| Customization: | Available |
|---|---|
| Type: | Building Material Cone Calorimeter |
| Maxcapacity: | <1000KN |
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
Cone calorimeter was developed in 1982 by v. Babrauskas et al. Of NIST in the United States. It is a material combustion performance test instrument based on the principle of oxygen consumption.
Based on the oxygen consumption principle, the cone calorimeter measures the heat release rate of the material by using the oxygen consumption principle. The so-called oxygen consumption principle is: when the material burns, the amount of heat released by consuming each unit of oxygen is basically the same, and the measured value is 13.1MJ/kg±5%.In the experiment, we can load the sample on the load unit and measure the mass loss rate of the sample in the combustion process. The flammability and ignition time can be tested by heating the sample and igniting it by electric spark ignition. The combustion gas is collected in the attached pipe and exhaust hood, and the heat release rate is automatically tested by collecting the changes of smoke pressure difference, gas concentration and temperature. The smoke density performance parameters can be measured by the optical device. Meanwhile, through the above data, the effective combustion heat, specific extinction area and other extended data can be obtained. Cone calorimeter testing is a safe, fast and accurate testing method. In addition to product development, cone calorimeter can also be used as a quality control tool.
Specifications:
| Basic Specifications: | |
| Exhaust | 50 l/s |
| Size | 1750(W) × 600(D) × 2800(H) |
| Weight | 450 kg |
| Power | 220 V AC, 60 Hz, 30 A |
| Test Results | |
| Parameters | Unit |
| Heat Flux | kW/m2 |
| Exhaust duct flow rate | L/s |
| C factor | L/kgmK |
| Ignition time and extinguisment time | s |
| Total oxygen consumption | g |
| Total Smoke Release | m/m2 |
| Mass loss and Mass loss rate | g, g/s |
| Heat release rate | MJ/kg, kw/m2 |
| Effective heat of combustion | MJ/kg |
| Carbon monoxide yield | kg/kg |
| Carbon dioxide yield | kg/kg |
){kind=link}