Seto, 489-0071,
Japan
Asahi Intecc Technographics
Discover the latest software purchases and digital transformation initiatives being undertaken by Asahi Intecc and its business and technology executives. Each quarter our research team identifies on-prem and cloud applications that are being used by the 9473 Asahi Intecc employees from the public (Press Releases, Customer References, Testimonials, Case Studies and Success Stories) and proprietary sources.
During our research, we have identified that Asahi Intecc has purchased the following applications: Hexagon Marc for 2D/3D Simulation in 2020 and the related IT decision-makers and key stakeholders.
Our database provides customer insight and contextual information on which enterprise applications and software systems Asahi Intecc is running and its propensity to invest more and deepen its relationship with Hexagon or identify new suppliers as part of their overall Digital and IT transformation projects to stay competitive, fend off threats from disruptive forces, or comply with internal mandates to improve overall enterprise efficiency.
We have been analyzing Asahi Intecc revenues, which have grown to $775.0 million in 2024, plus its IT budget and roadmap, cloud software purchases, aggregating massive amounts of data points that form the basis of our forecast assumptions for Asahi Intecc intention to invest in emerging technologies such as AI, Machine Learning, IoT, Blockchain, Autonomous Database or in cloud-based ERP, HCM, CRM, EPM, Procurement or Treasury applications.
PLM and Engineering
Vendor |
Previous System |
Application |
Category |
Market |
VAR/SI |
When |
Live |
Insight |
|---|---|---|---|---|---|---|---|---|
| Hexagon | Legacy | Hexagon Marc | 2D/3D Simulation | PLM and Engineering | n/a | 2020 | 2020 |
In 2020 Asahi Intecc deployed Hexagon Marc under an MSCOne investment to advance simulation capabilities in the 2D/3D Simulation category for medical device engineering in Japan. Hexagon Marc was used to develop and validate a medical delivery device designed to mark cancers for surgical removal, supporting medical R&D and device performance simulation across engineering teams.
The implementation emphasized Hexagon Marc’s nonlinear finite element analysis capabilities, enabling detailed modeling of material nonlinearity, contact mechanics, and large deformation behavior typical of delivery devices. Workstreams included model setup, material characterization, transient and quasi static analysis, and validation workflows intended to mirror bench testing, reflecting standard simulation led design and verification practices in 2D/3D Simulation.
Operationally the project ran within the medical device engineering function in Japan and used Hexagon Marc alongside MSCOne licensing and other CFD and FEA tools to provide complementary verification of device behavior. Simulation outputs from Hexagon Marc informed laboratory validation and iterative design decisions, enabling detailed nonlinear behavior modeling that complemented physical tests and other numerical tools.
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