List of Thermo-fluid analysis products
- classification:Thermo-fluid analysis
181~225 item / All 453 items
Reduce the workload from handling heavy objects! Here are five case studies that solved customer challenges! We are also accepting free consultations and tests tailored to your work!
- Other conveying machines
Presentation of explanatory materials on JIS and ISO standards. We propose suitable safety barriers from a rich product series! Free rental of demo kits.
- Other safety and hygiene products
Customize the general-purpose CAE software Jupiter to fit your business! Improve efficiency with Python! Reduce labor costs through automation!
- Thermo-fluid analysis
- Contract Analysis
- Stress Analysis
Created a model for large-scale analysis of FrontISTR using the large-scale compatible pre-software Jupiter.
- Stress Analysis
- Contract Analysis
- Thermo-fluid analysis
Notice of Addition to the Jupiter-FrontISTR Interface Catalog
We have added a catalog for the Jupiter-FrontISTR Interface. Jupiter and the open-source solver FrontISTR can now work together. There are examples of creating 200 million node models for FrontISTR, which have been introduced at research meetings. *This product is an add-on feature that runs on the general-purpose CAE pre/post processor Jupiter. *For more details, please contact us or view the PDF data from the download section.
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.
- Stress Analysis
- Thermo-fluid analysis
- Contract Analysis
Announcement of the addition of the Jupiter-Cabin Acoustic (Mesh modeling for in-vehicle sound analysis) product page.
Jupiter-Cabin Acoustic is a mesh modeling feature for cabin acoustic analysis. By using the dedicated functions of Jupiter-Cabin Acoustic, you can easily create high-precision analysis models. *For more details, please contact us or view the PDF data from the download section.
Maximum labor reduction rate for acoustic analysis modeling: 94%! Noise reduction and detailed post-processing through high-precision modeling.
- Stress Analysis
- Contract Analysis
- Thermo-fluid analysis
Added the audio analysis pre-post "Jupiter-Acoustic."
Jupiter-Acoustic is a pre-post processing tool for acoustic analysis, equipped with modeling for large-scale acoustic analysis and acoustic result processing intended for Actran.
General-purpose finite element method (FEM) solver built into Jupiter
- Stress Analysis
- Contract Analysis
- Thermo-fluid analysis
Notice of addition of product page for SunShine (general-purpose CAE solver)
We have added a product page for SunShine (a general-purpose CAE solver). SunShine is a general-purpose finite element method (FEM) solver built into Jupiter-Pre/Post. It is also possible to submit jobs using SunShine alone. You can consistently perform "Pre," "Solver," and "Post" processes on Jupiter. It is compatible with both Windows OS and Linux OS and can be executed in a different machine environment from Jupiter. The input and output file formats comply with Nastran. You can run it with your existing bdf format input files, and the output files are in op2 format. *For more details, please contact us or refer to the PDF data available for download.
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!
- Stress Analysis
- Contract Analysis
- Thermo-fluid analysis
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!
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
Added the fully automatic meshing feature 'Jupiter-OasisMesher'.
Jupiter-OasisMesher is a fully automated mesh generation feature. After setting the parameters in the table GUI, meshing of large assembly models is completed with a single click.
Significantly reduce the man-hours for hexagonal mesh modeling with fully automated meshing of multi-pass welds (heat-affected zones)!
- Stress Analysis
- Contract Analysis
- Thermo-fluid analysis
Added hex meshing for the weld area 'Jupiter-MuxWeld2'.
Jupiter-MuxWeld2 is a feature that creates hex mesh models for welding simulations. It significantly reduces the time required for hex meshing through fully automated mesh modeling of multi-pass welds (heat-affected zones). Additionally, various mesh controls are possible in other areas thanks to its rich functionality.
No installation required - an online viewer compatible with CAE that can be used in a web browser.
- Stress Analysis
- Contract Analysis
- Thermo-fluid analysis
Announcement of the publication of the CAE-compatible online viewer "TechnoStar Web Viewer" catalog.
We have published the catalog for the CAE-compatible online viewer "TechnoStar Web Viewer." TechnoStar Web Viewer can display CAD models, mesh models, and FEM analysis result models. Since it operates in a web browser, users do not need to install any software or applications.
Created a model for the fluid analysis solver OpenFOAM using Jupiter-CFD! Reduce licensing costs by switching from commercial solvers!
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
This is a technical document on ship structural mechanics by Professor Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University).
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
Added technical documentation on hull structural mechanics.
Mr. Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University / Special Technical Advisor of Technostar) provided explanations on various structural-related themes as a technical topic. ■ "What is Buckling? (Part 1)" ■ "What is Buckling? (Part 2)" ■ "What is Buckling? (Part 3)" ■ "What is Buckling? (Part 4) What is Secondary Buckling?" ■ "What is Buckling? (Part 5) Post-Final Strength Behavior" ■ "What is Span-Point?" ■ "The Effect of Initial Imperfections" ■ "What is Effective Width?"
This is a technical document on ship hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University).
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
Added technical documentation on hull structural mechanics.
Mr. Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University / Special Technical Advisor of Technostar) provided explanations on various structural-related themes as a technical topic. ■ "What is Buckling? (Part 1)" ■ "What is Buckling? (Part 2)" ■ "What is Buckling? (Part 3)" ■ "What is Buckling? (Part 4) What is Secondary Buckling?" ■ "What is Buckling? (Part 5) Post-Final Strength Behavior" ■ "What is Span-Point?" ■ "The Effect of Initial Imperfections" ■ "What is Effective Width?"
This is a technical document on ship hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University).
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
Added technical documentation on hull structural mechanics.
Mr. Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University / Special Technical Advisor of Technostar) provided explanations on various structural-related themes as a technical topic. ■ "What is Buckling? (Part 1)" ■ "What is Buckling? (Part 2)" ■ "What is Buckling? (Part 3)" ■ "What is Buckling? (Part 4) What is Secondary Buckling?" ■ "What is Buckling? (Part 5) Post-Final Strength Behavior" ■ "What is Span-Point?" ■ "The Effect of Initial Imperfections" ■ "What is Effective Width?"
This is a technical document on hull structural mechanics by Mr. Tetsuya Yao.
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
Added technical documentation on hull structural mechanics.
Mr. Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University / Special Technical Advisor of Technostar) provided explanations on various structural-related themes as a technical topic. ■ "What is Buckling? (Part 1)" ■ "What is Buckling? (Part 2)" ■ "What is Buckling? (Part 3)" ■ "What is Buckling? (Part 4) What is Secondary Buckling?" ■ "What is Buckling? (Part 5) Post-Final Strength Behavior" ■ "What is Span-Point?" ■ "The Effect of Initial Imperfections" ■ "What is Effective Width?"
This is a technical document on hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor at Hiroshima University / Emeritus Professor at Osaka University).
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
Added technical documentation on hull structural mechanics.
Mr. Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University / Special Technical Advisor of Technostar) provided explanations on various structural-related themes as a technical topic. ■ "What is Buckling? (Part 1)" ■ "What is Buckling? (Part 2)" ■ "What is Buckling? (Part 3)" ■ "What is Buckling? (Part 4) What is Secondary Buckling?" ■ "What is Buckling? (Part 5) Post-Final Strength Behavior" ■ "What is Span-Point?" ■ "The Effect of Initial Imperfections" ■ "What is Effective Width?"
This is a technical document on hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University).
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
Added technical documentation on hull structural mechanics.
Mr. Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University / Special Technical Advisor of Technostar) provided explanations on various structural-related themes as a technical topic. ■ "What is Buckling? (Part 1)" ■ "What is Buckling? (Part 2)" ■ "What is Buckling? (Part 3)" ■ "What is Buckling? (Part 4) What is Secondary Buckling?" ■ "What is Buckling? (Part 5) Post-Final Strength Behavior" ■ "What is Span-Point?" ■ "The Effect of Initial Imperfections" ■ "What is Effective Width?"
This is a technical document on hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University).
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
Added technical documentation on hull structural mechanics.
Mr. Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University / Special Technical Advisor of Technostar) provided explanations on various structural-related themes as a technical topic. ■ "What is Buckling? (Part 1)" ■ "What is Buckling? (Part 2)" ■ "What is Buckling? (Part 3)" ■ "What is Buckling? (Part 4) What is Secondary Buckling?" ■ "What is Buckling? (Part 5) Post-Final Strength Behavior" ■ "What is Span-Point?" ■ "The Effect of Initial Imperfections" ■ "What is Effective Width?"
This is a technical document on hull structural mechanics by Professor Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University).
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
Added technical documentation on hull structural mechanics.
Mr. Tetsuya Yao (Emeritus Professor of Hiroshima University / Emeritus Professor of Osaka University / Special Technical Advisor of Technostar) provided explanations on various structural-related themes as a technical topic. ■ "What is Buckling? (Part 1)" ■ "What is Buckling? (Part 2)" ■ "What is Buckling? (Part 3)" ■ "What is Buckling? (Part 4) What is Secondary Buckling?" ■ "What is Buckling? (Part 5) Post-Final Strength Behavior" ■ "What is Span-Point?" ■ "The Effect of Initial Imperfections" ■ "What is Effective Width?"
This is a shipbuilding technical document by Mr. Tetsuya Yao (Emeritus Professor at Hiroshima University / Emeritus Professor at Osaka University / Special Technical Advisor at Technostar).
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
Added shipbuilding technology materials from Professor Tetsuya Yao (Emeritus Professor at Hiroshima University / Emeritus Professor at Osaka University).
We have received permission from Mr. Yao to make the materials public, so we will release them for those involved in shipbuilding to view. ■ "Final Strength Evaluation of Longitudinal Bending of Hulls - Past; Present; Future -"
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
- Thermo-fluid analysis
- Stress Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
- Thermo-fluid analysis
- Stress Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical application with theory.
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical application and theory.
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical application with theory.
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
- Thermo-fluid analysis
- Contract Analysis
- Stress Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
- Thermo-fluid analysis
- Stress Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
- Thermo-fluid analysis
- Stress Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical application with theory.
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
This is a technical document (educational material) on CAE created by a former CAE manager, linking practical applications with theory.
- Thermo-fluid analysis
- Stress Analysis
- Contract Analysis
An analysis program optimal for simulating various behaviors such as injection molding and casting analysis.
- Thermo-fluid analysis
- Contract Analysis
- Analysis Services
Casting analysis program using the SPH particle method!
- Thermo-fluid analysis
- Contract Analysis
- Analysis Services
Introducing the "inverse analysis" feature that visualizes improvements in thermal design with just two analyses.
- Thermo-fluid analysis
Free trial application now open!
- Thermo-fluid analysis
[Inverse Analysis Case] Automatically Clear Design Target Values!? [Electronic Devices / Control Equipment]
FlowDesigner Inverse Analysis - Optimization of Flow Velocity by Changing Opening Ratio - As forced air cooling, how should the opening ratio of the opening ratio panel be designed to achieve a wind speed target of 8 m/s at the target? The inverse analysis function of FlowDesigner allows you to input the design target values you want to achieve and "reverse" determine where the conditions that need improvement are from the initial design proposal. In this video, we further utilize the automation function to "automatically" derive the opening ratio (shape of the opening) that achieves the design target! <<<【Free】Trial Version Applications Now Open!>>>
What can be done to "streamline" the consideration of the optimal layout plan?
- Thermo-fluid analysis
![[Case Study] Examination of the Arr...](https://image.mono.ipros.com/public/product/image/e20/2000557020/IPROS57856363781651891432.png?w=280&h=280){kind=small}
Visualizing the "direction to move" to promote cooling with the world's first inverse analysis technology!
- Thermo-fluid analysis
A thermal fluid analysis tool that goes beyond the limits of trial and error.
- Thermo-fluid analysis
[Inverse Analysis Case] Automatically Clear Design Target Values!? [Electronic Devices / Control Equipment]
FlowDesigner Inverse Analysis - Optimization of Flow Velocity by Changing Opening Ratio - As forced air cooling, how should the opening ratio of the opening ratio panel be designed to achieve a wind speed target of 8 m/s at the target? The inverse analysis function of FlowDesigner allows you to input the design target values you want to achieve and "reverse" determine where the conditions that need improvement are from the initial design proposal. In this video, we further utilize the automation function to "automatically" derive the opening ratio (shape of the opening) that achieves the design target! <<<【Free】Trial Version Applications Now Open!>>>
The world's first thermal fluid analysis tool that exceeds the limits of trial and error.
- Thermo-fluid analysis
[Case Study] Optimizing Heat Sink Placement through Inverse Analysis!
【FlowDesigner】 The world's first inverse analysis technology visualizes the "direction to move" for heat sinks! This next-generation simulation tool allows you to directly utilize design ideas through inverse analysis!
Visualizing improvement points with thermal conductivity sensitivity.
- Thermo-fluid analysis
You can instantly see where the problem lies! You are asked to identify "where the conditions that need improvement are" in a "reverse" manner.
- Thermo-fluid analysis
[Free Trial Version] Visualize improvements in thermal design with just 2 analyses! "Thermal Inverse Analysis" feature
FlowDesigner: The next-generation thermal fluid analysis software that transforms the trial and error of design. Directly utilize inverse analysis in design ideas! A simulation tool that significantly enhances design efficiency. In traditional thermal design, long hours of trial and error were spent to achieve design goals. There were also times when compromises had to be made due to the inability to meet design objectives. With the "inverse analysis" feature of the thermal fluid analysis software FlowDesigner, various improvement proposals can be visualized as "sensitivity" through just two analyses: "current proposal analysis" and "sensitivity analysis." This not only shortens the time spent on trial and error in thermal design but also makes it possible to discover improvement proposals that were previously unimaginable.