves a 10% weight reduction in the main frame and rigid body, while maintaining product quality.

Customer Stories

ATCx Poland 2020 - Analizy Drgań za pomoc? programów z pakietu Altair HyperWorks

Prezentacja omawiaj?ca analizy drgań z HyperWorks, przedstawiona przez dr Grzegorza Wi?niewskiego z DesArt

Presentations

Altair HyperWorks? – Design Space Management for Concept Design Topology Optimization

Design Space Management: Workflow to support the complete topology modeling (Automotive) and meshing process.

Tips & Tricks

Altair HyperWorks? – Pedestrian Impact Tool

The Pedestrian Impact tool automates the vehicle marking, impactors positioning and the export of solver decks with minimal input, therefore reducing the full process lead time.The tool conforms to the pedestrian safety regulations EuroNCAP, CNCAP, UN-R127 and GTR.

Tips & Tricks

Enhance Electronics Product Design Using Altair Multiphysics Solvers

Consumer Electronics products are getting more complex every day. This often requires more physics to be addressed during the design phase, while the development cycles are getting shorter. This webinar presents Altair’s workflow to enable simulation of structural, thermal, acoustics and fatigue properties in an integrated Multiphysics environment.

Webinars

HyperWorks 2020

In this course you will have the opportunity to learn about HyperWorks. Modules contained within the course provide detailed descriptions of the tools and workflows within HyperWorks. You will also have the opportunity to watch demonstrations and perform hands on exercises throughout the modules. A login to Altair One is required to access this course.

eLearning

HyperWorks CFD v2020

In this course you will have the opportunity to learn about HyperWorks CFD. Modules contained within the course provide detailed descriptions of the tools and workflows within HyperWorks CFD. You will also have the opportunity to watch demonstrations and perform hands on exercises throughout the modules. A login to Altair One is required to access this course.

eLearning

Using Altair Software for Structures

Altair offers industry-leading engineering analysis and optimization tools from simulation-driven design concepts to detailed virtual product validation, and simplified modeling workflows to advanced high-fidelity model building. Whether big or small, our customers trust their decision making to Altair, the pioneer of simulation-driven design.

Learn more at altair.com/structures.

Use Cases

A Nose Cone for Winning: ARUS Andalucía Racing Team Improves Impact Characteristics of Formula SAE Car

When Ana Casares Crespo, a former member of the ARUS Andalucía Racing team from University Seville in Spain, was looking for a final degree project, the team was inspired by the capabilities of Altair’s software. They came up with the idea to improve the impact properties of the vehicle nose cone laminate with the help of simulation. With more than seven students actively using Altair products to improve various aspects of the vehicle, the decision to incorporate Altair tools was an obvious choice. They wanted to make use of the knowledge they had gained from previous studies for structural design of aerodynamic packages. The team conducted static analysis and topological optimization using tools from the Altair HyperWorks? suite, which helped them create optimized, lighter components. To improve the impact properties of a Formula SAE car’s nose cone laminate, the Altair solution included structural analysis, and topology optimization verifying structural behavior of a new material. The benefits were improved impact characteristics and fracture properties, and lighter components.

Customer Stories

(Re) Introducing HyperWorks

The 2020 release of HyperWorks is the most significant release in our history.

Presentations

Altair HyperWorks - Beam Modeling Workflow

Altair HyperWorks introduces a new workflow for beam modeling, particularly suited for GFEM of large aerospace structures along with many other applications.

Use Cases

Altair HyperWorks - Automotive Crash and Safety Workflow

The new Altair HyperWorks release includes workflows leveraging the model-as-a-menu paradigm to easily setup models for automotive crash analyses, including seatbelt routing, seat and dummy positioning, as well as pedestrial impact setup.

Use Cases

Altair HyperWorks - CFD Setup Workflow

A new CFD setup workflow has been introduced in the latest release of Altair HyperWorks. Preparing any geometry for CFD analysis is now handled through a semi-automated, extremely efficient workflow.

Use Cases

Altair HyperWorks - Design Space Creation Workflow

Altair HyperWorks includes a new workflow to easily generate the design space for topology optimization and generate a smooth results interpretation with PolyNURBS. The use case demonstrated here shows a complete redesign of an engine cradle utilizing additive manufacturing.

Use Cases, Videos

Altair HyperMesh vs. Altair HyperWorks Comparision for Geometry Creation

Altair HyperWorks has been reimagined with new efficient workflows for the most common daily tasks a simulation engineer needs to address. In this short clip comparing the classic HyperMesh workflow for geometry creation with the new HyperWorks process to generate a bracket, we're completing the task in 44% less time and almost 60% less mouse clicks.

Use Cases, Videos

Altair HyperWorks - Model Build (Part Browser, Meshing, and Subsystems)

Altair HyperWorks introduces new and efficient workflows to build and manage complex assemblies. In this example, we're starting from the complete BOM of a vehicle's body-in-white, showing how to manage individual parts and subsystems to generate an high-fidelity mesh in a few clicks.

Use Cases, Videos

Altair for HPC and Cloud Applications

In the data center and in the cloud, Altair’s industry-leading HPC tools let you orchestrate, visualize, optimize, and analyze your most demanding workloads.

Brochures
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