We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Molding analysis software.
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Molding analysis software Product List and Ranking from 9 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

Molding analysis software Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. セイロジャパン Saitama//software
  2. 先端力学シミュレーション研究所 Tokyo//IT/Telecommunications
  3. アイ・ティー・エス・ジャパン Chiba//Testing, Analysis and Measurement
  4. 4 日本イーエスアイ Tokyo//software
  5. 5 電陽社 Toyama//Industrial Electrical Equipment
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Molding analysis software Product ranking

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. Extrusion molding analysis software HASL セイロジャパン
  2. [CAE Solution Case] Resin Sheet Press Molding 先端力学シミュレーション研究所
  3. Mitsubishi Heavy Industries Press Forming Analysis Software 'PAM-STAMP' Case Study 日本イーエスアイ
  4. Sheet forming analysis software 'eta/DYNAFORM' 電陽社
  5. 4 Virtual Extrusion Lab Series for Chemical Formulations アイ・ティー・エス・ジャパン

Molding analysis software Product List

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Extrusion molding analysis software HASL

Extrusion molding analysis software HASL

Extrusion molding analysis software developed by HASL Inc. (Hyper Advanced Simulation Laboratory)

We mainly offer the following seven products: 1. 3D Thermal Flow Analysis Program for Extrusion Molding - Flowsimutator3D 2. Software for Single Screw Analysis - Single Screw Simulator 3. Software for Twin Screw Extruder Analysis - Twin Screw Simulator 4. Thermal Flow Analysis Software for Flat Die - Flat Simulator 5. Thermal Flow Analysis Software for Spiral Die - Spiral Simulator 6. Advanced Blow Molding/Thermoforming Simulator - Hyper Blow 7. Polymer Simulator - NAPLES

  • simulator
  • Other analyses
  • Molding analysis software

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Seminar: Impact of High-Precision Material Properties on Press Forming Analysis Results

Seminar: Impact of High-Precision Material Properties on Press Forming Analysis Results

Online Seminar: Lecture by Professor Susumu Takahashi from Nihon University, Faculty of Industrial Engineering! A must-see for those who want to deepen their knowledge of material properties that affect molding results.

As the shift towards carbon neutrality accelerates with the adoption of electrification, the use of high-strength steel sheets for weight reduction has become more widespread. Additionally, the utilization of press forming analysis has become commonplace, and there are now many phenomena to consider in the analysis. In this context, many may wish to deepen their understanding of the material properties that influence forming results, or are struggling with how to improve the predictive accuracy of analyses without conducting various material tests. In this seminar, Professor Susumu Takahashi from Nihon University’s Department of Production Engineering will give a main presentation titled "Challenges of Applying High-Strength Materials to Automotive Parts and Press Forming Analysis," where he will explain the impact of material properties on press forming analysis results. Additionally, a sub-presentation will be given by ESI, discussing the improvement of predictive accuracy in analysis using tools that predict advanced material property parameters. We encourage you to join us. <Online Seminar Overview> 【Date】: August 26, 2022 (Friday) 14:00 - 15:00 (60 minutes including Q&A) 【Cost】: Free (Pre-registration required) 【Target Audience】: Those using press forming analysis software, not limited to PAM-STAMP, or those considering its introduction 【Capacity】: 100 participants

  • Other CAD
  • Other CAM related software
  • Structural Analysis
  • Molding analysis software

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Improving the Accuracy of Press Forming Analysis with TriboForm <Customer Case Study>

Improving the Accuracy of Press Forming Analysis with TriboForm <Customer Case Study>

Volvo Car Corporation has adopted TriboForm for the door inner of the new Volvo XC90 to achieve its goals.

**Impact of Introducing TriboForm** By improving the prediction accuracy of strain, flow, and springback, we achieve "shortened development time," "reduced development costs," and "increased ROI (return on investment)."

  • Other analyses
  • Molding analysis software

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Adjustment of press die projections and die spotting through digital examination.

Adjustment of press die projections and die spotting through digital examination.

The digital process twin centered on AutoForm's press die forming analysis has achieved a reduction in development man-hours.

The environment for automobile development is changing more significantly than ever due to societal changes such as electric vehicles and autonomous driving, leading to an increased demand for timely development of products that meet market needs and for reducing labor costs. We will introduce the digital examination method using the digital process twin recommended by AutoForm. [Contents] - Mold estimation and die spotting - Digital estimation and die spotting in AutoForm *For more details, please refer to "Catalog Download."

  • simulator
  • Mold Design
  • Molding analysis software

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Introduction to Vacuum Forming Analysis using ASU/V-Struct

Introduction to Vacuum Forming Analysis using ASU/V-Struct

Technical materials presented! We can support the vacuum forming site and mold design.

This document introduces the vacuum forming analysis using the heat transfer and structural coupling analysis software 'ASU/V-Struct'. This product can stably compute coupled analyses of structural analysis and heat conduction analysis that involve nonlinearities (material, geometry, contact), which are difficult to handle with general-purpose CAE software. It allows for the analysis of conditions during vacuum forming, enabling the investigation of molding conditions and defects in advance. Examples of analyses performed on vacuum-formed resin sheets are included, making it easy to reference when considering implementation. Please feel free to download and take a look. [Contents] ■ Introduction ■ Analysis Examples ■ Conclusion *For more details, please download the PDF or feel free to contact us.

  • Structural Analysis
  • Other analyses
  • Molding analysis software

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Injection Molding Simulation "Moldex3D"

Injection Molding Simulation "Moldex3D"

Plastic injection molding 3D analysis software! Simulating various aspects.

The 'Moldex3D' that we handle is a three-dimensional analysis software for plastic injection molding developed and sold by CoreTech System. It is capable of simulating various aspects of the injection molding process, including flow, packing, cooling, and warpage analysis. One example of a module is "MCM (Multi-Component Molding)," which allows for molding evaluation combined with materials other than resin. 【Standard Modules】 ■ Flow Analysis ■ Packing Analysis ■ Cooling Analysis ■ Warpage Analysis ■ Multi-Component Molding (MCM) *For more details, please refer to the related links or feel free to contact us.

  • Other CAD related software
  • Molding analysis software

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Example: Injection Molding - Reducing clamping force to downsize the molding machine.

Example: Injection Molding - Reducing clamping force to downsize the molding machine.

We will collaborate with 3D TIMON to explore gate positions that can be injected even with small molding machines, thereby reducing production costs.

Optimizing molding conditions parametrically in resin flow analysis can be relatively easily achieved, but automatically changing the cavity shape and runner layout while optimizing is challenging. To facilitate these optimizations, we developed "AMDESS for 3D TIMON" in collaboration with Toray Engineering Co., Ltd. Here, we present a case study of optimizing the gate position to minimize clamping force while automatically re-modeling the runner when changing the gate position. [Contents] ■ Overview ■ Analysis Model ■ Optimization Conditions ■ Results ■ Discussion *Detailed information about the case study can be viewed through the related links. For more information, please feel free to contact us.

  • Structural Analysis
  • Molding analysis software

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Injection Molding Analysis Software "MAPS-3D"

Injection Molding Analysis Software "MAPS-3D"

- Complete solid, high-speed, injection molding simulation -

Consistent and Easy Complete Solid Analysis: Directly analyze 3D solid models. Usable easily by beginners regardless of specialized knowledge or experience in analysis. Large-scale Analysis Model Support: Capable of handling large-scale models thanks to proprietary high-speed analysis technology. The 64-bit solver version has no restrictions on model size. High-Speed Analysis: Equipped with powerful high-speed automatic meshing. Achieves high-precision high-speed analysis through proprietary cutting-edge algorithms. Further accelerated with support for 64-bit Windows OS and parallel CPU processing. High-Precision Analysis Technology: Adopts cutting-edge high-precision injection molding theory to deliver high-quality analysis results. Achieves high-precision analysis with high-quality layer solid meshes. Diverse High-Functionality Modules: Filling, holding pressure, warping, fiber orientation, cooling, solid runners, gate optimization, hot runner balance optimization, inserts, stress, project data management, rubber, RIM…etc.

  • Stress Analysis
  • Molding analysis software

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Mitsubishi Heavy Industries Press Forming Analysis Software 'PAM-STAMP' Case Study

Mitsubishi Heavy Industries Press Forming Analysis Software 'PAM-STAMP' Case Study

Introducing a case study implemented at Mitsubishi Heavy Industries, Ltd.! A free booklet is currently available!

Mitsubishi Heavy Industries, Ltd. Parts Manufacturing Department is a division that develops and manufactures completed aircraft for commercial use and ordered parts for companies such as Boeing within the company. "PAM-STAMP" supports Mitsubishi Heavy Industries' world-class quality and high productivity, achieving a 50% cost reduction within six months of use. This document provides detailed information on the introduction of "PAM-STAMP" and its effects. [Contents] ■ Mitsubishi Heavy Industries' initiatives in the aerospace industry ■ Recent challenges – High precision based on robotic automated assembly ■ Production of meter-sized large exterior panels ■ Reasons for switching to PAM-STAMP ■ Evaluation of PAM-STAMP ■ Simulation accuracy of PAM-STAMP ■ 50% cost reduction effect ■ Future expectations *For more details, please refer to the PDF document or feel free to contact us.

  • simulator
  • Other analyses
  • Molding analysis software

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[CAE Solution Case] Resin Sheet Press Molding

[CAE Solution Case] Resin Sheet Press Molding

Presenting technical data! Introducing an example of seat press forming analysis modeled after automotive headlining.

We would like to introduce a CAE solution case using the structural analysis software 'ASU/V-Struct' for resin sheet press molding. In automotive interiors, such as headliners, there are many instances where composite materials centered around resin are formed by pressing. During these molding processes, similar to metal pressing, defects such as cracks and wrinkles can occur, and adjusting molds and molding conditions through trial and error can require a significant amount of time and effort. By using simulations, it is possible to predict molding defects and shorten development periods. For more detailed case information and about our products and services, please refer to the PDF materials. [Case Overview (Partial)] ■Challenges - We would like to consider measures for molding defects such as cracks and wrinkles. - We would like to explore methods for securing the sheet during pressing. - We would like to investigate the deformation of the sheet and the timing of contact with the mold. *For more details, please download the PDF or feel free to contact us.

  • Structural Analysis
  • simulator
  • Molding analysis software

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Sheet forming analysis software 'eta/DYNAFORM'

Sheet forming analysis software 'eta/DYNAFORM'

A smart choice for reducing lead times, cutting costs, and improving quality in press part mold design!

"eta/DYNAFORM" is a specialized analysis software for sheet metal forming developed with the aim of reducing the number of trial and error iterations in mold modifications. It consists of a standard package called "Basic," along with paid options such as "D-Eval," "BSE," and "Blank/Trim Line Development." It enables high-precision formability evaluation and springback prediction for parts ranging from automotive components to precision equipment. Please feel free to contact us if you need assistance. 【Features】 ■Basic (Standard Package) - Conducts analysis using molds and blanks, similar to actual machines. - Can also be used as a tool for accumulating in-house mold technology know-how and for sales purposes. ■BSE (Blank Size Engineering: Blank Prediction Function) - Analysis can be performed using only part shapes or mold shapes. - Equipped with a proprietary solver "MSTEP," it can quickly generate effective reference data for part and mold design. *For more details, please refer to the PDF materials or feel free to contact us.

  • Mold Design
  • Other analyses
  • Molding analysis software

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Virtual Extrusion Lab Series for Chemical Formulations

Virtual Extrusion Lab Series for Chemical Formulations

Analysis software specialized in optimal design and stable molding developed by world authorities.

In the chemical industry, the formulation process is a critical challenge regarding product quality and cost efficiency. In particular, formulation design in extrusion molding is a key factor that influences product performance, and even slight differences in formulation can lead to molding defects or reduced yield. The Virtual Extrusion Lab series addresses challenges in extrusion molding with easy operation and supports optimal formulation design. 【Use Cases】 - Formulation design in extrusion molding - Analysis of molding defects - Cost reduction 【Benefits of Implementation】 - Improved quality through optimal formulation design - Cost reduction by decreasing molding defects - Shortened development time through simulation

  • Extrusion Machine
  • Molding analysis software

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Medical Virtual Extrusion Lab Series

Medical Virtual Extrusion Lab Series

Pre- and post-integrated analysis software that achieves optimal design and stable molding.

In the medical industry, precision molding is of utmost importance for product quality and safety. Particularly in the manufacturing of medical devices and instruments, accuracy of dimensions, uniformity of materials, and stability after molding are required. Molding defects can lead to product malfunction and pose risks to patients. The "Virtual Extrusion Lab Series" supports the resolution of extrusion molding challenges with easy operation. 【Usage Scenarios】 - Precision molding of medical tubes, catheters, syringes, etc. - Design and manufacturing of irregular extrusion products - Optimization of material selection and molding conditions 【Benefits of Implementation】 - Cost reduction through the reduction of molding defects - Early detection of issues during the design phase - Shortening of product development time - Stable supply of high-quality medical devices

  • Extrusion Machine
  • Molding analysis software

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T-SIM for Container Manufacturers

T-SIM for Container Manufacturers

Accurate analysis of drawdown and cooling. Reproduction of various vacuum forming processes.

In the container industry, molding technologies that can accommodate a variety of shapes and materials are in demand. Particularly for containers with high design quality or those that pursue functionality, it is crucial to accurately predict the behavior of the sheet during molding and to mold under optimal conditions. Improper molding can lead to a decline in container quality and a deterioration in yield. T-SIM adopts an integral viscoelastic model to accurately analyze sheet sag during drawdown and cooling after molding, enabling flexible reproduction of various vacuum forming processes. 【Application Scenarios】 - Food containers - Medical containers - Industrial containers 【Benefits of Implementation】 - Optimization of wall thickness distribution - Suppression of molding defects - Reduction of material costs

  • Other molds
  • Molding analysis software

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