Using Altair Software for Manufacturing
Altair offers a unique set of simulation tools to evaluate product feasibility, optimize the manufacturing process, and run virtual try-outs for many traditional, subtractive, and additive manufacturing processes. Users can validate designs early in the manufacturing process with the simplicity and affordability of the simulation software, as well as use optimization technology with specific manufacturing constraints to design better, more efficient products.
Learn more at altair.com/manufacturing-applications.
Optimization-enabled Structural and Multiphysics Analysis
Simulation-driven design powered by topology optimization was created by OptiStruct over two decades ago. Its success has changed the CAE/CAD industry as today all vendors have embraced this trend.
Altair Inspire Form - Sheet Metal Forming Feasibility
Altair Inspire Form is is a complete stamping simulation environment used by product designers and process engineers to optimize designs, simulate robust manufacturing and reduce material costs. With the fast and easy feasibility module, users can analyze parts in seconds to predict formability early in the product development cycle.
Altair Inspire Form - Virtual Stamping Tryout
Altair Inspire Form is is a complete stamping simulation environment used by product designers and process engineers to optimize designs, simulate robust manufacturing and reduce material costs. The tryout module includes a highly scalable incremental solver, helping users to iterate and simulate multi-stage forming, trimming and springback in a modern and intuitive user interface.
Driving Design from Concept to Manufacturing with Inspire
Altair Inspire has rapidly advanced from a topology optimization tool for designers to a design environment spanning industrial design, structural simulation and optimization, motion analysis and manufacturing simulation.
Altair for Manufacturing Applications
Altair offers a unique set of simulation tools to evaluate product feasibility, optimize the manufacturing process, and run virtual try-outs for many traditional, subtractive, and additive manufacturing processes.e
Training - Simulation Driven Design & Manufacturing For Sheetmetal Components Using Altair Inspire Form & Structure
Simulation Driven Design & Manufacturing For Sheetmetal Components Using Altair Inspire Form & Structure
Design for Forming Webinar
Simulation of multi-stage stamping process fully automated and highly scalable without sacrificing accuracy.
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.
Altair Inspire Form Helps Pragati Engineering Address Sheet Metal Formability and Inconsistent Thinning Issues While Reducing Physical Try-out Time by 50%
Pragati Engineering, established in 2004, is one of the leading press tool design and manufacturing companies in India. The company has a national reach and successfully carries out projects riding on the robust shoulders of qualified and dynamic engineers from their Design department and Tool Room division. The company’s competency lies in manufacture of Press Tools Fixtures and Panel Checkers for various critical sheet-metal components and assemblies. With new technologies, facilities, and experience in Press Tooling, the company is confident of seamlessly catering to any requirement in the sheet-metal forming segment.
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 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.
Altair Aerospace: Bird Strike and Other Nonlinear Transient Analyses
This webinar covers bird strike analysis on a wing, starting out with model setup, going over the impactor management and ending in the analysis of the results. Another topic to be discussed is the forming simulation of a composite rib and result mapping.
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.
Harita Seating Standardizes on Altair Suite of HyperWorks for all CAE Applications
HyperWorks used by leading Indian manufacturer of seating systems Harita, for homologation testing, regulations and crash analysis for all commercial vehicle seats, bus passenger seats and tractor & off-road seats
Application of HyperWorks to Develop Human Body Models to Assess Injury Potential for Vulnerable Populations in Vehicle Crashes
The effects of obesity on occupant responses
in frontal collisions were investigated using
the UMTRI whole-body human finite element
models. A modeling approach was developed
and applied that allowed for rapid change of a
baseline human body model into geometries
representing adults with different BMIs without
the need for re-meshing the models.
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.
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.
HBPO GmbH Achieves Flexibility and Cost Efficiency in Automotive Development By Leveraging the APA
HBPO GmbH optimizes their design process by utilizing multiple products, such Total Materia and MADYMO, alongside HyperWorks products for the development of their front end modules.
Stamping Process Integration of Composites in Crash Analysis
This was a 2013 European ATC presentation given by Cécile DEMAIN from Solvay Engineering Plastics. Thermoplastic composites (TPC) developed by Solvay Engineering plastics are composites based on polyamide 6 or 6.6 as a matrix and can be reinforced with glass fibers or carbon fibers. The two main interests vs. TPC. thermosetting composites are cycle time and recyclability. The development of TPC PA66 or short fiber hybrid structures / TPC PA66 is today's challenge.
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.
HyperWorks improves development processes at PSA Peugeot Citroën
Challenge: Define new process that includes accurate component data
Altair Solution: Use HyperForm and RADIOSS in development process
- Reduce Development Time
- Accelerate Innovation
- Improve Quality and Robustness
HyperWorks Improves Development Processes in Automotive Industry
In 2008 PWO Germany (Progress-Werk Oberkirch AG) had to develop and produce a new steel made automotive cross car beam (CCB) for the dash board of a new car. PWO received the CAD model, the design space definition and other pre-defined standards of the component from the customer and developed and produced the fitting cross beam based on this information. PWO used the HyperWorks Suite to develop the component. HyperMesh was used to transfer the CAD model into a FEA model, which was then used to run dedicated analysis and simulation tasks. To fulfill the requirements for crash and modal analysis, the company used OptiStruct to optimize the component, RADIOSS and other external solver to run the calculations and HyperView for the post processing. HyperForm was used to check the production feasibility of the individual components and for metal forming simulation tasks. It was important for PWO to have a software suite available that could cover all simulation tasks within one graphical user interface and licensing system.
HyperWorks at Wagon Automotive: Speeding Development Time While Cutting Prototype Costs
Wagon Automotive, a system and module supplier of components to major car builders,
sought ways to accelerate product development and reduce prototyping costs while maintaining high quality.
Adopting the HyperWorks suite of advanced CAE tools enabled the company to achieve both those goals.
Wagon Automotive now uses HyperWorks during the entire development cycle, from concept design to optimization.
Design of hybrid components for users, with focus on forming simulation with Altair Inspire Form
DTE Verfahrenstechnik GmbH & Co.KG
possible applications of numerical simulation to analyse the extrusion process
Demo Altair Inspire Form