DRX-II-SPB High Temperature Heat Flow Meter Thermal Conductivity Tester Introduction: The DRX-II-SPB high-temperature heat flux meter thermal conductivity tester mainly tests the thermal conductivity of low thermal conductivity materials such as carbon containing refractory materials, refractory ceramic fiber products, composite materials, insulation bricks and panels, carbon felt, etc. This instrument is based on the principle of heat flow meter method, and is equipped with relevant national standards such as GB/T10295. Corresponding improvements have been made, and the testing work is automatically completed by the computer, with digital display of each status point. It can also be manually tested, meeting the high-precision testing requirements of the material testing research department for the thermal conductivity of materials. Instrument reference standards: GB/T 17911.8-2002<>and YB/T 4130-2005<>. Technical parameters: Temperature range for use: 600 ℃ to 1600 ℃. Sample size: φ 120 × (35-45) mm Thermal conductivity test range: 0.03-2W/m. k Accuracy error: ≤ 3%, repeatability: ≤ 3% Fully automated testing and analysis software. Heating method: Heating at 1600 ℃ using a molybdenum rod (which is a vulnerable component). The experimental chamber can be filled with atmosphere and evacuated. The cold and hot flows are measured using a heat flow sensor. Realize adjustable pressure: 0-0.1MPa, the furnace body is cooled with cooling water; Can connect to the upper computer and use fully automated analysis and testing software. Vacuum degree: ≤ 1000Pa;
Introduction: The DRX-II-SPB high-temperature heat flux meter thermal conductivity tester mainly tests the thermal conductivity of low thermal conductivity materials such as carbon containing refractory materials, refractory ceramic fiber products, composite materials, insulation bricks and panels, carbon felt, etc. This instrument is based on the principle of heat flow meter method, and is equipped with relevant national standards such as GB/T10295. Corresponding improvements have been made, and the testing work is automatically completed by the computer, with digital display of each status point. It can also be manually tested, meeting the high-precision testing requirements of the material testing research department for the thermal conductivity of materials. Instrument reference standards: GB/T 17911.8-2002<>and YB/T 4130-2005<>.
