We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Measuring Instrument.
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Measuring Instrument Product List and Ranking from 1140 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Oct 22, 2025~Nov 18, 2025
This ranking is based on the number of page views on our site.

Measuring Instrument Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Oct 22, 2025~Nov 18, 2025
This ranking is based on the number of page views on our site.

  1. null/null
  2. シロ産業 Osaka//Industrial Electrical Equipment
  3. TA Instruments Japan (TAInstruments) Tokyo//Testing, Analysis and Measurement
  4. 4 null/null
  5. 5 null/null
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Measuring Instrument Product ranking

Last Updated: Aggregation Period:Oct 22, 2025~Nov 18, 2025
This ranking is based on the number of page views on our site.

  1. Fully Automatic Image Dimension Measuring Instrument 'IM-X1000 Series'
  2. 3D scanner type three-dimensional measuring instrument "VL-800 series"
  3. VR-6000 Series One-Shot 3D Shape Measuring Machine
  4. 4 Image Dimension Measuring Instrument IM-8000 Series
  5. 5 High-precision image dimension measuring instrument LM series

Measuring Instrument Product List

3151~3165 item / All 3603 items

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Indicator Meter "A Series"

Indicator Meter "A Series"

Support stability within 0.003mm! Handy type internal and external diameter measuring instrument for the same dimensions, large quantity measurement, and on-machine measurement.

The "A Series" is a new model of the indicating measuring instrument that has been upgraded to include a built-in cross roller guide. The external dimensions and the measurement probe mounting dimensions are the same as the old type, allowing for smoother operation and improved stability, which enables long-term maintenance of accuracy. In addition, we also handle the external gear thickness measuring instrument "GTO-N," which is suitable for managing the tooth thickness dimensions of spur gears and helical gears, as well as the internal gear thickness measuring instrument "GTI-N" and the eccentricity measuring instruments "EM-1N/EM-2N." 【Features】 ■ Built-in cross roller guide ■ External dimensions and measurement probe mounting dimensions are the same as the old type ■ Smoother operation and improved stability for long-term accuracy maintenance ■ Support stability within 0.003mm *For more details, please refer to the PDF document or feel free to contact us.

  • Other measurement, recording and measuring instruments

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Gas Permeability Measurement Device Video Series

Gas Permeability Measurement Device Video Series

Ideal for orientation! You can obtain more accurate data at a low cost.

This series consists of 10 volumes and is a video (DVD) that helps you better understand and use the "G2800TCD," "G2700TCD," and "G2700TF" by viewing it. It is suitable for gas chromatography operators, Yanako GC operators, and operators of our gas permeability measurement devices. Please feel free to consult us if you have any requests. 【Titles】 ■ Volume 1: Basics of Gas Chromatography ■ Volume 2: JIS Differential Pressure Method ■ Volume 3: JIS Isobaric Method ■ Volume 4: G2800TCD Detector ■ Volume 5: G2700TCD Detector ■ Volume 6: G2700FID Detector ■ Volume 7: GTR Gas (Differential Pressure Method) ■ Volume 8: GTR Water Vapor (Differential Pressure Method) ■ Volume 9: Gas and Water Vapor (Isobaric Method) ■ Volume 10: GTR Applications *For more details, please download the PDF or feel free to contact us.

  • Technical and Reference Books

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Non-contact lens center thickness measuring device "CTgauge"

Non-contact lens center thickness measuring device "CTgauge"

Searching for and measuring the thickness of a lens that is only one point thick.

The "CTgauge" is a non-contact lens center thickness measurement device that utilizes a unique central thickness analysis method. It features a universal sample chuck mechanism that allows for free adjustment of sample diameters, accommodating sizes from φ10 to 100 mm (for sizes below φ10, individual holders are required). Please feel free to contact us if you have any requests. 【Features】 ■ Realizes "non-contact measurement" - Unique apex detection method and suppression of measurement errors ■ Mechanical mechanisms that meet demands - Measurement function for small diameter lenses and ΔH measurement function ■ Software that meets demands - Sample centering correction software, rough surface measurement - Sample collision prevention software, inspection report *For more details, please download the PDF or feel free to contact us.

  • Other measurement, recording and measuring instruments

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Eccentricity Measuring Machine CS-A1100

Eccentricity Measuring Machine CS-A1100

High-performance eccentric measuring device for on-site use.

It is a transmission eccentricity measuring device capable of measuring a wide range of lens focal lengths from ± a few mm to infinity (plane).

  • others

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CD/PMD Analyzer

CD/PMD Analyzer

Supports single-end measurements! A diverse lineup for mesh-type networks and more.

This product is a measurement device for wavelength dispersion (Chromatic Dispersion) and polarization mode dispersion (Polarization Mode Dispersion) in optical fiber transmission paths. We offer a variety of products, from long-distance transmission paths of 12,000 km to mesh networks that can measure up to 120 km in a single-ended configuration. Please feel free to contact us when you need assistance. 【Product Lineup】 ■FTB-5800 (FLS-5834A) ■FTB-5500B (FLS-5834A) ■FTB-5700 *You can download the English version of the catalog. *For more details, please refer to the PDF materials or feel free to contact us.

  • Logic Analyzer

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[Measurement Field] Thermal conductivity of thin sheet samples, isotropic, anisotropic [TA]

[Measurement Field] Thermal conductivity of thin sheet samples, isotropic, anisotropic [TA]

Non-contact measurement of thermal diffusivity using a laser. Measurement of materials with high thermal conductivity is possible.

The ThermoWave Analyzer TA3 measures thermal diffusivity using a non-contact method with a laser. It is capable of measuring materials with high thermal conductivity. Measurements can be taken without worrying about the shape. For more details, please contact us.

  • Logic Analyzer

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[Measurement Field] Thermal Conductivity of Sheet Materials Isotropic, Anisotropic [TA]

[Measurement Field] Thermal Conductivity of Sheet Materials Isotropic, Anisotropic [TA]

Non-contact measurement of thermal diffusivity using a laser. Measurement of resin-based materials is also possible.

The ThermoWave Analyzer TA measures thermal diffusivity using a non-contact method with a laser. Since the thermal conductivity of composite materials made of fillers and resins varies significantly with the mixing ratio, measuring thermal diffusivity is essential. Measurement of resin-based materials is also possible. Please contact us for more details.

  • Logic Analyzer

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[Measurement Example] Thermal Conductivity of Thermoelectric Materials: Strontium Titanate [TA]

[Measurement Example] Thermal Conductivity of Thermoelectric Materials: Strontium Titanate [TA]

It will help in the development of thermoelectric materials!

Energy conservation is a challenge that must be addressed throughout Japan and the world in the future, and it is expected that the development of thermoelectric materials will also accelerate within this context. In fact, our company has received numerous requests for measurements of thermoelectric materials. Since the earthquake, there has been a particularly increasing trend, and if our measurement technology can contribute to the world of energy conservation, we are willing to cooperate in any way possible.

  • Other metal materials

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[Measurement Example] <LED Material> Measurement of Thermal Conductivity of Gallium Nitride (GaN)

[Measurement Example] <LED Material> Measurement of Thermal Conductivity of Gallium Nitride (GaN)

Thermal evaluation of gallium nitride, known for blue LEDs and semiconductor materials!!

■Evaluation of particles with a micro size (3μm and above) ■Evaluation of thermal conductivity of thin films ■Measurement possible at submicron order

  • Microscope

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[Measurement Example] <Insulation substrate material for electronic circuits> Thermal conductivity of polyimide sheet

[Measurement Example] <Insulation substrate material for electronic circuits> Thermal conductivity of polyimide sheet

Thermal conductivity distribution measurement and the anisotropy of thermal diffusivity in each part can be evaluated.

Here is an example of evaluating thin polyimide sheets. Polyimide sheets are resin materials primarily used as insulating substrates and insulating layers in electronic circuits. This time, we measured the thermal diffusivity in the thickness direction using a ThermoWave Analyzer TA on a sheet with a thickness of 7.5 μm. Even with the same polyimide sheet, there are significant thermal differences depending on the thickness. When comparing examples of 25 μm and 7.5 μm using the measure of thermal diffusion time, there is nearly a tenfold difference. The thinner sheet diffuses heat in one-tenth the time. For in-plane measurements, it is relatively easy to achieve time resolution since the distance between the heating point and the detection point can be established. However, for thickness direction measurements, it is necessary to detect rapid temperature changes, which affects the basic performance of the equipment. Traditional measurement methods make the measurement itself difficult. Additionally, at a thickness of 7.5 μm, the thermal effects of surface blackening treatment cannot be ignored, so we have devised methods to minimize these effects during sample preparation and measurement. The measurement results are as follows: Thermal diffusivity in the thickness direction: 0.103 × 10^-6 m²s^-1. This value is approximately 30% lower compared to the 25 μm thick polyimide.

  • Other physicochemical equipment

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[Measurement Example] <Fuel Cell Materials> Thermal Conductivity of Zirconia

[Measurement Example] <Fuel Cell Materials> Thermal Conductivity of Zirconia

Thermal conductivity can be measured non-contact! No surface treatment is required for carbon-based materials!

Yttria-stabilized zirconia is "an oxide based on zirconia, with the addition of yttrium oxide, which stabilizes the crystal structure of zirconia at room temperature." Applications include refractory materials, electrically conductive ceramics, materials for solid oxide fuel cell (SOFC) products, and due to its hardness and optical properties in single crystals, it is also used as a gemstone, such as cubic zirconia. In the case of fuel cell materials, thermal properties are important because the operating temperatures are high. Additionally, cubic zirconia closely resembles diamond and is often used as a diamond substitute. Like diamonds, it has a high refractive index, which gives it a sparkling appearance. The main difference lies in thermal conductivity. There are devices that can simply assess thermal properties to distinguish between diamond and zirconia. It seems that it is also used in thermal barrier coatings (TBC) for gas turbines. The measured result for thermal diffusivity was 1.13×10^-6 m^2s^-1. This value is 2 to 3 orders of magnitude lower compared to diamond. Our ThermoWave Analyzer TA allows for non-contact measurements. Many carbon-based materials can be measured without the need for surface treatment.

  • Other physicochemical equipment

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Fiber Orientation Evaluation System "TEFOD"

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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Betel thermal conductivity measurement device and fiber orientation evaluation system

Betel thermal conductivity measurement device and fiber orientation evaluation system

Introducing devices for measuring the thermal diffusivity of sheet-like and plate-like materials, as well as thermal evaluation devices for fiber orientation distribution!

Introducing Bethel's thermal property measurement devices. The "Thermo Wave Analyzer TA33/35" is a measurement device for the thermal diffusivity of sheet and plate materials, capable of measuring the thermal diffusivity of functional materials. The "Thermal Microscope TM" has been commercialized through joint development with the National Institute of Advanced Industrial Science and Technology's Measurement Standards Division, allowing for measurements in micro-regions and thin films. Additionally, we offer the "Thermal Imaging Scope TSI," which visualizes thermal conduction paths using infrared cameras and lasers, as well as the "Fiber Orientation Evaluation System TEFOD." 【Features of the Thermo Wave Analyzer TA33/35】 ■ High freedom of sample shape ■ Dynamic range from organic films to diamonds ■ Anisotropy evaluation through measurements in horizontal and vertical directions ■ Evaluation of defects and irregularities through distribution measurements *For more details, please refer to the PDF document or feel free to contact us.

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放熱材料の熱拡散率・熱伝導率測定に!サーモウェーブアナライザ

放熱材料の熱拡散率・熱伝導率測定に!サーモウェーブアナライザ

グラファイトシート、ダイヤモンド、CFRP、異方性/分布測定機能でパワーデバイスやAIチップの放熱用材料の熱伝導率測定に好適

EVやPHEVに使用されるパワーデバイスや生成AIの演算に用いられるAIチップの放熱対策は十分ですか!製品の環境性能と信頼性を高めるためには、放熱材料の熱伝導率を把握しなければなりません。 例えば、パワーデバイスの放熱や次世代半導体材料として注目されているダイヤモンドは、熱伝導率が高いため、従来の装置では熱伝導率の測定のために厚い試料の作成が必要でした。自動車関連、航空宇宙関連に使用されるCFRPは、材料自体の構造が複雑なため、熱伝導率の測定が困難でした。 本機なら、ほとんど全ての材料の熱伝導率が測定できます。 想定活用例: ・厚み方向と面内方向の熱伝導率異方性測定 ・熱伝導率分布測定(TA35) ・温度を変えた熱伝導率の測定(オプション) ・薄くて熱伝導率の高い材料の測定 ・放熱材料の開発のための熱伝導率測定 測定対象例: ・半導体材料(SiC、GaN、GaO、ダイヤモンド等) ・電子基板回路材料(ガラエポ、ポリイミドシート、AlN、SiC等) ・放熱材料(グラファイトシート、Al、Cu、ダイヤモンド等) ・複合材料(GFRP、CFRP、各種TIM、高熱伝導性樹脂等)

  • Testing Equipment and Devices

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