Product Introduction:
This product is used in conjunction with the basic experimental platform for heat transfer to carry out the non steady state heat transfer process of specific shaped metal materials and the distribution and variation of internal center temperature over time in “Heat Transfer”. The standard configuration includes three shapes of flat plates, balls, and columns made of brass and stainless steel, with a total of 8 specimens. Each specimen is equipped with a high-precision thermocouple at the center, which can obtain the transient temperature change curve of different solids. The method of measuring the thermal conductivity of the specimen can be studied using transient temperature combined with lumped parameter analysis, which deeply understands the laws of non steady state heat transfer and typical theoretical analysis, supports specimen customization, experimental design, and expansion.
detailed information
| PRODUCT MODEL | TH106 | product name | Unsteady Heat Conduction Experiment Module |
| Product specifications | Length 550mm/Width 750mm/Height 730mm | product material | Acrylic plate |
| Usage environment | Room temperature, relative humidity ≤ 85% | Input power supply | 220V±5%,50Hz |
| Belonging series | Heat Transfer | Cooperate with modules | TH100 |
| Experimental function: |
| 1、Can be used to study the non steady state heat transfer process and temperature changes from the surface to the center of the specimen; 2、The thermal conductivity of the columnar specimen can be calculated based on the variation law of the central temperature; 3、The influence of the shape, size, and material of the specimen on unsteady heat transfer can be studied and analyzed (different shapes for the same material, different materials for the same geometric equivalent, and different geometric equivalents for the same material shape); 4、Can be used to study and understand the centralized parameter method for non steady state heat transfer problems; 5、Can be used for expanding and designing experiments related to solid non steady states; |