Simulation software Product List and Ranking from 163 Manufacturers, Suppliers and Companies

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

Simulation software Manufacturer, Suppliers and Company Rankings

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

シュレーディンガー Tokyo//software
CGTech Tokyo//software
FsTech Kanagawa//software
4 アスペンテックジャパン/AspenTech Tokyo//software
5 テクノ Saitama//Industrial Electrical Equipment

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Simulation software Product ranking

Last Updated：Nov 19, 2025 Aggregation Period:Oct 22, 2025～Nov 18, 2025
This ranking is based on the number of page views on our site.

Accelerating Next-Generation Polymer Design: Digital Chemistry Platform シュレーディンガー
Robot simulation software "FRSim" テクノ
Aspen Plus process simulation software アスペンテックジャパン/AspenTech
4 CNC simulation software『Vericut 9.6』 CGTech
5 Satara Phoenix WinNonlin

Simulation software Product List

496～510 item / All 679 items

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Press molding simulation software "ASU/P-form"

Strongly supports press die designers from engineering design to knowledge accumulation.

The "ASU/P-form" is software that incorporates analysis methods specialized in press processing, researched at the RIKEN National Research and Development Institute, along with a wealth of processing know-how from the field. By visualizing various defect phenomena that occur in each process, it is possible to identify the main causes, thereby achieving a reduction in development time, cost savings, and improved quality. 【Features】 ■ A purely domestic software used by over 100 customers ■ Visualization of various defect phenomena occurring in each process ■ Achieves reduction in development time, cost savings, and quality improvement ■ Strongly supports press mold designers *For more details, please refer to the PDF materials or feel free to contact us.

Company：太陽メカトロニクス
Price：Other

Mold Design
Software (middle, driver, security, etc.)

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Case study of reducing press processes using press forming simulation.

I want to mold a shape that has traditionally been formed in multiple processes in a single process!

By utilizing press forming simulation, shapes that traditionally require multiple processes can be formed in a single process! 【Used Systems and Functions】 ■VISI Bending development, drawing development, flange bending development, shape deformation ■ASU P-form Press forming analysis simulation 【Forming Method】 ■Mold design through the collaboration of VISI and P-form ■Verification of analysis using P-form *For more details, please refer to the PDF materials or feel free to contact us.

Company：太陽メカトロニクス
Price：Other

Other CAD related software
Processing Contract

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Effective Utilization of Cutting Simulation [AdvantEdge]

You will acquire the skills to create simulation models, evaluate and analyze results, and lead to solutions for challenges. *Simulation examples are currently available in video format!

By visualizing processing phenomena, we prevent machining troubles. 1. About AdvantEdge 2. Exercise 1 – Confirming operation methods in 2D cutting 3. Exercise 2 – Importing 3D CAD data 4. Exercise 3 – Throwaway milling 5. Exercise 4 – Solid drilling 6. Exercise 5 – Turning 7. Exercise 6 – Solid end milling 8. Case studies of cutting simulation analysis using AdvantEdge Other (user success stories, seminars related to cutting processing, etc.) We encourage users who are newly tackling challenges in cutting simulation to participate. We also provide advice on model creation tailored to specific challenges.

Company：伊藤忠テクノソリューションズ科学システム本部
Price：Other

drill
Structural Analysis
Other processing machines

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Introduction of new features in cutting process simulation

Enhanced cutting simulation supports a wide range of machining! Assisting in solving various challenges related to cutting!

We will explain the features and operations of the new versions of AdvantEdge FEM and the Production Module. In AdvantEdge FEM, it is now possible to define the movements of both the tool and the workpiece separately. This allows for the modeling of a wide range of phenomena, not only machining processes such as skiving and spinning tools but also processes like roll forming and impact analysis on metal sheets. In the Production Module, the shape of the workpiece during machining can now be output as a voxel mesh, which can be used for deformation analysis along with cutting force mapping files. 【Announcement of the Cutting CAE Conference】 The annual Cutting CAE Conference, where users utilizing cutting CAE present case studies, is scheduled to be held online on January 20, 2021. Along with the Cutting CAE Conference, we encourage you to consider participating in the webinar at this time. We sincerely look forward to your participation.

Company：伊藤忠テクノソリューションズ科学システム本部
Price：Other

Other processing machines
Other cutting tools
Technical Seminar

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Analysis case: Construction of an NC data optimization system using cutting simulation.

We will introduce the interface with CAM and support for machine tool controllers!

This is an example of building an NC data optimization system using the 'Production Module' that performs physical simulations on CAD/CAM. When the product dimensions do not match the CAD/CAM model, machining errors occur due to tool deflection based on cutting forces. With this product, it becomes possible to evaluate the amount of tool deflection and assess the relationship with machining errors, allowing for the consideration of various machining plans. 【Consideration Items】 ■ Tool diameter ■ Axial depth of cut ■ Number of flutes ■ Radial depth of cut *For more details, please refer to the PDF materials or feel free to contact us.

Company：伊藤忠テクノソリューションズ科学システム本部
Price：Other

simulator

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Analysis case: Machining simulation targeting vehicle impellers.

Introduction of the deformation analysis results of the workpiece using cutting forces calculated by cutting simulation.

This is a case where the tool deflection was evaluated from the cutting force assessed in the cutting simulation of the "Production Module." By applying the analysis results from AdvantEdge to the geometric simulation on the CAD/CAM model, the cutting force during machining was calculated. The cutting force, which is the analysis result, can also be utilized for strain deformation analysis during machining. Additionally, in a case where mesh generation was performed on the shape of the workpiece during machining, and strain deformation analysis due to cutting force was conducted, it was found that the strain deformation on the workpiece side is not determined solely by the cutting force, but that the contribution of the rigidity on the workpiece side is also significant. 【Tool Path Analysis】 ■ Operation equivalent to CAM using GUI ■ Supports importing chatter stability limit curve diagrams ■ Navigator function ・Tool position ・Target NC line *For more details, please refer to the PDF document or feel free to contact us.

Company：伊藤忠テクノソリューションズ科学システム本部
Price：Other

simulator

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Steelmaking Process Simulation: Metallurgical Process Module

Streamlining the exploration of conditions in the steelmaking process! Calculations considering slag quantity, gas partial pressure, temperature, and time for dephosphorization, deoxidation, desulfurization, and inclusion removal are possible!

The Metallurgical Process Module, an add-on module of the alloy design tool Thermo-Calc, allows for the calculation of steelmaking processes such as BOF and arc furnace melting, dephosphorization, deoxidation, and desulfurization in LF, as well as inclusion removal, taking into account factors like slag quantity, gas partial pressure, temperature, and time. Applicable processes include EAF (Electric Arc Furnace), LD-BOF (Converter), Tapping, LF (Ladle Refining Furnace), and VOD (Vacuum Oxygen Decarburization). For example, in the LF process, you can specify the amount and composition of the molten steel and slag, as well as the timing for introducing process conditions (temperature, time, gas) and additives (deoxidizers and specific alloying elements), and evaluate the slag quantity, slag composition, and impurity levels in the molten steel during the process. The use of this module requires the TCOX8 or later version of the oxide database. Calculation workflows and example problems are provided for each process.

Company：伊藤忠テクノソリューションズ科学システム本部
Price：Other

Steel

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Application examples of the alloy design tool Thermo-Calc for Ni-based superalloys.

Introducing analysis examples for Ni-based superalloys! The alloy design tool Thermo-Calc can be used for material development and various manufacturing processes!

This is a collection of calculation examples for Ni-based superalloys using the alloy design tool Thermo-Calc. Thermo-Calc can optimize alloy processes, predict the effects of processes on microstructure, and forecast properties. 【Thermo-Calc】 - Temperature-phase diagram for Ni-24Al-15Cr-19Co - Temperature-phase diagram for 718Plus - Evaluation of the solvus temperature of the γ’ phase - Evaluation of equilibrium distribution coefficients - Evaluation of liquid phase density for Ni-Cr-Al-XMo - Evaluation of lattice constants for γ/γ’ phases - Evaluation of oxidation and sulfidation treatments - Evaluation of viscosity and surface tension for CMSX-10 - Electrical properties (electrical resistivity, electrical conductivity) - Thermal properties (thermal conductivity, thermal resistivity, thermal diffusivity) 【Diffusion Module DICTRA】 - Diffusion between GTD-111 alloy and coating - Diffusion in welds of steel materials and nickel alloys 【Precipitation Module TC-PRISMA】 - Precipitation of γ‘ and γ’‘ phases in 718 alloy 【Property Models for Ni Alloys】 - Anti-phase boundary energy - Temperature dependence of properties in frozen microstructures - Coarsening rate constant of precipitates

Company：伊藤忠テクノソリューションズ科学システム本部
Price：Other

Rare metals
alloy
Non-ferrous metals

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Application examples of the alloy design tool Thermo-Calc for copper alloys.

Introducing analysis examples for copper alloys! The alloy design tool Thermo-Calc can be used for material development and various manufacturing processes!

This is a collection of calculation examples for copper alloys using the alloy design tool Thermo-Calc. Thermo-Calc allows for the optimization of alloy processes, the impact of processes on microstructure, and the prediction of properties. 【Thermo-Calc】 - Phase diagrams for Cu-Zn and Cu-Sn - Isothermal sections for Cu-Mn-Sn and Cu-Ni-Sn - Vertical sections (with fixed element ratios) - Liquid phase projection diagram for Cu-Ag-Sn - Evaluation of liquid phase density for Cu-Co-Fe - Evaluation of surface tension and viscosity - Evaluation of liquidus/solidus temperatures - Solidification calculations for Cu-8.32Ni-1.68Si 【Diffusion Module DICTRA】 - Interface movement and microsegregation during the solidification process 【Precipitation Module TC-PRISMA】 - Precipitation calculations for Ni2Si precipitate phase during aging process - Precipitation calculations for Co-Fe precipitate phase during aging process

Company：伊藤忠テクノソリューションズ科学システム本部
Price：Other

alloy
Non-ferrous metals
Other metal materials

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Application examples of the alloy design tool Thermo-Calc for titanium alloys.

Introducing analysis examples for titanium alloys! The alloy design tool Thermo-Calc can be used for material development and various manufacturing processes!

This is a collection of calculation examples for titanium alloys using the alloy design tool Thermo-Calc. Thermo-Calc can optimize alloy processes, predict the effects of processes on microstructures, and forecast properties. 【Thermo-Calc】 - Temperature - phase fraction diagram for Ti-43.3Al-4.3Nb-1.2Mo-0.1B (at%) - Phase diagram of the Ti3Al-Nb pseudo-binary system - Evaluation of transformation temperature (β transus) - Evaluation of volume fractions of α and β phases - Surface tension of the liquid phase - Electrical resistivity of Ti6242Si - Thermal conductivity of Ti64 【Diffusion Module DICTRA】 - Evaluation of α phase fraction according to cooling rate

Company：伊藤忠テクノソリューションズ科学システム本部
Price：Other

alloy
Non-ferrous metals
Other metal materials

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Layered manufacturing simulation AM module *Test calculations now accepted

Support for predicting temperature history and molten morphology in metal additive manufacturing! Ideal for condition examination for AM!

The AM module is a simulation module specialized in predicting complex temperature histories and melt pool shapes in the metal additive manufacturing process. It enables analysis that takes into account temperature changes and phase transformations in relation to shaping conditions such as laser and electron beams. By collaborating with Thermo-Calc and utilizing thermodynamic and kinetic databases, it strongly supports material design and optimization of process conditions under rapid cooling conditions. It is particularly effective for analyses such as: 【Calculation Examples】 - Setting and reproducing thermal history profiles - Simulation of phase generation and disappearance - Changes in temperature distribution during multilayer additive manufacturing - Correlation analysis between cooling rate and microstructural changes - Comparison of microstructural evolution before and after aging treatment - Estimation of fine microstructures near the melt pool ★ For more details, please download the PDF or feel free to contact us ★ ★ For test calculations, please consult us through "Contact" ★

Company：伊藤忠テクノソリューションズ科学システム本部
Price：Other

Other metal materials

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NC machine simulation software "VERICUT"

Identify mistakes and inefficient areas! Collisions in the "virtual machine" serve to protect the actual machines.

"VERICUT" is simulation software for G-code NC programs executed on machine tools. Before processing on machine tools, it verifies NC data created by CAM software on a PC. It reproduces the machine tool and its movements on the PC, preventing errors and troubles such as collisions caused by the program. By utilizing CAD data, it is also possible to conduct detailed inspections of leftover material and overcutting. 【Features】 ■ Supports simulation of "G-code NC programs" for various NC machine tools ■ Faithfully reproduces in-machine operations in detail ■ Reproduces all elements in 3D, detecting collisions and interferences ■ Significantly reduces verification work on actual machines, enabling quick start of processing ■ Reduces costs associated with machine damage and troubles *For more details, please refer to the PDF document or feel free to contact us.

Company：アルビテクノロジー本社テクニカルセンター
Price：Other

Other CAM related software

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