List of ANSYS Autodyn Customers
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Since 2010, our global team of researchers has been studying ANSYS Autodyn customers around the world, aggregating massive amounts of data points that form the basis of our forecast assumptions and perhaps the rise and fall of certain vendors and their products on a quarterly basis.
Each quarter our research team identifies companies that have purchased ANSYS Autodyn for Material Simulation from public (Press Releases, Customer References, Testimonials, Case Studies and Success Stories) and proprietary sources, including the customer size, industry, location, implementation status, partner involvement, LOB Key Stakeholders and related IT decision-makers contact details.
Companies using ANSYS Autodyn for Material Simulation include: RMIT University, a Australia based Education organisation with 12000 employees and revenues of $1.16 billion, Fraunhofer Institute for High-Speed-Dynamics, Ernst-Mach-Institut, a Germany based Life Sciences organisation with 321 employees and revenues of $30.0 million, 3D-Metal Forming BV, a Netherlands based Manufacturing organisation with 200 employees and revenues of $25.0 million and many others.
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| Logo | Customer | Industry | Empl. | Revenue | Country | Vendor | Application | Category | When | SI | Insight |
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3D-Metal Forming BV | Manufacturing | 200 | $25M | Netherlands | Ansys Inc. | ANSYS Autodyn | Material Simulation | 2015 | n/a |
In 2015, 3D-Metal Forming BV deployed ANSYS Autodyn to model Equations of Motion for explosive forming processes within its engineering and process development functions. ANSYS Autodyn was adopted to drive high fidelity explicit dynamics simulation workflows that support design validation and forming process studies, linking simulation outputs to downstream engineering decisions.
The implementation centered on explicit dynamics solver configuration, material and constitutive model setup, shock loading and contact algorithm tuning, and mesh control to capture transient high strain rate behavior. Engineering teams developed and embedded custom user subroutines inside ANSYS Autodyn for automated outputting, manipulating, and inputting of files to and from ANSYS Explicit, enabling scripted data exchange and parameter sweeps across explicit solver runs.
Integration work focused on file based interoperability between ANSYS Autodyn and ANSYS Explicit, using the written subroutines to transfer state files, boundary conditions, and restart datasets, and to orchestrate multi stage forming simulations. Operational coverage included simulation engineers, R&D process engineers, and test planners who used the coupled toolchain to iterate on forming sequences and to prepare experimental verification plans.
Governance introduced controlled versioning of simulation decks and of the custom subroutines, with verification workflows for input decks and acceptance checks for exported ANSYS Explicit files. Change control practices and documented simulation procedures were applied to ensure repeatable setup and to govern which configuration sets were used for production process studies.
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Fraunhofer Institute for High-Speed-Dynamics, Ernst-Mach-Institut | Life Sciences | 321 | $30M | Germany | Ansys Inc. | ANSYS Autodyn | Material Simulation | 2011 | n/a |
In 2011, Fraunhofer Institute for High-Speed-Dynamics, Ernst-Mach-Institut implemented ANSYS Autodyn to support Equations of Motion modeling across its research and industry projects, with a focus on project acquisition, planning and management. The deployment anchored numerical simulation capability directly into the institute workflow that supports project leads, experimental testing teams and CAE engineers responsible for composite material characterization and structural response analysis.
ANSYS Autodyn was configured to handle explicit dynamics and finite element method simulations of composite structures and materials, leveraging material model libraries and explicit solver workflows typical for Equations of Motion use cases. The implementation supported FEM simulations alongside LS-Dyna based analyses, enabling comparative numerical simulation and validation planning for impact and high strain-rate events.
The ANSYS Autodyn implementation integrated with CAD design inputs produced in Autodesk-Inventor and with CAE constructions used by the institute, providing a pipeline from CAD geometry through mesh preparation to explicit simulation setups. Operational coverage included research groups focused on experimental testing and characterisation, project leads orchestrating national and international project partners, and CAE teams coordinating numerical simulations and test-program planning.
Governance and process changes centered on structured planning and coordination of experimental programs, CAE constructions and numerical simulations, with project lead responsibilities explicitly tied to scheduling and validation activities. The implementation emphasized repeatable simulation workflows for composite materials, tighter alignment between experimental characterization and model configuration, and formalized handoffs between design, test and simulation functions.
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RMIT University | Education | 12000 | $1.2B | Australia | Ansys Inc. | ANSYS Autodyn | Material Simulation | 2015 | n/a |
In 2015, RMIT University deployed ANSYS Autodyn to support high strain rate and explosive testing research within the Equations of Motion category. The implementation targeted experimental and numerical workflows for composites research, with emphasis on damage detection and quantification of carbon and glass fibre laminates, sandwich panels, and hybrid composites produced via Vacuum Bag Resin Infusion VBRI.
The ANSYS Autodyn installation focused on explicit dynamics capabilities typical of Equations of Motion applications, including high strain rate material models, contact and fragmentation handling, and transient wave propagation analysis. Configuration work emphasized composite material modeling and calibration pathways that accept inputs from ultrasonic inspection, computed tomography CT, and scanning electron microscopy SEM characterization used to quantify damage states.
Numerical modelling workflows at RMIT used ANSYS Autodyn alongside Abaqus/CAE for complementary simulation tasks, enabling a coupled approach to explosive testing and post event analysis. Operationally the solution supported materials science and mechanical engineering research laboratories, integrating simulation outputs with laboratory test specimens manufactured through VBRI and instrumented using ultrasonic, CT, and SEM methods.
Governance centered on iterative model validation and experimental correlation, with simulation analysts and lab engineers coordinating specimen preparation, nondestructive evaluation, and model updating cycles. The implementation established a reproducible simulation to test pipeline where ANSYS Autodyn served as the primary explicit dynamics solver for Equations of Motion research and materials behavior studies.
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Buyer Intent: Companies Evaluating ANSYS Autodyn
ARTW Buyer Intent uncovers actionable customer signals, identifying software buyers actively evaluating ANSYS Autodyn. Gain ongoing access to real-time prospects and uncover hidden opportunities. Companies Actively Evaluating ANSYS Autodyn for Material Simulation include:
- University of Cape Town, a South Africa based Government organization with 500 Employees
Discover Software Buyers actively Evaluating Enterprise Applications
| Logo | Company | Industry | Employees | Revenue | Country | Evaluated | ||
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FAQ - APPS RUN THE WORLD ANSYS Autodyn Coverage
ANSYS Autodyn is a Material Simulation solution from Ansys Inc..
Companies worldwide use ANSYS Autodyn, from small firms to large enterprises across 21+ industries.
Organizations such as RMIT University, Fraunhofer Institute for High-Speed-Dynamics, Ernst-Mach-Institut and 3D-Metal Forming BV are recorded users of
ANSYS Autodyn for Material Simulation.
Companies using ANSYS Autodyn are most concentrated in Education, Life Sciences and Manufacturing, with adoption spanning over 21 industries.
Companies using ANSYS Autodyn are most concentrated in Australia, Germany and Netherlands, with adoption tracked across 195 countries worldwide. This global distribution highlights the popularity of ANSYS Autodyn across Americas, EMEA, and APAC.
Companies using ANSYS Autodyn range from small businesses with 0-100 employees - 0%, to mid-sized firms with 101-1,000 employees - 66.67%, large organizations with 1,001-10,000 employees - 0%, and global enterprises with 10,000+ employees - 33.33%.
Customers of ANSYS Autodyn include firms across all revenue levels — from $0-100M, to $101M-$1B, $1B-$10B, and $10B+ global corporations.
Contact APPS RUN THE WORLD to access the full verified ANSYS Autodyn customer database with detailed Firmographics such as industry, geography, revenue, and employee breakdowns as well as key decision makers in charge of Material Simulation.