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evaluation Product List and Ranking from 123 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Apr 15, 2026~May 12, 2026
This ranking is based on the number of page views on our site.

evaluation Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Apr 15, 2026~May 12, 2026
This ranking is based on the number of page views on our site.

  1. アフロディ 本社 Tokyo//Optical Instruments
  2. 日本レーザー Tokyo//Electronic Components and Semiconductors
  3. null/null
  4. 4 一般財団法人材料科学技術振興財団 MST Tokyo//Testing, Analysis and Measurement
  5. 5 null/null
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evaluation Product ranking

Last Updated: Aggregation Period:Apr 15, 2026~May 12, 2026
This ranking is based on the number of page views on our site.

  1. Evaluation of Display Spatial Resolution (Spatial Resolution Assessment) アフロディ 本社
  2. Pellet and Powder Foreign Matter Inspection Device - High-Speed Evaluation of Particle Size, Color, and Shape 日本レーザー
  3. [Technical Report Presentation] Stress Analysis and Fatigue Strength Evaluation in Gas Engine Development
  4. 4 Are you troubled by the high costs? A simple performance evaluation of lithium batteries. 株式会社日本蓄電池
  5. 5 Evaluation of BET specific surface area of No. 3 activated carbon (Type I adsorption isotherm)

evaluation Product List

121~150 item / All 391 items

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Package Research and Package Testing: Methods and Selection for Design Evaluation

Package Research and Package Testing: Methods and Selection for Design Evaluation

We will also introduce the advantages and disadvantages of package testing, as well as key points and precautions!

Package testing is a method of conducting market research before the launch to determine how well the product's package design is accepted by consumers. It involves presenting several package mock-ups or actual products to the target demographic and investigating questions such as "Would you want to buy a product with this design?", "Which design would you most want to buy?", and "What kind of product image do you have from this design?" When consumers choose a product, both the contents of the product and the packaging are significant factors. No matter how high the quality or performance of the product, if the impression of the packaging is poor, consumers may not even pick it up, let alone make a purchase. Therefore, package testing becomes a crucial step that can determine success in the market. In this article, we will explain the advantages and disadvantages of package testing, key points to consider when conducting it, and research methods. *For detailed content of the column, you can view it through the related links. For more information, please feel free to contact us.*

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Utilization of the 5-point rating scale (Likert scale) in surveys

Utilization of the 5-point rating scale (Likert scale) in surveys

Explanation of the rating scale method and points to note when using the Likert scale!

Have you ever seen a survey that asks about the degree of agreement using multiple choice options? The method of having respondents evaluate a specific object or phenomenon according to a pre-established clear evaluation scale is called the "rating scale method," and that evaluation scale is referred to as the "Likert scale." The Likert scale originates from an American sociologist and has now become one of the representative means of measuring respondents' opinions, perceptions, and behaviors. Since the Likert scale does not require respondents to answer with clear-cut facts, it allows for the collection of degrees or variations even for questions that are difficult to answer in black and white, enabling deeper analysis of surveys. It is also widely used in multivariate analysis. *For more detailed content of the column, you can view it through the related links. Please feel free to contact us for more information.

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Truck driver performance evaluation

Truck driver performance evaluation

Building objective facts and dispelling distrust through interviews! An explanation of points to consider when conducting evaluations.

In Japan, it has been a long time since the transition from a seniority-based system to a merit-based and performance-based system regarding personnel systems, including salary structures, raises, and promotions. The personnel evaluation system is a crucial foundation for this merit-based and performance-based approach. It is believed that some form of personnel evaluation is conducted in almost all companies, organizations, and institutions, including public agencies. In this article, I would like to examine the main evaluation criteria commonly used for evaluating truck drivers while considering the difficulties in implementation and points to keep in mind when conducting evaluations. *For more details, please refer to the related links. Feel free to contact us for more information.*

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Performance evaluation of electric vehicles

Performance evaluation of electric vehicles

We respond to various needs, including those in the automotive sector and its surrounding fields, and we accept commissioned testing and research.

Performance evaluation tests for various electric vehicles (EVs, PHEVs, fuel cell vehicles), such as driving range on a single charge, are possible. ● AC charging energy consumption rate ● Power consumption rate during driving ● Driving range on a single charge ● Climbing performance ● Vehicle efficiency ● Power distribution Please feel free to contact us regarding testing facilities or commissioned tests.

  • Contract Analysis
  • evaluation

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Performance evaluation of automotive drive motors

Performance evaluation of automotive drive motors

We respond to various needs, including those related to automobiles and their surrounding fields, and we accept commissioned testing and research.

In a motor dynamometer, the following performance evaluations are possible: ● Motor and inverter ratings and maximum output - Affects acceleration performance and maximum speed of vehicles such as cars ● Motor and inverter efficiency - Affects driving range and energy consumption rate of vehicles such as cars ● Motor speed-torque characteristics (N-T characteristics) - Evaluates indicated values and actual values, temperature, efficiency, output, etc., in a mapped format ● Performance evaluation of design and actual machine - Performance evaluation of materials under motor conditions We have prepared three motor dynamometers with different absorption and drive capacities, allowing for the selection of testing equipment according to the customer's specimen. Additionally, for evaluating the durability of motors, a durability testing device using an intermediate shaft system and inverter emulator is also available.

  • Contract Analysis
  • evaluation

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Fatigue evaluation of non-ferrous, non-metallic materials

Fatigue evaluation of non-ferrous, non-metallic materials

Fatigue evaluation of non-ferrous and non-metallic materials (short fiber reinforced resin / CFRP laminated materials / rubber, etc.)

1) Current Challenges The technology for predicting fatigue strength against repeated deformation provided by our company, along with our in-house developed software FEMFAT, can be applied to structural components of any product, helping to prevent cracks that may occur within the product's service life and supporting the optimal design of structural components. 2) Features of the Technology Using the software FEMFAT, which incorporates our developed fatigue strength prediction method, along with commercially available simulation software, enables optimal design of structural components for products that incorporate non-ferrous materials (such as short fiber reinforced resins made from glass or carbon, CFRP laminates, and rubber materials) and non-metal materials (such as solder, pure aluminum, and copper). Our developed software FEMFAT is utilized by automotive companies, automotive parts suppliers, and various industrial machinery sectors, contributing to the optimal design of structural components. 3) Effects of Technology Application By predicting fatigue strength and optimizing structural components before prototyping products or parts, we contribute to reducing time-consuming durability tests, lightweighting structural components, and optimizing manufacturing costs of products.

  • Stress Analysis
  • Contract Analysis
  • Structural Analysis
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FEMFAT spectral extension module: Vibration fatigue strength evaluation

FEMFAT spectral extension module: Vibration fatigue strength evaluation

It can significantly reduce the computation time for fatigue life analysis, which requires extensive time series data analysis.

In highly random excitation mechanisms (such as vibrations caused by bench tests or road surface inputs), analyzing vast amounts of time series data requires significant computational costs. FEMFAT spectral provides the optimal solution to this challenge. By directly performing damage calculations from multi-axis time series inputs in the frequency domain (random response fatigue), it can significantly reduce the computation time for fatigue life analysis. To achieve this, FEMFAT spectral transforms data into the frequency domain known as PSD (Power Spectral Density). This allows for damage calculations under multi-axis loading conditions to be executed directly in the frequency domain. In many application cases, the excitation loads are not completely independent. Therefore, FEMFAT spectral offers the option to consider the correlation between individual excitation loads by defining the cross power spectral density (cross PSD). Utilizing cross PSD provides an additional advantage by allowing the equivalent stress PSD to be statistically formed correctly. *For more details, please download the PDF or contact us.*

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  • Structural Analysis
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[Material] Course on the Principles of Naming Impressions

[Material] Course on the Principles of Naming Impressions

How does naming influence consumers? Here are some helpful tips.

This document introduces a course on the principles of naming, conducted by the COO of Kansei AI Inc. and the Vice President of the University of Electro-Communications. It provides detailed explanations on tips for creating hit product names, as well as the effects of naming for different product categories. Additionally, it summarizes an AI system that evaluates the impression of product names. [Contents] ■ Tips for creating hit product names ■ The connection between the sound of names and their impressions ■ The effects of naming for different product categories ■ AI that evaluates naming *For more details, please download the PDF or feel free to contact us.

  • Business Intelligence and Data Analysis
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Antitumor evaluation

Antitumor evaluation

It can also be implemented using the provided cell lines! Here is an example of evaluation where human pancreatic cancer cells were transplanted into mice.

We would like to introduce our "Anti-Tumor Evaluation" conducted at our company. Animal experiments are carried out under an environment that considers the spirit of animal welfare, with advanced techniques and thorough breeding management. It is also possible to conduct experiments using other cell lines or provided cell lines. 【Example of Pancreatic Cancer Evaluation】 ■ Animal Used: Nude Mice (8 weeks old, male, Japan Clea) ■ Cells: Human Pancreatic Cancer (BxPC-3, Panc-1) ■ Transplantation: Pancreas ■ Dissection: 42 days after transplantation, 56 days after transplantation *For more details, please refer to the PDF document or feel free to contact us.

  • Animal cells
  • evaluation

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Briquette quality evaluation

Briquette quality evaluation

From product evaluation to optimal formulation calculation, we meet our customers' needs!

At the Technical Research Institute, we are passing down the know-how of "hardening" technology while conducting raw material property evaluations using various testing machines and performing "briquette quality assessments." Staff with operational experience consider the production process, carefully selecting formulations that offer high cost performance and enhance material quality. We calculate optimal formulations tailored to our customers' needs. Please feel free to contact us when you require our services. 【Briquette Quality Assessment】 ■ Crushing Strength ■ Drum Strength ■ Drop Strength ■ Apparent Density *For more details, please refer to the PDF document or feel free to contact us.

  • Contract Inspection
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Sunlit Seedlings Co., Ltd. Technology Introduction

Sunlit Seedlings Co., Ltd. Technology Introduction

Analysis of ecosystem status, analysis of "core" within the ecosystem, and exploration and resource utilization of useful organisms!

We would like to introduce our technology. "Ecological condition analysis" that obtains vast amounts of information on biodiversity, and "Core analysis within ecosystems" that identifies "core species" playing a central role in ecosystems. Additionally, we have technology for efficiently exploring biological resources based on extensive data related to biodiversity and ecosystems. 【Examples of technology application in agriculture and forestry】 ■ Soil sampling ■ Sampling in agricultural fields ■ Obtaining and analyzing biological information ■ Ecological and information science analysis to interpret relationships ■ Accumulation of databases *For more details, please refer to the related links or feel free to contact us.

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Musculoskeletal Model Muskejo: Mechanical Evaluation of Meniscal Tears

Musculoskeletal Model Muskejo: Mechanical Evaluation of Meniscal Tears

Muskejo is the world's first musculoskeletal model capable of biomechanical analysis at the joint tissue level.

Based on the musculoskeletal model Muskejo, it is possible to investigate the impact of tears in various parts of the meniscus on the biomechanics of the knee. Therefore, it can contribute to the development of preventive methods and navigation for surgical procedures.

  • Contract Analysis
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HGMD Professional Human Germline Mutation Rapid Assessment

HGMD Professional Human Germline Mutation Rapid Assessment

Reduction of the burden of evaluating human germline mutations; comprehensive database of causative gene mutations for human hereditary diseases; adopted by renowned institutions such as NHS England.

The Human Gene Mutation Database (HGMD) Professional is a comprehensive database that catalogs gene mutations responsible for human hereditary diseases. Today, an average of over 110 new mutations are reported daily (from 2021 to 2023), and the high comprehensiveness of HGMD Professional makes this database a valuable and unique resource. Additionally, the information collected by genetics experts who read the actual papers is of high quality. **Features** - High comprehensiveness (comprehensively includes gene mutations responsible for hereditary diseases published in papers: approximately 510,000 mutations as of September 2024) - High quality (the information is collected by experts who read the papers, and the quality is such that they may correct authors' mistakes) - Timeliness (typically updated four times a year to maintain its currency)

  • Bioinformatics
  • evaluation

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Thin Film Analysis and Evaluation

Thin Film Analysis and Evaluation

We will evaluate the types and quantities of constituent elements, membrane quality, etc.! We propose a comprehensive analysis.

We would like to introduce our "Thin Film Analysis and Evaluation" services. Thin films are one of the important factors for enhancing the functionality of electronic devices. We propose comprehensive analysis of thin films. Please feel free to contact us when you need our services. 【Details】 ■ Composition Evaluation ■ Impurity and Contamination Evaluation ■ Bonding State ■ Density Evaluation ■ Evolved Gases ■ Shape Observation *For more details, please download the PDF or feel free to contact us.

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Evaluation of crystallinity of ultra-thin films by high-temperature XRD.

Evaluation of crystallinity of ultra-thin films by high-temperature XRD.

An effective means to understand phase changes, chemical reactions, and changes in lattice constants due to temperature conditions!

We would like to introduce our "Evaluation of Crystallinity of Ultra-Thin Films using High-Temperature XRD." High-temperature X-ray diffraction (XRD) is an effective method for understanding phase changes, chemical reactions, and changes in lattice constants of various materials under different temperature conditions. In the attached PDF document, we present a case study evaluating the changes in the crystal structure of nm-order ultra-thin films using In-Plane XRD and high-temperature measurements, so please take a look. 【Features of High-Temperature + In-Plane XRD】 ■ A method that involves incident X-rays at very low angles and scans the detector in the in-plane direction ■ The incident X-rays do not penetrate deeply from the surface and can only detect diffraction planes that are perpendicular to the surface ■ Information about crystals can be obtained even for ultra-thin films of a few nm *For more details, please download the PDF or feel free to contact us.

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Evaluation of surface oxide film thickness using photoelectron spectroscopy.

Evaluation of surface oxide film thickness using photoelectron spectroscopy.

Calculate the oxide film thickness of the SiO2 surface oxide film on the Si substrate using photoelectron spectroscopy!

In the process of forming an oxide film, controlling the thickness of the oxide film is one of the very important factors. Therefore, we estimated the thickness of the surface oxide film non-destructively using photoelectron spectroscopy. In samples covered with a thin oxide film, many elemental photoelectron peaks show a two-peak structure corresponding to the oxide component and the substrate component. By measuring the spectral intensity of each component, we can estimate the thickness of the oxide film. There are several analytical methods to determine film thickness non-destructively, but compared to other methods, the ability to estimate the thickness at specific locations is a characteristic of this method. *For more detailed information, please refer to the attached PDF document. For further inquiries, feel free to contact us.*

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Evaluation of thin films using X-ray reflectivity measurement (XRR)

Evaluation of thin films using X-ray reflectivity measurement (XRR)

If the membrane structure and composition information is known in advance, multilayer membranes can also be evaluated through simulation!

We would like to introduce our "Thin Film Evaluation using X-ray Reflectivity Measurement (XRR)." X-ray Reflectivity Measurement (XRR) allows us to obtain information about surface (interface) roughness, film density, and film thickness by fitting the X-ray profile, which shows attenuation and interference fringes near total external reflection, with a calculated profile. Please feel free to contact us if you have any inquiries. 【Thin Films that can be Analyzed】 ■Sample Surface: Mirror-like (Surface Roughness less than 5nm) ■Sample Size: 30mm x 30mm or larger *Please consult us if the size is smaller ■Film Thickness: 2nm to 500nm ■Required Information: Film structure and film composition information *For more details, please download the PDF or feel free to contact us.

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Evaluation of buried interfaces using HAXPES with synchrotron radiation.

Evaluation of buried interfaces using HAXPES with synchrotron radiation.

The detection depth increases, allowing for the evaluation of deeper areas!

We would like to introduce our evaluation of buried interfaces using "Hard X-ray Photoelectron Spectroscopy (HAXPES) with Synchrotron Radiation." X-ray Photoelectron Spectroscopy (XPS) allows for the analysis of surface composition and state, making it an essential technique for surface analysis. While laboratory-type XPS (Al Kα: 1.5 keV) is limited to evaluating extreme surfaces of about 3 nm, using external facilities for Hard X-ray Photoelectron Spectroscopy (HAXPES) at 8 keV enables the evaluation of deeper regions, such as buried interfaces in multilayer structures and stack structures close to actual devices. 【Features】 ■ Greater detection depth compared to conventional XPS ■ Measurement of photoelectrons from deeper energy levels ■ Easier state analysis due to the absence of overlaps with simultaneously generated Auger electrons ■ Utilization of third-generation synchrotron facilities (SPring-8) as a high-brightness X-ray source *For more details, please download the PDF or feel free to contact us.

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[DTEmpower] Evaluation of Wind Turbine Hub Strength

[DTEmpower] Evaluation of Wind Turbine Hub Strength

Introducing two cases of modeling and data analysis using the data modeling platform DT Empower!

Wind turbines are mainly composed of parts such as blades, pitch control systems, gearboxes, generators, yaw control systems, and hubs. The hub connects the base of the blades to the main shaft of the wind turbine, and the blades experience complex alternating loads such as thrust, torque, and bending moments. Speed is transmitted from the hub to the main drive system through pitch bearings. Therefore, it is necessary to strictly manage the strength and lifespan requirements of the hub throughout the wind turbine. *For more details, you can view the related links. For further information, please download the PDF or feel free to contact us.*

  • 【DTEmpower】風力タービンのハブ強度評価2.png
  • Turbine
  • Physical Analysis
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DTEmpower: Rapid Evaluation of Fuel Cell Thermal Management

DTEmpower: Rapid Evaluation of Fuel Cell Thermal Management

Introducing fast prediction of temperature fields using data analysis based on the issues in the development and design of fuel cells!

Fuel cells are devices that directly convert the chemical energy of fuel into electrical energy and are expected to be the fourth generation of power generation technology, following hydro, thermal, and nuclear power. This electrochemical energy can supply the direct current power needed for external loads, and fuel cells do not emit nitrogen oxides or sulfur oxides. They have high power generation efficiency, a wide range of fuel options, low environmental pollution, and high reliability. In this case study, we will introduce rapid temperature field prediction using data analysis based on issues in the development and design of fuel cells. *For more detailed information, please refer to the related links. For further inquiries, feel free to download the PDF or contact us.*

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Development, analysis, and evaluation of substances with various new functions.

Development, analysis, and evaluation of substances with various new functions.

Keywords: metal, metal complex, crystal structure, molecular structure, functional materials, color change, instrumental analysis

Compounds formed by the combination of metal ions with various organic or inorganic compounds are generally referred to as "metal complexes" (or "complex ions" in high school textbooks). The properties of a complex are determined by the structure surrounding the metal ion (what is bonded and what shape it takes) and the state of its electrons. Even with the same metal ion, completely different colors and properties can be obtained depending on the environment. In particular, the differences in color are vivid and are a very intriguing phenomenon. Moreover, these compounds are not only visually appealing but also highly functional, existing in both industrial products and natural substances. While it is enjoyable to develop methods for designing compounds that exhibit desired properties and synthesizing them as intended, I am also interested in the unexpected new properties that can sometimes be discovered, which drives my research. Through these studies, I am also working on improving various analytical techniques that can accommodate a wide range of applications.

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Evaluation of the effects of ultraviolet rays and chemical mutagens using microorganisms and plants.

Evaluation of the effects of ultraviolet rays and chemical mutagens using microorganisms and plants.

Keywords: mutagen, ultraviolet light, radiation, DNA repair, Escherichia coli, Aspergillus oryzae, Arabidopsis thaliana

DNA, which carries the genetic information of living organisms, is exposed to various DNA-damaging factors. DNA damage can induce genetic mutations, leading to cancer, genetic diseases, and cellular aging. To protect themselves from these threats, organisms have acquired DNA damage repair mechanisms. This mechanism is present in almost all living organisms on Earth, from E. coli to plants and humans, and each organism builds a DNA repair system suitable for its survival strategy. I am working to elucidate the full extent of the DNA damage repair mechanisms possessed by non-human organisms by conducting basic research on DNA damage repair, mutation induction, and cellular aging using higher plants and microorganisms. In the future, I hope to apply the insights gained from this basic research to promote the growth of useful organisms and reduce diseases caused by pathogenic microorganisms.

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