List of Structural Analysis products
- classification:Structural Analysis
586~600 item / All 640 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
Strong cold wind from room temperature to -13°C! Depending on the usage environment, you can choose between the combo type or the separate type!
- Cooling system
April 10, 2024 (Wednesday) to April 12, 2024 (Friday) Notice of Participation in Nagoya Manufacturing World 2024
Sanwa Shiki Ventilator Co., Ltd. will be exhibiting at the 2024 Monozukuri World (Nagoya) held at Port Messe Nagoya. We will also be showcasing our large cooling fans and cool/warm ambient products. Date: April 10, 2024 - April 12, 2024 Opening: 10:00 AM Location: Nagoya Port Messe (Exhibition Hall 1) *Our booth: 19-1 We would be grateful if you could visit us if you have the time.
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.
Rich analysis capabilities for all design challenges! We also provide consulting services.
- Structural Analysis
- Thermo-fluid analysis
- Analysis Services
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.
Achieve highly accurate fluid-structure interaction analysis! Easily implement complex formulation analysis settings!
- Structural Analysis
- Thermo-fluid analysis
- Analysis Services
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.
We provide constant support with a system that meets all needs.
- Technical Seminar
- Thermo-fluid analysis
- Structural Analysis
We want to meet all kinds of needs, so our services are flexible and diverse.
- Contract Analysis
- Thermo-fluid analysis
- Structural Analysis
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: 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.
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
Pedestrian and occupant safety analysis software that contributes to ensuring the safety of pedestrians and occupants.
- Structural 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
Affordable software for design, analysis, and manufacturing! 'Product Design & Manufacturing Collection'
- 3D CAD
- 3D CAM
- Structural Analysis
Supports the safety and longevity of civil engineering structures such as erosion control facilities and slope stabilization works!
- Structural Analysis
- others
We hold SOLIDWORKS experience seminars every month in Fukuoka City.
- 3D CAD
- Structural Analysis
- Other machine tools