Product Introduction:
This product is used in conjunction with the basic experimental platform for heat transfer to carry out the experimental module of one-dimensional steady-state heat conduction law and calculation in Fourier’s law of heat conduction in “Heat Transfer”. The equipment consists of a one-dimensional steady-state axial thermal conductivity experimental model consisting of a heating section, a sample section, a cooling section, and an insulation body. The sample section is easy to replace, and temperature measurement points are evenly distributed in each section. The data is collected to the basic experimental platform of heat transfer. The product is mainly used to analyze the temperature change law of columnar solid materials along the heat flow direction, scientifically understand and intuitively verify Fourier’s thermal conductivity law, and calculate the thermal conductivity coefficient of the sample. It supports the replacement of samples of different materials and cross-sections and user customization, and can extend the research and development of insulation materials and thermal conductivity materials.
detailed information
| PRODUCT MODEL | TH101 | product name | Linear Heat Conduction Experiment Module |
| Product specifications | Length 210mm/Width 340mm/Height 350mm | product material | Acrylic plate |
| Usage environment | Room temperature, relative humidity ≤ 85% | Input power supply | Single phase three wire, 220V ± 5%, 50Hz |
| Belonging series | Heat Transfer | Cooperate with modules | TH100 |
| Experimental function: |
| 1、Can be used to study and verify the principle of one-dimensional steady-state thermal conductivity, analyze the heat transfer process and temperature distribution along the axial direction of columnar materials, etc; 2、Can be used to understand Fourier’s law of thermal conductivity and calculate the thermal conductivity of solid materials (real experimental data must be provided during bidding); 3、Can measure the difference in temperature distribution between single and synthetic solid materials during steady-state heat transfer (real experimental data must be provided during bidding); 4、Can measure and calculate the thermal conductivity of different materials for comparison (real experimental data and steps must be provided during bidding); 5、Measurement of temperature drop and contact thermal resistance analysis of composite panel materials on adjacent contact surfaces; 6、The temperature distribution during the steady-state heat transfer process of cylindrical metal materials can be measured as the thermal conductivity cross-sectional area gradually decreases (real experimental data and steps need to be provided during bidding); 7、Can draw time/temperature and power curves of thermal conductivity for different material samples (experimental steps need to be provided during bidding); 8、Can be used to verify the theory of non steady state heat conduction and study the time for brass segments to reach steady state; 9、Expanded research and analysis on the practical applications and determination of thermal conductivity of insulation materials, thermal insulation materials, and thermal conductive materials; |