For Fire Testing and Fire Safety Engineering in Accordance with ISO 5660-1
A Cone Calorimeter is used to perform a “reaction to fire” test, which is described in the ISO standard 5660-1. In this test a specimen of 100 by 100 mm and a maximum height of 50 mm is placed into the instrument’s load cell. The material is then exposed to controlled levels of irradiance by the cone heater, ignited by sparks and consequently burned. The TCC 918 analyzes the combustion gases and measures the smoke produced from a test specimen that is being exposed to a certain heat flux. The principle is known as the “oxygen consumption principle” and is among the methods of calorimetry. Accuracy can be improved by analyzing carbon monoxide and carbon dioxide concentrations.
The TCC 918 is in accordance with all established standards including ISO 5660-1, ASTM E1354, ASTM E1474; ASTM E1740, ASTM F1550, etc.
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Analysis of Gases and Measurement of Smoke Density
The combustion gases produced pass through the heating cone and are collected by an exhaust duct system with a centrifugal fan and hood. A laser photometric beam determines the amount of smoke produced. The TCC 918 is equipped with the robust Siemens ULTRAMAT/ OXYMAT 6E, featuring corrosion-resistant materials in the gas channel. It serves for the detection of two infrared components, CO and CO2, as well as O2 in accordance with the standards.
Determination of the Heat Release Rate (HRR)
The HRR is the driving force of a fire. Therefore, the higher the HRR, the higher the flammability and the consequential fire hazard. The TCC 918 measures the gas flow and oxygen concentration to calculate the quantity of heat release per unit of time and surface area. It is calculated from the oxygen concentration in the flue gases (percentage of oxygen consumed during combustion). The heat release rate (HRR) is expressed in J/s or W. The development of HRR as a function of time is typically used to analyze fire properties.
Features that Make the TCC 918 Outstanding
- Exhaust system and burning chamber designed for extended lifetime
- Robust, fast moving igniter with variable pulse width and duration to investigate ignition behavior
- Effective Peltier device for gas cooling without mechanical parts and drying without toxic drying agent
- Stable and robust laser system for smoke production measurement
- Mass flow controller for methane
- Integrated computer system with two touch panels for parameter definition and visualization. No additional PC required.
- No monthly payment for software licensing and free updates
- Gas Analyzer SIEMENS ULTRAMAT/OXYMAT 6E for measurement of O2, CO and CO2 components
- Adapter for FT-IR coupling
- Sartorius high precision balance