Mesh creation/analysis for a 1,000-part, 100 million node model is possible with one push! There are over 300 users from a major manufacturer.
COPRA is a global analysis software specialized in roll forming. We offer a total solution from design and analysis to parts database management.
A plastic processing analysis software that visualizes metal deformation. It supports the optimization of forming processes such as forging, rolling, and cutting.
Created a model for the fluid analysis solver OpenFOAM using Jupiter-CFD! Reduce licensing costs by switching from commercial solvers!
Forging Analysis Simulation System AFDEX Recommended Workstation
Initial assessment of moldability based solely on the shape of the part, without considering the mold shape!
Quickly check the measurement data!
Case studies of 8 companies that have implemented 3D CAD/CAM "Fusion360"!
Generative Design / Topology Optimization / Rapid Simulation
Powerful integrated solution of CAD and simulation.
Compact PC for Mk1D analysis, ideal for fieldwork and compact lab environments.
J-OCTA enables collaboration of simulators at various scales on a common platform for research and development in materials and life sciences.
It is possible to easily visualize defects on mold surfaces using digital stoning techniques!
It brings deep understanding and transparency to the molding process from the early engineering stages.
You can proceed with the operation step by step throughout the entire process!
Since multiple areas can be defined within the mold, the expected correction can be controlled analytically.
Achieving a new level of simulation accuracy! Simulating friction and lubrication conditions.
A pricing system based on usage! The costs of software and hardware are optimized.
Software 'AutoForm-ToolDeflect' for efficient analysis and correction of elastic mold deflection.
We offer contracted analysis services for electronic devices, home appliances, and residential environments at lower prices than before.
We will consider the surface contact near the spot welding area to make it possible to reproduce the actual phenomenon!
Efficiently analyze the strength of compressors with high precision! Achieve efficient design verification through smooth operability!
Linear static analysis using beam elements and bar elements for bolt connection parts!!!
It is a CAE software that can analyze various changes due to processing, such as the material flow of metals and the stress state of molds in metal processing, including forging and plate forging.
Full of hints for solving problems such as weight reduction, strength enhancement, and cost reduction. Valuable user case presentations utilizing CAE software for structural optimization.
Transforming the design process to achieve early launch of new products!
More realistic CAE with coupled analysis of Abaqus/STAR-CCM+.
Integration of implicit and explicit methods. For elucidating a wide range of phenomena such as heat, electricity, magnetic fields, and fluids.
Eight analysis functions are combined into one package, enabling advanced coupled analysis! We meet the analysis needs of developers and designers.
Press Molding Simulation System JSTAMP/NV Recommended Workstation
AI workstation equipped with multi-GPU, usable in a 100V environment.
This is software that quickly creates CAD-quality die faces. It significantly reduces the time required to create CAD-quality die faces.
Significant improvement in mold quality and a substantial reduction in initial development time in process design have been achieved.
Software for simple definition and optimization of the hemming process.
Direct communication is possible between the engineering department and the tryout department!
Software compatible with roll hemming and table top hemming.
A project specialized in ultra-high strength hemming with thin plate thickness to achieve weight reduction.
By using simulation software, we can quickly deliver molds suitable for production to our customers.
An ideal method to replace traditional Excel-based worksheets and cumbersome manual calculations.
Addressing challenges such as the introduction of new materials like ultra-high-strength steel, improvement of press and stroke rates, and reduction of lubricant consumption.
We will conduct a simulation of press molding using line, transfer type, or progressive type.
You can analyze the impact of the actual mold temperature and its further effect on the molding results.
Introduction of software that considers phase transformation between quenching and thermal deformation after cooling.
The blank outline is optimized so that the part boundary matches the target shape and dimensions!
You can perform transport simulations and dynamic interface detection!
An innovative mold design and springback prediction correction solution that brings significant labor reduction effects. Supports full digitalization.
A CAD embedded module that easily outputs process data from AutoForm and can be imported into the CATIA environment.
A CAD embedded module that can enhance work efficiency through more efficient collaboration with internal and external departments.
You can quickly examine the blank outline derived from the CAD part shape.
Quickly evaluate and compare multiple forecast adjustment strategies to find the best strategy for your needs!
Efficient creation and predictive correction of high-quality CAD surfaces for mold making.
Report on the identification of factors for mass production of molds at the user meeting, digitalization of business processes, and case studies on the use of hemming in assembly!
It is possible to reduce the number of attempts by adding a design proposal process in the SE review.
Comparison of Manufacturing Methods for Tube Parts at BOSAL: Bending Process vs. Hydroforming
A case where the number of tryouts was reduced from 20 to 6, and the time spent on process evaluation was also shortened.
Full support for all processes from design to manufacturing! Integrated 3D CAD/CAM/CAE platform. Significant reduction in implementation costs possible.
"Reborn AutoCAD" starts offering industry-leading 2D drafting and 3D modeling at an attractive price.
Make high-graphics applications like 3D CAD available in a virtual desktop environment!!
Experienced engineers will propose appropriate analysis methods tailored to your analysis objectives. We will help you verify stress distribution and stress values, and assist with countermeasures and considerations.
Experienced engineers will propose appropriate analysis methods tailored to your analysis objectives. We will help you confirm stress distribution and stress values, and assist with countermeasures and considerations.
Experienced engineers will propose appropriate analysis methods tailored to your analysis objectives. We will help you confirm stress distribution and stress values, and assist with countermeasures and considerations.
Experienced engineers will propose appropriate analysis methods tailored to your analysis objectives. We will help you confirm stress distribution and stress values, and assist with countermeasures and considerations.
Experienced engineers will propose appropriate analysis methods tailored to your analysis objectives. We will help you confirm stress distribution and stress values, and assist with countermeasures and considerations.
A dedicated pre/post-processor that supports the practical use of the free solver FrontISTR, capable of large-scale analysis of various engineering problems such as structural, heat transfer, and vibration analysis.
Technical data presentation! Problems that cannot be solved with general-purpose code using the shadow method can be analyzed stably.
Autodesk's industry-specific collection for manufacturing, which allows you to use more value, more flexibly, and more simply.
This is a tapping screw that can be driven at high speeds.
The thermal stress caused by temperature changes is greater than expected! It is important to consider expansion and contraction in the design.
Introducing the analysis of rubber products! Please feel free to consult us if you are having trouble with structural design or analysis.
Finite element method software (simulator) for elastic vibration analysis performing frequency response analysis.
Finite element method software (simulator) for elastic stress analysis conducting transient response analysis.
As an example of stress analysis, we present a stress analysis of an elastic body with a bell shape.
Improvements in design quality, reduction in man-hours for prototyping and experimentation, and shortening of development periods can be expected.
Large-scale support, fast result display, and rich post-processing features.
Support for over 100 million nodes, high customizability, and fast automatic mesh generation.
Customize the general-purpose CAE software Jupiter to fit your business! Improve efficiency with Python! Reduce labor costs through automation!
Electromagnetic Field / EV-oriented Accurate Iron Loss Evaluation through Vector Magnetic Characteristic Analysis
CAE modeling software for exhaust systems with proven results in reducing man-hours. An average man-hour reduction rate of 75% in automotive manufacturers and suppliers!
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical application with theory.
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
Total system for onboard noise prediction calculations equipped with automatic modeling and convenient post-processing <Jointly developed with the Nippon Kaiji Kyokai, shipbuilding companies, and Tokai University>
This is a technical document on hull structural mechanics by Mr. Tetsuya Yao.
This is a technical document on hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor at Hiroshima University / Emeritus Professor at Osaka University).
This is a technical document on hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University).
This is a technical document on ship hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University).
This is a technical document on ship hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University).
This is a technical document on hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University).
Maximum labor reduction rate for acoustic analysis modeling: 94%! Noise reduction and detailed post-processing through high-precision modeling.
Fully automatic mesh creation feature. Reduces nonlinear large-scale mesh modeling time by 80%! Manual meshing that takes 2 weeks is fully automated in 30 minutes!
Understanding differences in deformation in advance through welding simulation by Osaka University JWRIAN.
Significantly reduce the man-hours for hexagonal mesh modeling with fully automated meshing of multi-pass welds (heat-affected zones)!
Achieved an 80% reduction in the man-hours for vehicle interior sound analysis modeling! Significantly improved meshing of interior components and the vehicle interior space.
General-purpose finite element method (FEM) solver built into Jupiter
No installation required - an online viewer compatible with CAE that can be used in a web browser.
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
Fatigue evaluation of non-ferrous and non-metallic materials (short fiber reinforced resin / CFRP laminated materials / rubber, etc.)
Supports the creation of databases for various materials! We assist in creating material databases tailored to your needs.