Ultra thin glass thermal conductivity tester in stock

The ultra-thin glass thermal conductivity tester in stock mainly tests the thermal resistance of thin thermal conductors, solid electrical insulation materials, glass, thermal conductive silicone, silicone grease, resin, rubber, beryllium oxide ceramics, alumina ceramics and other materials, as well as the contact thermal resistance and thermal conductivity of materials at solid interfaces.

1. Voltage: 220V, 50HZ;

2. Sample size: Φ 30mm;

3. Sample thickness: 0.02-20mm;

4. Cold pole temperature control range: 0-99.0 ℃, resolution 0.01 ℃;

5. Thermal resistance test range: 0.05-0.000005m2 * K/W;

6. Pressure measurement range: 0-1000N;

7. Displacement measurement range: 0-30.00mm;

8. Test accuracy: better than 3%;

9. Fully automated computer testing and implementation of data printing and output;

10. Thermal resistance test and aging reliability test for aluminum substrate (composite sheet);

11. Temperature control range of the hot electrode: room temperature -99.99 ℃, resolution 0.01 ℃;

12. Thermal conductivity test range: 0.10-45 W/m * k, displayed to four decimal places;

Ultra thin glass thermal conductivity tester in stockIt has a wide range of applications in materials science, thermal research, energy development, and chemical reactions

Materials research: can be used to determine the specific heat capacity and thermal storage performance of materials, helping researchers understand the thermal conductivity, thermal stability, and thermal adaptability of different materials. This is of great significance for material selection, design, and improvement, especially in fields such as energy storage, building materials, and thermal management.

Thermal performance evaluation: can be used to evaluate the performance of thermal equipment and systems. By measuring the heat absorption or release of different materials during heating or cooling processes, the thermal capacity, thermal conductivity characteristics, and heat loss of equipment can be determined, thereby optimizing the design and operation of thermal systems.

New energy development and utilization: can be used for researching and developing new energy storage and utilization technologies. For example, solar thermal energy storage systems, thermal storage materials, and phase change materials. By measuring the heat capacity and storage performance of these materials during the processes of heat absorption and release, their effectiveness in energy conversion and storage can be evaluated, and reference can be provided for the improvement of new energy technologies.

Chemical reaction research: can be used to study the thermodynamic properties of chemical reactions. By measuring the temperature and heat changes of reactants and products during the reaction process, the heat capacity and thermal effect of the reaction can be calculated to evaluate the degree of exothermic or endothermic reaction, and further understand the reaction mechanism and kinetics.