List of Stress Analysis products
- classification:Stress Analysis
136~180 item / All 184 items
We provide manufacturing technology for neutralization, esterification, sulfonation, phosphorylation, polycondensation reactions, powder mixing, emulsification, and dispersion, etc. *We can also handl...
- Contract manufacturing
Do you have any concerns about contract manufacturing of various chemical products?
We would like to introduce the contract manufacturing services provided by Riten Chemical Co., Ltd. We are a chemical manufacturer based in Kyoto with 70 years of experience. Since our establishment, we have been developing, manufacturing, and selling various surfactants used in the textile and paper industries. Based on the technology and development capabilities we have cultivated over the years, we accept contract manufacturing of various chemical products, so please feel free to contact us. 【Contract Manufacturing Achievements】 ■ Construction waterproofing agents ■ Plant growth promoters ■ Construction waterproofing materials ■ Greening-related agents ■ Chemicals for the electronics industry ■ Wastewater treatment agents ■ Industrial preservatives ■ Special surfactants... We provide more detailed information through related products and catalogs.
Heat resistant up to 1200℃. We will custom-make high-performance insulation covers that ensure safety in the working environment!
- Glass
Generative Design / Topology Optimization / Rapid Simulation
- Structural Analysis
- Mechanism Analysis
- Stress Analysis
Quickly evaluate and compare multiple forecast adjustment strategies to find the best strategy for your needs!
- Press Dies
- Mold Design
- Stress Analysis
This is a tapping screw that can be driven at high speeds.
- bolt
- simulator
- Stress Analysis
It brings deep understanding and transparency to the molding process from the early engineering stages.
- Press Dies
- Mold Design
- Stress Analysis
AutoForm ProgDie – Software solutions for progressive die manufacturers.
We have announced the newly developed software AutoForm ProgDie, specifically tailored to meet the needs of users involved in progressive die manufacturing. Progressive die manufacturers can utilize AutoForm ProgDie to efficiently design, simulate, verify, and modify multiple concepts for strip layouts, allowing them to select the optimal layout according to their requirements.
Direct communication is possible between the engineering department and the tryout department!
- Press Dies
- Mold Design
- Stress Analysis
You can proceed with the operation step by step throughout the entire process!
- Press Dies
- Mold Design
- Stress Analysis
AutoForm ProgDie – Software solutions for progressive die manufacturers.
We have announced the newly developed software AutoForm ProgDie, specifically tailored to meet the needs of users involved in progressive die manufacturing. Progressive die manufacturers can utilize AutoForm ProgDie to efficiently design, simulate, verify, and modify multiple concepts for strip layouts, allowing them to select the optimal layout according to their requirements.
Software compatible with roll hemming and table top hemming.
- Press Dies
- Mold Design
- Stress Analysis
An ideal method to replace traditional Excel-based worksheets and cumbersome manual calculations.
- Press Dies
- Mold Design
- Stress Analysis
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.
- Press Dies
- Mold Design
- Stress Analysis
We will conduct a simulation of press molding using line, transfer type, or progressive type.
- Press Dies
- Mold Design
- Stress Analysis
AutoForm ProgDie – Software solutions for progressive die manufacturers.
We have announced the newly developed software AutoForm ProgDie, specifically tailored to meet the needs of users involved in progressive die manufacturing. Progressive die manufacturers can utilize AutoForm ProgDie to efficiently design, simulate, verify, and modify multiple concepts for strip layouts, allowing them to select the optimal layout according to their requirements.
You can analyze the impact of the actual mold temperature and its further effect on the molding results.
- Press Dies
- Mold Design
- Stress Analysis
Introduction of software that considers phase transformation between quenching and thermal deformation after cooling.
- Press Dies
- Mold Design
- Stress Analysis
The blank outline is optimized so that the part boundary matches the target shape and dimensions!
- Press Dies
- Mold Design
- Stress Analysis
AutoForm ProgDie – Software solutions for progressive die manufacturers.
We have announced the newly developed software AutoForm ProgDie, specifically tailored to meet the needs of users involved in progressive die manufacturing. Progressive die manufacturers can utilize AutoForm ProgDie to efficiently design, simulate, verify, and modify multiple concepts for strip layouts, allowing them to select the optimal layout according to their requirements.
You can perform transport simulations and dynamic interface detection!
- Press Dies
- Mold Design
- Stress Analysis
An innovative mold design and springback prediction correction solution that brings significant labor reduction effects. Supports full digitalization.
- Press Dies
- Mold Design
- Stress Analysis
A CAD embedded module that easily outputs process data from AutoForm and can be imported into the CATIA environment.
- Press Dies
- Mold Design
- Stress Analysis
A CAD embedded module that can enhance work efficiency through more efficient collaboration with internal and external departments.
- Press Dies
- Mold Design
- Stress Analysis
A pricing system based on usage! The costs of software and hardware are optimized.
- Press Dies
- Mold Design
- Stress Analysis
Efficiently evaluate various hemming processes and support the optimization of production!
- Structural Analysis
- Other analyses
- Stress Analysis
Since multiple areas can be defined within the mold, the expected correction can be controlled analytically.
- Press Dies
- Mold Design
- Stress Analysis
[Magazine Contribution] Featured in the March issue of "Type Technology" - 'IT Tools Utilization Guide 2022'
An article contributed by our company has been published in the September issue of Nikkan Kogyo Shimbun's "Kata Gijutsu." Please take a look. 【Feature】IT Tool Utilization Guide 2022 ■Latest Features and Effective Utilization Methods of AutoForm Kenta Takizawa, AutoForm Japan This article introduces the initial stage of forming considerations in the press field, which is part of AutoForm's digital solutions, the prediction of springback in molds, digital considerations for die spotting, and methods for predicting sporadic defects during mass production. 【Overview】 - Die face considerations in the early design stage of press parts - Effective prediction considerations and digital die spotting - Stability considerations for predicting mass production defects
![[Data] Hemming of Ultra High Streng...](https://image.mono.ipros.com/public/product/image/5d1/2000496494/IPROS97490403791145124672.png?w=280&h=280){kind=small}
A project specialized in ultra-high strength hemming with thin plate thickness to achieve weight reduction.
- Press Dies
- Mold Design
- Stress Analysis
Significant improvement in mold quality and a substantial reduction in initial development time in process design have been achieved.
- Structural Analysis
- Other analyses
- Stress Analysis
A new era of mold manufacturing opened by AutoForm plus: Swiss high-end kitchen manufacturer Franke.
- Structural Analysis
- Other analyses
- Stress Analysis
Information is being distributed on official SNS (LinkedIn, Facebook, LINE)!
AufoForm Japan disseminates digital planning and digital information for the entire process chain dealing with press-formed parts on various social media platforms including LinkedIn, Facebook, and LINE. ■ Successful cases applying planning and simulation software ■ Software development and related information from various companies ■ Cutting-edge technologies and trends ■ Industry-wide trends, etc. LinkedIn: https://www.linkedin.com/company/71626816/admin/ Facebook: https://www.facebook.com/autoform.jp/ LINE: @afjp
Software for simple definition and optimization of the hemming process.
- Structural Analysis
- Other analyses
- Stress Analysis
This is software that quickly creates CAD-quality die faces. It significantly reduces the time required to create CAD-quality die faces.
- Structural Analysis
- Other analyses
- Stress Analysis
Autodesk's industry-specific collection for manufacturing, which allows you to use more value, more flexibly, and more simply.
- 3D CAD
- Stress Analysis
- 2D CAD machine
It is used in various industries around the world to improve the impact resistance, safety, and manufacturability of structural designs.
- Structural Analysis
- Stress Analysis
It is the latest structural analysis solver for linear and nonlinear simulations under static and dynamic loads, capable of performance evaluation and optimization for strength, durability, NVH, and m...
- Structural Analysis
- Stress Analysis
I tried creating an internal lattice to maintain the strength of 3D printed models while reducing weight! Part 1
- 3D Printer
- Stress Analysis
- 3D CAD
Fatigue analysis tool for predicting fatigue life and durability.
- Structural Analysis
- Stress Analysis
Simulation software that integrates "concept design" and "analysis" for die-cast products.
- simulator
- Thermo-fluid analysis
- Stress Analysis
Eliminate deformation caused by residual stress in all metal fabrication challenges and consistently produce qualified products on the "first fabrication"! *Demonstration available.
- simulator
- Stress Analysis
- 3D Printer
You can quickly examine the blank outline derived from the CAD part shape.
- Press Dies
- Mold Design
- Stress Analysis
Achieving a new level of simulation accuracy! Simulating friction and lubrication conditions.
- Press Dies
- Mold Design
- Stress Analysis
[News Publication] Mold News, May 10, 2023 issue "Press Analysis in a Short Time" Interview with Minami Kogyo Co., Ltd.
Issued by Kinzai Shimbun on May 10, 2023 An interview article featuring Minami Kogyo Co., Ltd., which uses AutoForm simulation software for "press analysis in a short time," has been published. Minami Kogyo Co., Ltd., located in Hiroshima City, specializes in the design and production of press molds for automotive frames and suspension components. By implementing AutoForm simulation software, they have achieved high-precision predictions of plastic deformation in a short period, enhanced design quality, reduced modification time after trials, and improved mold production efficiency. Please take a look.
What are the tips for successfully achieving "pre-deformation" to eliminate distortion in metal 3D printing? A resource for discovering and solving challenges in the production field.
- simulator
- Stress Analysis
- 3D Printer
The unavoidable issue of "deformation" in metal 3D printers... What are the countermeasures? A resource for identifying and solving problems in production sites.
- simulator
- Stress Analysis
- 3D Printer
Make high-graphics applications like 3D CAD available in a virtual desktop environment!!
- 3D CAD
- Stress Analysis
- 3D CAM
Complex stress analysis can be calculated using the finite element method, allowing for pre-checking of issues!
- Stress Analysis
- others
We will calculate the seismic design calculations for towers and tanks in earthquakes using a computer.
- Stress Analysis
- others
Modeling the operating mechanism of the machine as is! A new proposal for dynamic mechanism stress analysis!
- Other analyses
- simulator
- Stress Analysis
We will be exhibiting at the Design and Manufacturing Solutions Exhibition.
Design and Manufacturing Solutions Proposed by Japan ESI *For details, please refer to each related product. ■ Design Solutions - Fluid-Structure Interaction Simulation > PAM-FLOW - Biomechanics Simulation: PAM-CRASH 2G, PAM-COMFORT, PAM-SAFE 2G - Dynamic Mechanism Stress Simulation: PAM-MEDYSA 2G - Vibration and Noise Simulation: VA One - OpenFOAM: Fluid Simulation ■ Manufacturing Solutions - Deformation Simulation during Assembly: PAM-STAMP 2G, SYSWELD - Casting Simulation: ProCAST - Composite Material Simulation: PAM-FORM, PAM-RTM ■ Virtual Reality Solutions - Immersive Virtual Reality: IC.IDO
![[Solution] Shape Optimization for A...](https://image.mono.ipros.com/public/product/image/1df/2000033945/IPROS6108005515650024526.jpg?w=280&h=280){kind=small}
Achieve design efficiency on CAE through effective utilization of the Abaqus model!
- Structural Analysis
- Stress Analysis
- Thermo-fluid analysis
Today's ANSYS: ANSYS Fluent Fiber Module
Today, I would like to change perspectives a bit and introduce the "Fiber Module," an optional feature of ANSYS Fluent. This module allows for the modeling of melt spinning and dry spinning processes in fiber production. It can simulate various physical phenomena such as the solidification of molten liquid and volatilization by coupling the standard CFD mesh of Fluent with an independent one-dimensional mesh (grid) for the fibers. There are three methods for spinning: melt spinning, dry spinning, and wet spinning. Currently, ANSYS Fluent and the Fiber Module can simulate melt spinning and dry spinning. By considering the coupling of surrounding fluid calculations and fiber calculations, it is possible to obtain flow fields and temperature fields of the surrounding fluid associated with changes in fiber flow, as well as local information about the fibers corresponding to changes in the surrounding fluid. All necessary settings for the simulation can, of course, be done through the GUI. A high level of functionality is a characteristic of the ANSYS Fluent Fiber Module. *For more details, please refer to the link below or feel free to contact us.
A flexible and diverse service plan that can be selected according to needs, with Abaqus as the key technology.
- Contract Analysis
- Structural Analysis
- Stress Analysis
Today's ANSYS: Optimizing Pump Energy Consumption through Fluid Simulation (CP Pumpen)
I would like to introduce information about how CAE and CFD are beneficial to society, including interesting application examples, primarily through articles in the information magazine "ADVANTAGE." By using ANSYS CFX, you can obtain information about discharge heads, power consumption, and efficiency, as well as check the flow field within pumps. Today, I will introduce the efforts of CP Pumpen, a leading supplier of high-quality centrifugal pumps, in utilizing simulation for product improvement. To secure a competitive advantage in an increasingly competitive market, they implemented CAE to improve their products. ↓ To improve the traditional prototype-based methods, they introduced ANSYS CFX and ANSYS BladeModeler. ↓ Through repeated pre-validation, they were able to improve hydraulic characteristics and highlight issues with conventional designs. ↓ This led to significant effects, such as a threefold increase in development efficiency (↑) and up to a 50% improvement in pump efficiency (↑), successfully recovering the initial investment within a year. *For more details, please refer to the link below or feel free to contact us.
Integration of implicit and explicit methods. For elucidating a wide range of phenomena such as heat, electricity, magnetic fields, and fluids.
- Structural Analysis
- Stress Analysis
- Other analyses
Today's ANSYS: ANSYS Fluent Fiber Module
Today, I would like to change perspectives a bit and introduce the "Fiber Module," an optional feature of ANSYS Fluent. This module allows for the modeling of melt spinning and dry spinning processes in fiber production. It can simulate various physical phenomena such as the solidification of molten liquid and volatilization by coupling the standard CFD mesh of Fluent with an independent one-dimensional mesh (grid) for the fibers. There are three methods for spinning: melt spinning, dry spinning, and wet spinning. Currently, ANSYS Fluent and the Fiber Module can simulate melt spinning and dry spinning. By considering the coupling of surrounding fluid calculations and fiber calculations, it is possible to obtain flow fields and temperature fields of the surrounding fluid associated with changes in fiber flow, as well as local information about the fibers corresponding to changes in the surrounding fluid. All necessary settings for the simulation can, of course, be done through the GUI. A high level of functionality is a characteristic of the ANSYS Fluent Fiber Module. *For more details, please refer to the link below or feel free to contact us.
More realistic CAE with coupled analysis of Abaqus/STAR-CCM+.
- Structural Analysis
- Thermo-fluid analysis
- Stress Analysis
Case studies of 8 companies that have implemented 3D CAD/CAM "Fusion360"!
- 3D CAD
- 3D CAM
- Stress Analysis