Thermal Conductivity Measuring Instrument Product List and Ranking from 8 Manufacturers, Suppliers and Companies

Last Updated：Aug 20, 2025 Aggregation Period:Jul 23, 2025～Aug 19, 2025
This ranking is based on the number of page views on our site.

Thermal Conductivity Measuring Instrument Manufacturer, Suppliers and Company Rankings

Last Updated：Aug 20, 2025 Aggregation Period:Jul 23, 2025～Aug 19, 2025
This ranking is based on the number of page views on our site.

横浜電子 Kanagawa//Industrial Electrical Equipment
岩崎通信機 Tokyo//Industrial Electrical Equipment
グロッツ・ベッケルトジャパン Osaka//Trading company/Wholesale 本社
4 ベテル Ibaraki//Manufacturing and processing contract 本社・工場、東京オフィス、ハドソン研究所、ベトナム工場
5 カトーテック Kyoto//Testing, Analysis and Measurement

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Thermal Conductivity Measuring Instrument Product ranking

Last Updated：Aug 20, 2025 Aggregation Period:Jul 23, 2025～Aug 19, 2025
This ranking is based on the number of page views on our site.

Materials whose thickness changes under pressure can also be measured! Thermal conductivity measurement device. 岩崎通信機
C-THERM Contact Cooling Sensation and Thermal Conductivity Measurement Device グロッツ・ベッケルトジャパン本社
Measuring device for thermal conductivity measurement using the Guarded Hot Plate method (GHP method) 横浜電子
Measuring device standard thermal conductivity measurement apparatus 横浜電子
4 Thermal Conductivity Measurement Device Comprehensive Catalog 横浜電子

Thermal Conductivity Measuring Instrument Product List

16～19 item / All 19 items

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Technical Data: Principle and Equipment for Measuring Thermal Conductivity with a Thermowave Analyzer

Explanation of the principles of spot periodic heating radiation thermometry and the measurement devices!

This document explains the "principle and device configuration of the thermo-wave analyzer." It also includes features such as "high freedom of sample shape" and "ability to measure relatively thin samples." This technical document is recommended for those who want to understand the device from the principle. Please feel free to download and take a look. 【Contents】 ■ Introduction ■ Principle of spot periodic heating radiation thermometry ■ Measurement device ■ Measurement of thermal diffusivity of certified standard materials ■ Summary ■ References *For more details, please refer to the PDF document or feel free to contact us.

Company：ベテル本社・工場、東京オフィス、ハドソン研究所、ベトナム工場
Price：Other

Logic Analyzer

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Steady-State Thermal Conductivity Measurement Device / SS-H40 Product Catalog

Equipped with pressure and thickness control functions! Suitable for thermal interface materials.

We aim to develop the optimal device for measuring thermal interface materials (TIM) used in semiconductor device heat dissipation. The steady-state thermal conductivity measurement device "SS-H40" is equipped with two measurement modes: "constant load mode" and "constant thickness mode," allowing for the evaluation of TIM in real-world usage conditions. In "constant load mode," measurements can be taken at a set load (units: N or Pa). On the other hand, "constant thickness mode" allows for measurements at a set thickness (units: mm). This enables measurements tailored to the usage environment, allowing for the assessment of whether the obtained thermal conductivity meets specifications. Furthermore, the measurement time, which previously took several hours, has been reduced to 10-20 minutes, making the process easier. 〇 About the Measurement Principle 〇 This is a steady-state measurement method. The steady-state method involves applying a constant amount of heat to the material, measuring the temperature gradient when the heat is stable, and determining the thermal conductivity of the material. This method maintains a steady-state heat flow, allowing for accurate measurements. It is a widely used measurement technique.

Company：ベテル本社・工場、東京オフィス、ハドソン研究所、ベトナム工場
Price：5 million yen-10 million yen

Other physicochemical equipment

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Technical Data: Measurement Principle and Device of Steady-State Thermal Conductivity Measurement Device SS-H40

This is a recommended technical document for those who want to understand the principle of steady-state thermal conductivity measurement devices!

This document explains the "Principle and Device Configuration of the Steady-State Thermal Conductivity Measurement Device SS-H40." As principles of the steady-state method, it introduces the "Guarded Hot Plate Method" and the "Comparative Method," and also explains the features of the measurement device and its configuration. This technical document is recommended for those who want to understand the device from its principles. Please feel free to download and view it. 【Contents】 ■ Introduction ■ Principles of the Steady-State Method ■ Measurement Device ■ Examples of Thermal Conductivity Measurement ■ Conclusion ■ References *For more details, please refer to the PDF document or feel free to contact us.