List of AnsysWorkbench Customers
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Since 2010, our global team of researchers has been studying AnsysWorkbench 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 AnsysWorkbench for Project Portfolio Management 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 AnsysWorkbench for Project Portfolio Management include: BNSF, a United States based Transportation organisation with 40000 employees and revenues of $25.61 billion, Shibaura Institute of Technology Japan, a Japan based Education organisation with 750 employees and revenues of $120.0 million, Dronamics, a Bulgaria based Aerospace and Defense organisation with 100 employees and revenues of $2.0 million and many others.
Contact us if you need a completed and verified list of companies using AnsysWorkbench, including the breakdown by industry (21 Verticals), Geography (Region, Country, State, City), Company Size (Revenue, Employees, Asset) and related IT Decision Makers, Key Stakeholders, business and technology executives responsible for the software purchases.
The AnsysWorkbench customer wins are being incorporated in our Enterprise Applications Buyer Insight and Technographics Customer Database which has over 100 data fields that detail company usage of software systems and their digital transformation initiatives. Apps Run The World wants to become your No. 1 technographic data source!
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| Logo | Customer | Industry | Empl. | Revenue | Country | Vendor | Application | Category | When | SI | Insight | Insight Source |
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BNSF | Transportation | 40000 | $25.6B | United States | Ansys Inc. | AnsysWorkbench | Project Portfolio Management | 2015 | n/a | In 2015, BNSF Logistics implemented AnsysWorkbench to perform finite element structural stress simulations for a covered hopper railcar design. The deployment was executed as an Engineering simulation use case to validate designs against Association of American Railroads load-case requirements and to support speed verification. AnsysWorkbench was configured to provide CAD-to-FEA integration, geometry cleanup, meshing workflows, and coupled static and dynamic structural analysis capability for railcar frames and carbody assemblies. Workflows focused on load-case scripting and batch run orchestration to evaluate stress distribution and fatigue-prone details across AAR-specified scenarios. The implementation operated within BNSF engineering and asset-design functions in North America, concentrating on covered hopper railcar engineering validation rather than fleet-wide IT systems. Results from AnsysWorkbench runs fed engineering sign-off processes and design reviews to reduce reliance on extensive physical testing. Governance integrated AAR load-case verification into engineering release gates and standard analysis protocols, with simulation files and validated models retained for audit and future change control. The use of AnsysWorkbench delivered a validated railcar structural design more quickly and cost-effectively than extensive physical testing. | |
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Dronamics | Aerospace and Defense | 100 | $2M | Bulgaria | Ansys Inc. | AnsysWorkbench | Project Portfolio Management | 2020 | n/a | In 2020, Dronamics deployed AnsysWorkbench for Engineering Simulation to integrate CFD and FEA workflows supporting UAV aerodynamic and structural design. The implementation targeted engineering and R&D functions in Europe, centered on rapid design iteration for lightweight composite structures based out of Bulgaria. The implementation used Ansys Workbench as the orchestration layer with explicit module usage of Fluent for CFD, Mechanical for structural FEA, and Composite PrepPost for composite laminate definition and postprocessing. Workflows were configured to pass geometry, mesh, and load cases between Fluent and Mechanical within AnsysWorkbench, enabling iterative coupled analysis and automated model handoffs that supported concurrent aerodynamic and structural optimization cycles. Operational scope centered on aero-structural co-design within Dronamics engineering teams, with process changes to support faster iteration cadence and engineering model governance for composite layup definitions. The case study reports that combining Workbench, Fluent, Mechanical, and Composite PrepPost reduced development and optimization time by roughly 60 percent, accelerating prototype validation and design convergence for UAV platforms. | |
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Shibaura Institute of Technology Japan | Education | 750 | $120M | Japan | Ansys Inc. | AnsysWorkbench | Project Portfolio Management | 2016 | n/a | In 2016 Shibaura Institute of Technology integrated AnsysWorkbench and Ansys Mechanical into its engineering curriculum to teach structural mechanics and to enable students to perform practical finite element analyses during class. The deployment is described in academic terms under the Apps Category and was executed as an engineering training deployment in Japan to support course-level simulation exercises. AnsysWorkbench was configured to provide workflow-oriented project setup, intuitive meshing tools, and integrated solver orchestration while Ansys Mechanical supported model definition, boundary condition assignment, and post-processing of stress and deformation results. The implementation emphasized hands-on module usage, with classroom workflows built around Workbench project templates and Mechanical simulation sessions that align with structural mechanics syllabi. Operational scope covered undergraduate and graduate engineering courses and in-class laboratory sessions across the institute in Japan, embedding AnsysWorkbench and Ansys Mechanical into lab workflows and instructor-led exercises. Integrations were focused on course and lab process alignment rather than enterprise systems, enabling students to transition from CAD geometry to mesh, solve, and review results within a single Workbench-centered session. Governance centered on faculty-led curriculum integration and lab scheduling, with instructors defining standard simulation templates and exercise guides to ensure consistent classroom throughput. The case study explicitly notes improved student learning outcomes and increased classroom throughput resulting from intuitive meshing and simulation workflows in AnsysWorkbench and Ansys Mechanical. |
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