List of Design and production support products
- classification:Design and production support
5806~5850 item / All 12537 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.
Examples using theoretical solutions without electromagnetic field analysis are provided! Explanations will be accompanied by diagrams and graphs!
- Other analyses
An example analysis of filling a cylindrical cavity with rubber material is presented! Functions necessary for calculating rubber materials are explained.
- Other analyses
Foam the material in a cylindrical container and measure the time change in volume! Explanation of the comparison with calculation results!
- Other analyses
An explanation of the basic wave generation function and application examples are provided! By using OpenFOAM, various fluid analyses can be conducted.
- Other analyses
Published the analysis model of the simulation! Introducing the accuracy verification experiment of the multiphase flow analysis solver.
- Other analyses
Examples of the applicable use of rotatingWallVelocity are provided! We will explain it clearly using diagrams!
- Other analyses
Explanation and application examples of code-embedded boundary conditions! A color map of velocities on a vertical cross-section parallel to the flow velocity is provided.
- Other analyses
In DEM, a large number of particles takes a long time to compute! Here’s a method to avoid this!
- Other analyses
Reproduction of the washing excavation phenomenon is possible! A simple explanation of DEM calculation methods and the computational functions of DEM software!
- Other analyses
Automotive impact analysis is a typical dynamic analysis! A diagram of automotive side impact analysis using LS-DYNA is included!
- Other analyses
There are three main types of CAD data handled in CAE analysis! Technical information useful for CAE practice explained in a Q&A format.
- Other analyses
Introducing various books as references for nonlinear structural analysis using the finite element method!
- Other analyses
We propose additional features for any insufficient functionalities! We also offer specialized seminars and consulting services.
- Structural Analysis
Introducing a solver that adopts the finite element method to calculate unknowns (such as pressure, velocity, and temperature) at the nodes!
- Structural Analysis
An experienced CAE engineer will carry out a series of analysis tasks.
- Contract Analysis
We have a rich variety of over 200 material property models! It is possible to configure various materials.
- Structural Analysis
Creation of shape data, physical conditions/mesh creation, examination of results! We have extensive analysis experience.
- Magnetic field analysis/electromagnetic wave analysis
Analysis across a very wide frequency range without loss of accuracy! Equipped with windscreen antenna functionality.
- Structural Analysis
Applying the optimal values obtained from optimization calculations to pressure boundary conditions! Here is a case study of explosive source characteristic analysis.
- Structural Analysis
The water confinement effect is more powerful compared to air explosions! This is a case that shows the destruction situation of the RC version is significantly different.
- Structural Analysis
Cooling water absorbs heat from the metal pipe while flowing! The solver uses the high-precision version R10.1.0 of MPPDYNA.
- Structural Analysis
The solver uses the high-precision version R10.1.0 of MPPDYNA! Water absorbs the heat from the mold, causing the temperature to rise.
- Structural Analysis
Even in cases where strong geometric nonlinearity is present, "LS-DYNA (explicit method)" will follow!
- Structural Analysis
Check the effects of settings that allow fluid mesh movement to follow the structure!
- Structural Analysis
It is expected that the calculation time can be significantly reduced without greatly affecting the results!
- Structural Analysis
Reproducing the "constricted" compression shape of a coil! Here is an example applied to a high magnetic field generation method.
- Structural Analysis
Calculated up to 3 μsec! The analysis results and experimental results for the magnetic field generated at the center of the coil match well!
- Structural Analysis
The material is polycarbonate! It is important to set the fracture strain considering the strain rate dependence!
- Structural Analysis
Reproduce the exam results! Conduct optimization calculations using the coordinates of control points as design variables.
- Structural Analysis
Ideal as a development and design tool! When performing plastic deformation analysis with "LS-DYNA," it is done using dynamic explicit methods.
- Structural Analysis
Destruction criteria can be given independently for each, and if one of them is satisfied, the element will be eliminated!
- Structural Analysis
The "MPP version of LS-DYNA" offers a remeshing feature that takes into account the density of the mesh!
- Structural Analysis
For drop and impact analysis, we introduce the concept of "impact force considering the propagation of stress waves" for analytical calculations!
- Structural Analysis
It has been demonstrated that it is possible to examine the acceleration occurring in buildings and the damage to the buildings!
- Structural Analysis
It is possible to analyze the fracture behavior without causing mass and energy loss due to element removal!
- Structural Analysis
Modeling the net and support pillars to simulate the impact of a rigid sphere of falling rocks!
- Structural Analysis
Modeled by the particle method (SPH)! The SPH water and Lagrange rotor blades apply contact conditions.
- Structural Analysis
The aircraft is composed of shell elements with actual collision intensity equivalent! Introducing examples in aviation.
- Structural Analysis
The initial buckling location is in the body due to the increase in strength at the bottom! Here is an analysis case using "Ansys LS-DYNA."
- Structural Analysis
We present a case where considering anisotropic materials resulted in predictions that prevent cracking!
- Structural Analysis
The evaluation method is FLD (Forming Limit Diagram)! JSTAMP allows for analysis by inheriting the conditions from the previous process.
- Structural Analysis
Check the FLD (Forming Limit Diagram)! It is predicted that cracks are likely to occur near the edges of the holes indicated in red!
- Structural Analysis
By considering the plastic Poisson's ratio, the deformation behavior of resin parts can be accurately reproduced!
- Structural Analysis
Speedy and versatile mesh creation possible! High-speed, high-performance general-purpose CAE modeling.
- simulator
A GUI (Graphical User Interface) that anyone can intuitively operate reduces the user burden when generating OpenFOAM input files.
- Analysis Services