SU885829A1 - Material combustibility determination device - Google Patents

Description

annular channels between the chamber walls and the channel for the flow of the coolant, and the lock chamber with the sample holder located in the lower part of the reaction chamber.

The drawing schematically shows the proposed device.

The device contains a sealed reaction chamber 1, equipped with two coaxially arranged metal cylindrical screens 2 and 3, which form annular channels between themselves and the inner wall of the chamber for the flow of the coolant-oxidant gas. Screens 2 and 3, as well as the reaction chamber 1, are equipped with viewing windows 4, which make it possible to observe the nature of the burning of materials visually or with the help of cine-photographic equipment. At the bottom of the reaction chamber, there is a lock chamber 5 with a piston-holder b of the sample, which allows you to quickly replace the samples without disturbing the thermal conditions inside the chamber.

The sample holder is provided with a cup 7 for collecting droplets of molten material and solid combustion products. A gas burner 8 is provided for igniting the sample. A temperature sensor 9 with a recorder is located in the upper part of the reaction chamber.

The device works as follows.

Initially, a blank (i.e., without sample) test is carried out. For this purpose, the working-flow rate of the coolant-oxidant is set, for which a given gas mixture from the mixer enters the reaction chamber 1 and is directed upwards through the annular channel formed by the chamber wall and the screen 2, then in the opposite direction through the channel formed by the screen us 2 and 3, then fall into the burning zone. Such a gas movement prevents heat transfer from oi Eqrav 2 to Screen 3, due to which thermal losses to the environment are reduced, and the thermal conditions necessary for conducting a series of tests are maintained inside the vacuum chamber. Then light the burner and set the working gas flow rate. At the same time

The temperature recorder is turned on and the readings of the temperature sensor 9 are recorded. After a constant temperature condition has been established, the sample is introduced into the combustion zone through the lock chamber 5 and burned in the burner 8 flame.

temperature recorded during testing of the sample and at idle experience.

After the output of the installation to the initial temperature mode, without turning off the gas burner 8, the sample holder b is removed from the airlock chamber 5,

A new sample is installed and the next measurement is taken.

A device for determining the flammability of materials is simple to manufacture and operate, can be

used to determine the fire hazard of materials based on the amount of heat generated as a result of them (Combustion, in determining the effectiveness of fire-extinguishing additives and allows to significantly reduce the time of measurement in a series of experiments.

Claims (1)

1. GOST 16363-70. 2, V.T. Monkhov Methods for studying the fire hazard of substances. M., Himi, 1972, p. 68-73 (prototype).