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Structural Analysis Product List and Ranking from 36 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

Structural Analysis Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

  1. アイテス Shiga//Electronic Components and Semiconductors
  2. 一般財団法人材料科学技術振興財団 MST Tokyo//Testing, Analysis and Measurement
  3. テックインサイツジャパン株式会社(TechInsights) Tokyo//Service Industry
  4. 4 KRI Kyoto//Testing, Analysis and Measurement
  5. 5 null/null
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Structural Analysis Product ranking

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

  1. Defective analysis of liquid crystal panels アイテス
  2. Structural (FEM) Analysis
  3. High-temperature and low-temperature Raman structural analysis KRI
  4. Report: Detailed Structural Analysis of the MDM9235 Modem Logic テックインサイツジャパン株式会社(TechInsights)
  5. 5 Collection of 4 books on improvement cases for substrate mounting and soldering defects!

Structural Analysis Product List

46~60 item / All 81 items

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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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[Analysis Case] Local Crystal Structure Analysis of IGZO Film

[Analysis Case] Local Crystal Structure Analysis of IGZO Film

Continuous evaluation of crystallinity and orientation using electron diffraction.

IGZO films are materials that are being researched and developed as TFT materials for displays. The presence or absence of crystalline structure in the thin film may affect the TFT characteristics and reliability, necessitating local crystalline evaluation within the device. We will introduce a case where the crystalline structure in IGZO films was continuously evaluated using electron diffraction measurements from TEM.

  • Contract Analysis
  • Contract Inspection

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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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Analysis of the secondary structure of proteins in light water.

Analysis of the secondary structure of proteins in light water.

[Free Gift] Introducing a case study on the temperature dependence of protein secondary structure.

The components that make up living organisms all play important roles in life, and among them, proteins have a wide range of functions. Therefore, studying their fundamental properties is essential for understanding the mechanisms of life activities. Our "CONFOCHECK" enables qualitative and quantitative analysis of proteins in aqueous solutions, as well as dynamic analysis of changes in secondary structure. This document presents case studies on the temperature dependence of protein secondary structure using "CONFOCHECK." [Contents] ■ Introduction ■ Samples and Analysis System ■ Results ■ Conclusion ■ References *For more details, please refer to the PDF document or feel free to contact us.

  • Analytical Equipment and Devices

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[Use Case] Structural Analysis

[Use Case] Structural Analysis

It is a field of engineering that deals with the behavior of structures subjected to dynamic loads (vibrations).

Structural analysis is a field of engineering that deals with the behavior of structures subjected to dynamic loads (vibrations). While it is possible to accurately predict the behavior of structures under static loads, dynamic loads require parameters that are difficult to model, such as structural damping. Therefore, to accurately determine the response of structures to dynamic loads, it is necessary to conduct some form of structural analysis test, such as a modal test. Modal testing allows for the experimental determination of the modal parameters of a structure. Modal parameters include resonance frequency, damping, and mode shapes. The resonance frequency is the frequency at which the response is amplified significantly beyond the applied excitation force. When the excitation force is close to the structure's resonance frequency, it often leads to adverse effects, making it important to know the resonance frequency. Excessive vibrations caused by resonance can lead to fatigue failure, damage to delicate parts of the structure, and in extreme cases, structural collapse. For more details, please contact us.

  • Other network tools
  • Other information systems

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[Case Studies] CAE Analysis

[Case Studies] CAE Analysis

This is an introduction to examples of simulations conducted on a computer for structure, fluid, and heat transfer.

In this document, we introduce examples of "CAE analysis" that have been conducted. CAE refers to the simulation conducted on a computer to investigate whether the designed structure meets the required performance before actually manufacturing the object. We have included "structural analysis," which involves understanding the stress on the support bracket of a movable device, and "fluid analysis," which analyzes the flow of gas and the heat transfer among various parts within electronic devices. Please make use of this information. [Included Items] ■2-(1) Structural Analysis Examples ■2-(2) Fluid Analysis Examples ■2-(3) Heat Transfer Analysis Examples ■Additional Condition 2: Unsteady Analysis (Time History Analysis) *For more details, please refer to the PDF document or feel free to contact us.

  • Other analyses
  • Structural Analysis
  • Thermo-fluid analysis

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Report: Detailed Structural Analysis of the MDM9235 Modem Logic

Report: Detailed Structural Analysis of the MDM9235 Modem Logic

Detailed structural analysis of the 20 nm HKMG Qualcomm Gobi.

This report is a detailed structural analysis (LDSA) of the 20 nm node Qualcomm MDM9235 modem. The MDM9235 is the fourth generation Qualcomm Gobi 9x35 series modem and is the first modem from Qualcomm manufactured using a 20 nm CMOS process. The MDM9235 is paired with the Qualcomm Snapdragon 805 application processor to support 4G LTE-A Cat. 6 data rates (301.5 Mbps) and 4K video content. The MDM9235 is manufactured by TSMC using 10 layers of metallization (9-Cu, 1-Al), with 20 nm node high-k metal gate (HKMG) transistors fabricated on a bulk silicon substrate using a gate length process. It features a minimum contacted gate pitch of 90 nm. 【Features】 ○ Understanding of key design and manufacturing innovations ○ Informed technical resource investment decisions based on appropriate information For more details, please contact us or download the catalog.

  • Analysis Services

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Structural analysis of Adesto RM24EP128KS CBRAM

Structural analysis of Adesto RM24EP128KS CBRAM

Structural analysis of Adesto RM24EP128KS CBRAM

Adesto provides a technology that serves as an alternative to power-efficient, cost-effective flash memory, achieving long battery life for connected home devices such as home appliances, sensors, and monitors. CBRAM is seen as a promising successor to flash memory, offering cost and power savings. Adesto's CBRAM excels in energy efficiency, is CMOS compatible, and is designed for discrete and embedded memory applications. TechInsights' structural analysis report includes detailed layer-by-layer (LbL) analysis of the device structure, manufacturing processes, and compositions, as well as critical dimension measurements of general features, gate lengths and pitches, channel lengths, diffusion layer depths, well depths, field oxide thicknesses, and gate oxide thicknesses.

  • Other electronic parts

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Panasonic ReRAM 8-bit microcontroller structural analysis

Panasonic ReRAM 8-bit microcontroller structural analysis

Panasonic ReRAM-equipped MN101LR05D 8-bit microcontroller

The MN101LR05D is a low-power 8-bit single-chip microcontroller developed for portable healthcare, security devices, and sensor processing. The MN101LR05D features a CPU core with a 10MHz 8-bit AM13L, 64KB of ReRAM capacity, and 4KB of SRAM capacity. The MR101LR05D is the world's first mass-produced practical example of ReRAM (Resistive RAM), and it is expected to be widely utilized as a successor technology to existing non-volatile memory. The MN101LR05D is manufactured using a 180nm CMOS process with four layers of AI metallization. The ReRAM cell of this metal oxide is formed between stack W vias connecting metal 3 to metal 4. The results of the report are based on data from scanning electron microscopy (SEM), transmission electron microscopy (TEM), energy-dispersive X-ray analysis (TEM-EDS), electron energy loss spectroscopy (TEM-EEKS), and spreading resistance measurement (SRP).

  • Other electronic parts

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"Contract analysis, commissioned analysis, and subcontracting for CAE" Structural analysis

"Contract analysis, commissioned analysis, and subcontracting for CAE" Structural analysis

Structural analysis is important for product design, shape optimization, and troubleshooting. Experienced engineers will propose appropriate analysis methods tailored to the customer's analysis objectives.

Structural analysis is used to identify fundamental issues in products. It helps to confirm how much force is generated, how much deformation occurs, and can be utilized for safety verification and quality improvement. It is utilized in various fields such as automotive, aerospace, railways, shipping, plants, industrial machinery, construction machinery, civil engineering, and the medical field. **Features** - Proposal-based contract analysis by experienced engineers. - Suggestions for condition setting considerations and improvement measures based on analysis results. - Thorough pursuit of "high quality," "short delivery times," and "cost performance." - The software used includes globally trusted and high-precision tools such as 'ABAQUS' and 'NASTRAN.' - High repeat rate. **Examples of Target Products** - Automobiles - Aircraft - Railways - Ships - Plant equipment (pressure vessels, piping, etc.) - Construction machinery - Machine tools and presses - Molds and jigs - Semiconductor devices - Robot arms - Industrial equipment - Bridges and dams - Medical devices and nursing equipment It is utilized in various areas. For more details, please request materials or view the PDF data available for download.

  • Contract Analysis
  • Analysis Services
  • Structural Analysis

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Sample analysis case video (animation)

Sample analysis case video (animation)

We would like to introduce a sample video (animation) of the analysis case. We hope it serves as a reference for one of the output images of the analysis results.

Our company is engaged in analysis problems across a wide variety of industries. We would be honored if you could take a look at specific analysis samples and find hints for solving the issues you face. In addition to these samples, we have many other achievements, so please feel free to consult us with questions like, "Can you perform this kind of analysis?" or "I am troubled by this kind of problem," and we will be happy to respond.

  • Contract Analysis
  • Analysis Services
  • Structural Analysis

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[Next Generation Sequencing Analysis Case] 16S rRNA Amplicon Analysis

[Next Generation Sequencing Analysis Case] 16S rRNA Amplicon Analysis

Introducing the results of microbial community structure analysis, including principal coordinate analysis and rarefaction curves! *Case study collection available.

We would like to introduce our in-house data on soil samples. This data consists of the results of analyzing four samples from four locations. Approximately 100,000 reads have been obtained for each sample using MiSeq. The delivered data includes files in HTML format, and graphs can be viewed in a web browser, so please check them out via the related links. 【Overview】 ■ Results of microbial community structure analysis using the V4 region of 16S rRNA (classification at the phylum level) ■ OTU heatmap ■ Principal Coordinate Analysis (PCoA) *Optional ■ Rarefaction curve *Optional *For more details, please refer to the PDF materials or feel free to contact us.

  • Contract Analysis

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Technical Information Magazine 202001-02 Crystal Structure Analysis of Gallium Oxide

Technical Information Magazine 202001-02 Crystal Structure Analysis of Gallium Oxide

The technical information magazine The TRC News provides the latest information on analytical techniques that are useful for research and development, solving production troubles, and quality control.

**Abstract** Gallium oxide (Ga2O3) is attracting attention as a next-generation power semiconductor material, and research has been actively conducted in recent years. Optimizing process technology is essential for improving the reliability and characteristics of semiconductor devices, making the evaluation methods crucial. This paper presents examples of crystal structure analysis necessary for assessing the quality of epitaxial films, as well as the analysis of impurities, defects, and carrier concentration in the ion implantation process, which significantly impacts device characteristics. **Table of Contents** 1. Introduction 2. Crystal structure analysis using cross-sectional TEM and planar STEM 3. Evaluation of the ion implantation process 4. Conclusion

  • Contract Analysis
  • Contract measurement
  • Technical and Reference Books

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