evaluation Product List and Ranking from 35 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

evaluation Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. 合同製鐡株式会社 Tokyo//Building materials, supplies and fixtures manufacturers
  2. マイクロトラック・ベル Osaka//others
  3. イビデンエンジニアリング 環境技術事業部 Gifu//Service Industry
  4. 4 ニコダームリサーチ Osaka//others
  5. 5 第一工業 鋲螺事業部(ネジ・ボルト・ナット等締結部品 製造販売. 静岡県浜松市) Shizuoka//others
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evaluation Product ranking

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. Mechanical Fixation Plate 'EG Fixation Plate' SABTEC Evaluation 合同製鐡株式会社
  2. Ibiden Engineering: Analysis, Measurement, Evaluation イビデンエンジニアリング 環境技術事業部
  3. Structural evaluation of PCP/MOF and zeolites using gas adsorption methods. マイクロトラック・ベル
  4. Research, development, testing, and evaluation of fastener products. 第一工業 鋲螺事業部(ネジ・ボルト・ナット等締結部品 製造販売. 静岡県浜松市)
  5. 4 Anti-wrinkle test (in accordance with guidelines) ニコダームリサーチ

evaluation Product List

31~45 item / All 101 items

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Evaluation of Mortar Cracking

Evaluation of Mortar Cracking

Crack evaluation of mortar in existing concrete structures using ultrasonic methods.

"Crack Evaluation of Mortar" refers to the assessment of cracks that occur in the mortar finish applied to the surface of existing concrete structures, determining whether the cracks are contained within the mortar finish or have reached the underlying concrete using ultrasonic methods. This technique focuses on scattered waves, comparing the degree of reduction of scattered waves within the concrete between the healthy areas surrounding the cracks and the cracked areas to evaluate the depth of the cracks. The applicable range for mortar thickness is from 10mm to 40m, and it targets cracks that are 0.1m or wider; however, it can also be applied to surfaces with minimal irregularities, such as painted surfaces or tiled finishes. [Features] - Evaluation of cracks using ultrasonic methods - Comparison of the degree of reduction of scattered waves within the concrete between healthy areas and cracked areas - Applicable range for mortar thickness: 10mm to 40m, cracks of 0.1m or wider - Applicable to surfaces with minimal irregularities, such as painted surfaces or tiled finishes *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Survey
  • Non-destructive testing
  • Environmental Survey

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[Analysis Case] Metal Corrosion Test of Water-Soluble Cutting Oil

[Analysis Case] Metal Corrosion Test of Water-Soluble Cutting Oil

Confirmation of corrosion brought to tools, castings, machines, etc.! Observed the discoloration of the metal.

This is an introduction to a case where a test piece was immersed in a sample solution, and the degree of discoloration of the metal (corrosion level) was observed. This was conducted to evaluate the corrosiveness of water-soluble cutting oils on metals. The test piece was polished and partially immersed in the test solution, covered, and left to stand. Afterward, the degree of discoloration was observed, and the corrosion level was determined. [Analysis Overview] ■ Subject: Water-soluble cutting oil ■ Analysis Item: Non-ferrous metal compatibility test ■ Test Overview: The test piece was immersed in the sample solution, and the degree of discoloration of the metal was observed. *For more details, please refer to the PDF document or feel free to contact us.

  • Analysis and prediction system

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Evaluation of the shape of the FRP hole processing drill manufactured in-house and the X-ray CT assessment of the processed material.

Evaluation of the shape of the FRP hole processing drill manufactured in-house and the X-ray CT assessment of the processed material.

Comparative evaluation of the conditions before and after processing using a φ15mm drill for in-house processed FRP and commercially available drills through visual inspection and non-destructive testing!

This document is a technical report that evaluates the characteristics of drill shapes after processing, using hole processing of FRP as an example. It quantifies the features of the processed drill shapes produced in-house and provides a quantitative comparison of these shapes with commercially available drills, as well as assesses the validity of the shapes through FRP processing. In the scope evaluated this time, although no superiority was recognized between the commercially available drills and the modified in-house drills for FRP processing, it was confirmed that the shape of the in-house processed drills contributes to extending the tool life. From the perspective of extending tool life, this resulted in findings of significant importance. 【Contents of the report (Evaluation preparation, methods, and results)】 ■ Preparation of evaluation drills ■ Shape inspection of evaluation drills ■ Production of flat plates for processing evaluation ■ Implementation of hole processing using various drills ■ X-ray CT measurement *For more details, please download the PDF or feel free to contact us.

  • others

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System Evaluation Using an Integrated CCS Model for Decarbonization

System Evaluation Using an Integrated CCS Model for Decarbonization

Simulation possible for each time step! Introducing our evaluation method.

We would like to introduce our "System Evaluation Using an Integrated CCS Model." In oil and gas development, in addition to reservoir models, we link underground fluid behavior and surface production facilities through integrated simulations that include pressure losses from well designs and impacts from surface facility networks, allowing for the simulation of the entire project at each time step. We are investigating and examining whether this can be applied to the system evaluation of CCS, focusing mainly on the following items: [Investigation and Examination Items] ■ Optimization of CCS with water production wells as pressure relief wells ■ Optimization of CO2 EOR ■ Production of hydrogen from natural gas production and its impact on the overall CCS system ■ Impact of uncertainty in reservoir parameters on the overall CCS system *For more details, please feel free to contact us.

  • others

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Safety evaluation of pharmaceuticals and products

Safety evaluation of pharmaceuticals and products

Would you like to verify the safety of the chemicals and products handled in your business?

According to national labor accident statistics and reports of household product accidents, incidents and health damages caused by chemical substances have not decreased. When including minor accidents and near misses, it is believed that a considerable number of dangerous cases exist. In several cases handled by our office, there were instances where hazardous materials or toxic substances were handled without knowledge of the chemicals involved, and cases where individuals were actually exposed to high concentrations of chemicals during work, making it impossible to deny health risks. Our office checks the safety of handling based on component information, their physical and toxic properties, or actual measured values. Based on these results, we provide alternative proposals and support for safe handling. Furthermore, it is also possible to promote these evaluation results as features of products or services. We suggest better methods for the health of workers, surrounding residents, or those using the products, including pets. Please feel free to contact us via email or phone. We can also discuss matters online.

  • Environmental Survey

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Commissioned Testing: Real Vehicle Evaluation

Commissioned Testing: Real Vehicle Evaluation

Addressing customer challenges! A contract testing partner that provides high technology and precision.

We conduct contracted tests for "real vehicle evaluation." We perform evaluations of drivability and durability, as well as driving tests, using a test course and a chassis dynamometer. Experienced engineers with a proven track record in automotive development conduct contracted tests tailored to our customers' specific challenges. 【Test Overview】 ■ Test course real vehicle evaluation ■ Chassis dynamometer testing *For more details, please refer to the PDF document or feel free to contact us.

  • Other measuring instruments

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[Contracted Testing] Bench Evaluation

[Contracted Testing] Bench Evaluation

Reproducing conditions close to reality with high precision! We conduct various performance tests, durability tests, and friction tests.

We offer contract testing for "bench evaluation." Performance and durability tests are conducted using engine dynamometers, transient dynamometers (2-axis/3-axis motors), loaded motor dynamometers (2-axis/3-axis motors), and unloaded motor dynamometers (1-axis motors). In our experimental contract business, experienced engineers with a proven track record in automotive development conduct contract tests tailored to our customers' specific challenges. 【Equipment Used】 ■ Engine dynamometer ■ Transient dynamometer (2-axis/3-axis motors) ■ Loaded motor dynamometer (2-axis/3-axis motors) ■ Unloaded motor dynamometer (1-axis motor) *For more details, please refer to the PDF document or feel free to contact us.

  • Other measuring instruments

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Anti-wrinkle test (in accordance with guidelines)

Anti-wrinkle test (in accordance with guidelines)

We can conduct guideline-compliant anti-wrinkle tests at a low cost and with a short turnaround time!

■Recommended for those with the following development challenges: Want to promote anti-wrinkle products that "prevent fine lines caused by dryness (cosmetics)" and "improve wrinkles (quasi-drugs)." Want results delivered as soon as possible. Want to obtain data while keeping costs down. Want to recruit subjects tailored to the purpose while adhering to the test content of the guidelines. ■Features: - Conducted at our partnered testing facility in China. - Longer suitable testing period due to drier conditions than Japan. - Large capacity of the testing facility allows results to be delivered in about 4 months from preparation. - Approximately 100,000 subjects available. - Testing content (in accordance with guidelines) and measurement equipment implemented under the same conditions as in Japan. *Delivery times may vary depending on the availability of the testing facility, so please inquire through the contact form on our website: https://www.nikoderm.com/?utm_source=ndr&utm_medium=ipros&utm_campaign=ipros

  • others

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KIKUYO

KIKUYO

Based on the conversation about the consultation, we will conduct AI analysis to summarize and analyze the consultation content!

We offer a service called 'KIKUYO' where we listen to your concerns, provide various advice, and show empathy. Basically, the format involves listening to the issues and questions from the clients and responding based on the content. In addition, we also accept requests for system design, development, evaluation, system investigation, analysis, and consulting for system implementation. 【Business Contents】 ■ System design, development, and evaluation ■ System investigation and analysis ■ Consulting for system implementation ■ Network construction ■ Operation support, maintenance, assistance, and training *For more details, please download the PDF or feel free to contact us.

  • others

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Evaluation of Mesopores in Mesoporous Zeolite by the No. 8 INNES Method

Evaluation of Mesopores in Mesoporous Zeolite by the No. 8 INNES Method

You can calculate the meniscus diameter and make thickness corrections to evaluate the pore diameter!

This document introduces the evaluation of mesopore characteristics of mesoporous zeolites using the INNES method, accompanied by images and graphs. When analyzing the pore distribution of materials with mesopores from adsorption isotherms, it is essential to make assumptions about the pore shape. If the pore shape is cylindrical, the BJH method is used; if it is slit-shaped, the INNES method is employed. Similar to the BJH method, the INNES method uses the Kelvin equation to calculate the meniscus diameter and performs thickness corrections to evaluate the pore diameter. *For more details, please refer to the PDF document or feel free to contact us.*

  • others

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Evaluation of Activated Carbon Fiber Structure Using No. 10 T-Plot Method (Application Edition 1)

Evaluation of Activated Carbon Fiber Structure Using No. 10 T-Plot Method (Application Edition 1)

[Information] Confirmation of adsorption on the external surface! Introduction to structural evaluation of activated carbon fibers using the t-plot method (Application Edition 1)

This document introduces the structural evaluation of activated carbon fibers using the t-plot method (Application Edition 1) with graphs and tables. The N2@77.4K adsorption-desorption isotherm of activated carbon fibers (kuractive: manufactured by Kuraray) is classified as Type Ia, indicating the presence of micropores. When evaluating this isotherm using the GCB as a reference t-curve in a t-plot, the slope of the t-plot changes sharply due to the filling of micropores, confirming adsorption on the external surface. *For more details, please refer to the PDF document or feel free to contact us.

  • others

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Structural evaluation of activated carbon AX-21 by the αs method No. 14

Structural evaluation of activated carbon AX-21 by the αs method No. 14

[Information] It is possible to evaluate the surface area and pore volume of various materials and their pores!

This document introduces the structural evaluation of activated carbon AX-21 using the αs method, utilizing graphs and tables. The αs-plot method (SPE method: Subtracting Pore Effect) allows for the evaluation of surface area and pore volume of various materials. The analysis results obtained from the αs-plot (surface area and pore volume of each pore) are equivalent to those from the t-plot; however, since αs (-) is dimensionless, it does not have constraints such as lower limits compared to the t-plot, which considers the thickness of the adsorption layer (t) in nm, allowing for a more detailed understanding of information at lower relative pressures (micropore information). *For more details, please refer to the PDF document or feel free to contact us.

  • others

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Evaluation of Micropores of Activated Carbon AX21 by HK Method No. 16

Evaluation of Micropores of Activated Carbon AX21 by HK Method No. 16

This is an introduction to the evaluation of micropores of activated carbon AX21 according to HK law!

This document introduces the evaluation of micropores of activated carbon AX21 according to the HK method, using figures and graphs. The HK (Horvath-Kawazoe) method and the SF (Saito-Foley) method are evaluation methods specifically for pore distribution in micropores. Horvath-Kawazoe assumes carbon slit-type pores and calculates the average potential experienced by adsorbed molecules within the micropores using the Lennard-Jones potential. *For more details, please refer to the PDF document or feel free to contact us.

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Evaluation of Micropores in Mesoporous Zeolite by SF Method No. 17

Evaluation of Micropores in Mesoporous Zeolite by SF Method No. 17

[Information] Introduction to the evaluation of micropores in mesoporous zeolite using the SF method!

This document introduces the evaluation of micropores in mesoporous zeolites using the SF method, utilizing figures and graphs. The SF (Saito-Foley) method assumes cylindrical micropores and derives the relationship between pore diameter and relative pressure through an extended version of equation 1 from the HK method. The H+ type ZSM-5, prepared by heating NH4 type ZSM-5 (MFI type zeolite) at 535°C for 3 hours under atmospheric pressure, consists of aggregates of polyhedral layered particles around 200 nm, with slit-shaped pores confirmed between the particles. *For more details, please refer to the PDF document or feel free to contact us.

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No. 20 Evaluation of Hydrophilicity and Hydrophobicity of CNTs by Water Vapor and Nitrogen Adsorption Isotherms

No. 20 Evaluation of Hydrophilicity and Hydrophobicity of CNTs by Water Vapor and Nitrogen Adsorption Isotherms

We will introduce the evaluation of the hydrophilicity and hydrophobicity of CNT using water vapor and nitrogen adsorption isotherms!

N2 adsorption uniformly covers the material surface, while H2O adsorption preferentially attaches to the hydrophilic sites on the material surface. Therefore, using both adsorbates allows for the evaluation of the material's hydrophilicity and hydrophobicity. From the N2@77.4 K adsorption isotherms of the carbon nanotubes CNT-A and CNT-B shown in the figure, they are classified as Type VI and Type II, respectively. When a BET plot is constructed, the BET (N2) specific surface area is determined to be 10.4 m²/g for CNT-A and 44.6 m²/g for CNT-B. Additionally, the results of the H2O@298.15 K adsorption isotherms for both samples are displayed in the figure. You can download the catalog for viewing. *For more details, please refer to the PDF document or feel free to contact us.*

  • Other analytical equipment

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