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Thermophysical property measuring instrument - List of Manufacturers, Suppliers, Companies and Products

Thermophysical property measuring instrument Product List

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Laser Flash Method Thermal Property Measurement Device 'DLF'

Measurable over a wide temperature range! A thermal property measurement device with excellent accuracy and precision.

The "DLF" is a laser flash method thermal property measurement device that can measure thermal diffusivity over a wide temperature range, allowing for the measurement of specific heat capacity and thermal conductivity of materials with a broad range of thermal characteristics. All systems include a multi-sample testing function that significantly improves productivity and enhances specific heat capacity measurements. With a modular structure, they offer high flexibility, allowing for the addition of other environmental modules or light source modules to adapt to changing needs. We offer a tabletop model "DLF 1200" capable of measuring samples up to 1200°C, and a standalone model "DLF 1600" capable of measuring samples up to 1600°C. 【Features】 ■ Measurement over a wide temperature range ■ High accuracy and precision ■ Easy operation ■ Generates collimated monochromatic energy pulses with pulse widths of 300μs to 400μs

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  • Analytical Equipment and Devices

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NanoTR・PicoTR / Thin Film Thermal Property Measurement Device

The only device capable of measuring the thermal properties of thin films on the nanometer order.

The NanoTR・PicoTR thin film thermal property measurement device is the world's first device capable of measuring the thermal properties of metal films, oxide films, and organic films with high precision. 【Features】 ■ Capable of measuring the thermal diffusivity, thermal conductivity, and interfacial thermal resistance of thin films with thicknesses ranging from several tens of nanometers to several micrometers. ■ Equipped with both RF and FF measurement methods, allowing measurements regardless of the type of substrate. ■ A SI traceable device that complies with JIS R 1689 and JIS R 1690. *For more details, please refer to the catalog or feel free to contact us.

  • Analytical Equipment and Devices

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[Measurement Field] Thermal Conductivity of Microscopic Sizes [TM3]

For measuring thermal properties of thin films and micro-regions. Micro-sized particles can also be measured freely.

The Thermal Microscope TM3 deposits a metal thin film on the sample and periodically heats it using a heating laser. It can now measure tiny particles that were previously difficult to analyze. For more details, please contact us.

  • Microscope

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[Measurement Field] Thermal Penetration Rate / Thermal Conductivity Distribution [TM3]

For measuring the thermal properties of thin films and micro-regions. It is possible to measure the thermal conductivity distribution of polycrystalline SiC.

The Thermal Microscope TM3 deposits a metal thin film on the sample and periodically heats it using a heating laser. It is capable of measuring the thermal conductivity distribution of polycrystalline SiC (ceramics). Please contact us for more details.

  • Microscope

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[Measurement Example] Measurement of Thermal Conductivity Distribution of Alumina Filler [TM3]

Distribution measurement of alumina fillers in the size of several tens of micrometers!! Thermal conductivity can be evaluated for the filler alone!

■Measurement of the distribution of samples sized in the tens of micrometers. ■Measurement of fillers with uneven thermal conductivity individually.

  • Contract measurement

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[Measurement Example] Measurement of Thermal Conductivity of Hard Tool Coating [TM3]

The thermal conductivity of the coating's surface and cross-section can be measured!

■ Thermal conductivity line analysis of the coating cross-section ■ Measurement of thermal conductivity distribution with a spatial resolution of 3 micrometers ■ Measurement of thermal conductivity from the coating surface

  • Contract measurement

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[Measurement Example] Measurement of Thermal Conductivity of Graphite Sheet [TA]

The anisotropy of the graphite sheet (in-plane direction and thickness direction) has become measurable!

○ Anisotropy of graphite sheets (in-plane direction and thickness direction) ○ Thermal diffusivity ○ Thermal conductivity

  • Optical microscope

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Powder rheology measurement case (graphite) rheometer

This is a case study analyzing battery graphite using the newly released powder rheology accessories from 2022.

Powder materials are used in various fields such as polymers, pharmaceuticals, and battery materials. In addition to general physical properties like particle size and density, these powders can take various forms such as storage, flow, and agglomeration, making it necessary to evaluate their physical properties while considering the environment in which they will be used. To effectively evaluate these physical properties with high precision and convenience, a new powder accessory for HR rheometers was launched in 2022. In this instance, we will focus on "graphite for batteries" and present a case study of powder rheology analysis.

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  • Analytical Equipment and Devices

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Fiber Orientation Evaluation System "TEFOD"

A fiber orientation evaluation system that is easy to analyze and understand! Anyone can safely perform measurements.

It is a unique device that evaluates the direction of fibers using heat flow. The 'TEFOD' is a fiber orientation evaluation system that can grasp the fiber state (orientation, relative comparison of quantity, variability) within a sample by utilizing heat flow. By observing heat flow, it allows for macro evaluation rather than micro evaluation. Evaluating the overall fiber orientation enables broader analysis. The measurement time is very quick at 1 minute (for one measurement point), and since it can be evaluated non-destructively, different evaluations can be performed on the same sample. The sample is spot-heated with a laser, and the heat transfer is observed using an infrared camera. By analyzing the observed infrared images, the thermal diffusivity can be quantified. Additionally, this product does not use X-rays, allowing anyone to perform measurements safely. 〇 About the Measurement Principle 〇 It is a type of periodic heating method called fiber orientation identification method. Spot periodic heating is performed, and the heat diffused in the plane direction is observed with an infrared camera at 360°. The thermal images obtained by the infrared camera are analyzed and quantified into thermal diffusivity. By converting it into a polar coordinate graph, the fiber orientation angle can be intuitively visualized.

  • Evaluation Board

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Technical Data: Measurement Examples of High Thermal Conductivity Resins Using a Thermo Wave Analyzer

Introducing technical and price information on measurement examples of high thermal conductivity resins using a thermo-wave analyzer.

Graph the homogeneity of thermal conductivity of composite materials (resin/carbon)! We introduce technical and pricing information on high thermal conductivity resin measurement cases using Bethel's [Technical Data] ThermoWave Analyzer. Expected use cases: - Measurement of thermal conductivity anisotropy in the thickness direction and in-plane direction - Measurement of thermal conductivity distribution (TA35) - Measurement of thermal conductivity at varying temperatures (optional) - Measurement of thin, high thermal conductivity materials - Measurement of thermal conductivity for the development of heat dissipation materials Examples of measurement targets: - Semiconductor materials (SiC, GaN, GaO, diamond, etc.) - Electronic substrate circuit materials (glass epoxy, polyimide sheets, AlN, SiC, etc.) - Heat dissipation materials (graphite sheets, Al, Cu, diamond, etc.) - Composite materials (GFRP, CFRP, various TIMs, high thermal conductivity resins, etc.)

  • Logic Analyzer

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Technical Data: Principle and Equipment for Measuring Thermal Conductivity of Thermal Microscopes

We are explaining the principles of periodic heating thermoreflectance method and the measurement equipment!

This document explains the principles and device configuration of thermal microscopy. It is a recommended technical document for those who want to understand the principles of this device. It also includes examples of measurements of gradient functional materials and measurements of SiC ceramics. Please take a moment to read it. 【Contents】 ■ Introduction ■ Principle of Periodic Heating Thermoreflectance Method ■ Measurement Device ■ Measurement Examples ■ Conclusion ■ References *For more details, please refer to the PDF document or feel free to contact us.

  • Other electronic measuring instruments

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