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Structural Analysis - メーカー・企業36社の製品一覧とランキング

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Structural Analysisのメーカー・企業ランキング

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  1. 一般財団法人材料科学技術振興財団 MST Tokyo//Testing, Analysis and Measurement
  2. アイテス Shiga//Electronic Components and Semiconductors
  3. マーブル  エンベデッドプロダクト事業本部 プロダクト事業部 Tokyo//IT/Telecommunications
  4. 4 null/null
  5. 5 東レリサーチセンター Tokyo//Service Industry
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Structural Analysisの製品ランキング

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  1. Defective analysis of liquid crystal panels アイテス
  2. Affordable and easy-to-use CADTOOL Frame Structure Analysis 12 3D マーブル  エンベデッドプロダクト事業本部 プロダクト事業部
  3. Technical Calculation Software CADTOOL Frame Structure Analysis 12 2D マーブル  エンベデッドプロダクト事業本部 プロダクト事業部
  4. For three-dimensional skeletal structure calculations! CADTOOL Frame Structure Analysis 12 3D
  5. 4 IC failure analysis アイテス

Structural Analysisの製品一覧

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[Structural Analysis Example] Collision Analysis Side Crash of a Car

[Structural Analysis Example] Collision Analysis Side Crash of a Car

For drop and impact analysis, we introduce the concept of "impact force considering the propagation of stress waves" for analytical calculations!

In considering shock analysis, there are (1) shock forces derived from absorbed energy, (2) shock forces derived from the equations of motion of rigid bodies, and (3) shock forces derived from the propagation of stress waves. (1) refers to the stress at the maximum deformation displacement when the deformable body is impacted. (2) is determined from the equilibrium of the inertial force of the colliding object (rigid body) and the reaction force from the deformable body, while (3) introduces the concept of stress waves. In 'LS-DYNA', the approach of (3) is incorporated for analysis calculations in drop and impact analysis. [Overview] ■ (1) Shock forces derived from absorbed energy - The stress is considered at the maximum deformation displacement when the deformable body is impacted. - It is assumed to occur not at the moment of impact, but when the deformation of the deformable body reaches its maximum after the impact. *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis

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[Structural Analysis Example] Simulation of Seismic Isolation Building Wall Collision Due to Earthquake

[Structural Analysis Example] Simulation of Seismic Isolation Building Wall Collision Due to Earthquake

It has been demonstrated that it is possible to examine the acceleration occurring in buildings and the damage to the buildings!

We will introduce a case study of seismic response analysis of a seismic isolation nuclear power plant building and retaining wall ground model, taking into account the nonlinearity of the seismic isolation devices and concrete cracking when exceeding the design seismic motion. The ground is modeled using solid elements, the building with shell elements, the internal concrete (I/C) and foundation slab with solid elements, and the seismic isolation devices with beam elements. As a result, it was observed that in a wide area around the reactor containment vessel (PCCV), the surrounding building (REB), and the retaining wall, in-plane cracking occurred in both the in-plane 1 direction and in-plane 2 direction due to the collision between the building and the retaining wall. 【Analysis Settings】 ■ After self-weight loading, seismic waves were simultaneously input in two horizontal directions and vertically (2/3 of the horizontal) at the bottom surface of the lower foundation slab. ■ The input seismic waves used were three times the Japan Architectural Center simulated seismic wave BCJ-L2. *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis

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[Structural Analysis Example] Penetration Analysis of Reinforced Concrete Walls Using SPG

[Structural Analysis Example] Penetration Analysis of Reinforced Concrete Walls Using SPG

It is possible to analyze the fracture behavior without causing mass and energy loss due to element removal!

We present a case study of a rigid body engine colliding with a rebar-free concrete wall modeled using SPG. By using SPG, it is possible to analyze the failure behavior without causing mass and energy loss due to element deletion. With the SPG control parameters added in Ver.R10, the stability of particle behavior in brittle fracture analysis, such as collisions and penetrations of concrete materials, has improved. 【Concrete Material】 ■MAT_DAMAGE_CONCRETE_REL3 ■Density: 2.3×10-9 ton/mm3 ■Poisson's Ratio: 0.2 ■Young's Modulus: 25920 MPa ■Compressive Strength: 30 MPa ■Tensile Strength: 2.9 MPa *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis

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[Structural Analysis Example] Coupled Problem 2 Using Particle Method (SPH)

[Structural Analysis Example] Coupled Problem 2 Using Particle Method (SPH)

The aircraft is composed of shell elements with actual collision intensity equivalent! Introducing examples in aviation.

We will introduce the analysis of aircraft water landing behavior. The airplane is composed of shell elements that have equivalent impact strength. The number of nodes is 143,242, and the number of elements is 144,223 (Shells 8,691, SPH 135,542). In the related links below, we present the analysis results in images, so please take a look. 【Case Overview】 ■ Water is represented by SPH elements ■ The airplane is composed of shell elements that have equivalent impact strength ■ Number of nodes: 143,242 Number of elements: 144,223 (Shells 8,691, SPH 135,542) ■ Analysis time: 4.0 seconds Computation time: 34 hours 22 minutes ■ PC CPU: Core 2 Duo 64 bits×2 3.33GHz used *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis

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[Structural Analysis Example] Buckling Analysis of an Empty Can

[Structural Analysis Example] Buckling Analysis of an Empty Can

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."

We will introduce an analysis example that evaluates the buckling load and buckling shape of an empty can compressed in the vertical direction. In buckling analysis, even slight errors in the initial shape can lead to buckling behavior. Even if the analysis data has the same plate thickness, basic shape, and material properties, considering initial imperfections causes the initial buckling location to change from the bottom to the body. Additionally, when considering work hardening at the bottom of the empty can, the strength of the bottom increases, resulting in the initial buckling location being at the body. In the related links below, we present the analysis results in a video, so please take a look. [Summary] - Even if the analysis data has the same plate thickness, basic shape, and material properties, considering initial imperfections causes the initial buckling location to change from the bottom to the body. - When considering work hardening at the bottom of the empty can, the strength of the bottom increases, resulting in the initial buckling location being at the body. *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis

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Structural analysis for the design of mechanical structures.

Structural analysis for the design of mechanical structures.

This is a structural analysis CAE for the design of mechanical structures by TechnoSolver Corporation.

Design support based on the design and analysis methods of CFRP components cultivated through the design of space structures Structural analysis CAE for mechanical structures by TechnoSolver 【Features】 ○ Contracted structural analysis services ○ Technical consulting for structural analysis - To apply the structural analysis software NASTRAN to actual issues, we provide comprehensive support from the selection of analysis evaluation methods to the optimization of design. ○ Consulting for the introduction of structural analysis - We propose the most suitable analysis system for customers considering the introduction of structural analysis. - Engineer training ○ Technical consulting related to structural testing - We propose testing evaluation methods to verify the validity of design results. - Support for planning and drafting tests, analyzing and evaluating test data, and validating structural analysis models, as well as building the necessary technology. ● For more details, please download the catalog or contact us.

  • Other analyses
  • Structural Analysis
  • Thermo-fluid analysis

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Structural analysis

Structural analysis

Improvements in design quality, reduction in man-hours for prototyping and experimentation, and shortening of development periods can be expected.

By utilizing structural analysis, we can expect improvements in design quality regarding product strength, reductions in the man-hours for prototypes and experiments, and a shortening of the development period. Our company supports designers facing strength-related issues with products and components through our extensive expertise and analysis techniques.

  • Injection Molding Machine
  • Structural Analysis
  • Stress Analysis

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Heideck Hendo

Heideck Hendo

Providing the desired technology with expertise and know-how in resin! 【Analysis】

Hondoku Idec provides analysis technology with expertise and know-how in resin. 【Features】 ○ Structural Analysis By utilizing structural analysis, improvements in design quality regarding product strength, reduction of man-hours for prototypes and experiments, and shortening of development periods can be expected. ○ Resin Flow Analysis During product design, evaluating moldability before mold design enhances design quality, reduces defects that may occur in later processes, and streamlines the development process. ● For more details, please contact us or download the catalog.

  • 3D CAD

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Structural analysis of prismatic Li-ion batteries.

Structural analysis of prismatic Li-ion batteries.

Observation using optical microscopy and ultra-low acceleration FE-SEM! Detailed structural analysis and elemental analysis are possible.

By mechanically polishing commercially available rectangular Li-ion batteries and observing them with optical microscopy and ultra-low acceleration FE-SEM, detailed structural analysis and elemental analysis can be performed. The materials introduce the overall structure of the Li-ion battery and detailed structural observations of the Li-ion battery using SEM and ultra-low acceleration FE-SEM through photographs. [Analysis Overview] ■ Overall structure of the Li-ion battery and SEM observation ■ Detailed structural observation of the Li-ion battery using ultra-low acceleration FE-SEM *For more details, please refer to the PDF materials or feel free to contact us.

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  • Analysis Services
  • Other contract services

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Structural analysis of Nylon 6.10

Structural analysis of Nylon 6.10

We will elucidate the characteristics at the molecular level using our FT-IR and thermal decomposition GC-MS!

At AITES, we are conducting a structural analysis of Nylon 6.10. Nylon possesses flexibility and a texture similar to silk, while also having high strength and durability that natural fibers do not have, described as "stronger than steel and finer than a spider's silk." We will elucidate these characteristics at the molecular level using our FT-IR and pyrolysis GC-MS. 【Nylon 6.10 Interfacial Polymerization Reaction Mechanism】 1. Electron withdrawal by chlorine leads to a deficiency of electrons in adjacent carbon. 2. The non-bonding electrons of the amine attack the carbon as a nucleophile. 3. The oxygen atom is activated to form an unstable intermediate. 4. Hydrogen chloride is eliminated, forming an amide bond. 5. Interfacial polymerization progresses, resulting in polymerization. *For more details, please refer to the PDF document or feel free to contact us.

  • Contract Analysis

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Analysis of defects in overseas manufactured displays.

Analysis of defects in overseas manufactured displays.

Numerous achievements in defect analysis! Detailed analysis is possible, from confirming phenomena to hypothesizing the mechanisms of defect occurrence.

Our company conducts "defect analysis of overseas manufactured displays." We can perform detailed analysis from confirming the phenomenon, hypothesizing the defect occurrence mechanism, to narrowing down the production processes that caused the issue. We carry out lighting observations, panel disassembly, and optical microscope observations tailored to the defect symptoms. If it is necessary to narrow down the defective areas and conduct detailed analysis, we will propose appropriate methods. 【Examples of detailed analysis (partial)】 ■ Cross-sectional observation of wiring ■ Foreign object analysis ■ Liquid crystal component analysis ■ Electrical characteristic measurement *Additional costs will be incurred. *For more details, please refer to the PDF document or feel free to contact us.

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  • LCD display

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[Analysis Case] Evaluation of Crystal Structure by Micro XRD Analysis

[Analysis Case] Evaluation of Crystal Structure by Micro XRD Analysis

XRD measurements in micro areas are possible.

We will introduce a case where XRD measurements were conducted by narrowing the X-ray beam to Φ400μm, allowing us to obtain crystal information targeting a specific area rather than the entire surface. In the XRD measurement results of the printed circuit board sample, Cu and BaSO4 were detected at all measurement points (1) to (3), and a peak from Au was detected at the measurement point (1), which is the electrode. This aligns well with the results from XRF measurements. Thus, it is possible to identify crystal structures by targeting regions of several hundred micrometers with different compositions and crystallinities. Measurement methods: XRD, XRF Product fields: LSI, memory, electronic components Analysis purposes: Composition evaluation, identification, structural evaluation For more details, please download the materials or contact us.

  • Contract Analysis

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Extreme point measurement

Extreme point measurement

XRD: X-ray diffraction method

Pole figure measurement is a method that focuses on specific crystal planes and evaluates the distribution of crystal orientations by directing X-rays from various directions onto the sample. The detector is fixed at the diffraction angle (2θ) of the crystal plane of interest, and the two parameters, α (the tilt angle of the sample) and β (the in-plane rotation angle of the sample), are varied to measure crystal planes tilted in all directions. This indicates that the crystal orientations are concentrated in the directions where high diffraction intensity is observed. Additionally, the measurement results are represented in a pole figure as shown in the diagram at the bottom right.

  • Contract Analysis

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