Materials whose thickness changes under pressure can also be measured! Thermal conductivity measurement device.
IE-1230
Automatic measurement just by setting the sample! A thermal conductivity measurement device ideal for measuring electrode materials and insulating materials.
The "IE-1230" is a thermal conductivity measurement device that measures the thermal conductivity of materials such as metals using the "temperature gradient method (plate comparison method)." It allows for easy measurement of thermal conductivity, as it automatically measures the temperature distribution and the thickness of the sample simply by setting it up, making it more convenient than conventional products. It is capable of measuring the thickness during thermal conductivity measurement under pressure, allowing for the measurement of materials whose thickness changes under pressure. 【Features】 ■ Easy thermal conductivity measurement while applying pressure ■ Thickness can be measured under pressure using a thickness sensor ■ Automatically measures thermal conductivity after setting the sample ■ Capable of measuring thickness as thin as 0.05mm *For more details, please download the catalog or contact us.
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basic information
1. It is possible to easily measure thermal conductivity while applying pressure. Measurement of materials whose thickness changes under pressure can only be performed with this device. Pressure is applied to the sample using an air cylinder. By varying the air pressure supplied to the cylinder, the properties of the material can be measured. This significantly expands the range of materials that can be measured. The pressure range is 0.1 to 1.0 MPa (Pascal) (pressure range when the sample shape is φ30mm). 2. The thickness of the sample can be measured while under pressure. The thickness sensor allows for real-time measurement of the sample's thickness. 3. After setting the sample, the thermal conductivity is measured automatically. The dedicated software automatically measures the temperature distribution and the thickness of the sample to determine the thermal conductivity. The thermal conductivity is calculated based on the temperature distribution of the upper and lower heat conduction rods and the thickness of the sample using the temperature gradient method. The temperature distribution is measured using thermocouples (10 in equal intervals) attached to the upper and lower heat conduction rods. 4. The minimum thickness measurement is 0.05mm. Measurements can be taken from very thin samples. *For more detailed specifications, please download the catalog or contact us.
Price range
P6
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For more details, please contact us.
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Comprehensive power electronics. We are fully committed to power electronics measurement, from device evaluation to equipment verification. Our sales engineers, who travel around the world, are here to help solve your problems. We sincerely look forward to your inquiries.
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