RU2740179C1 - Device for determination of flammability of protective coatings - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention relates to measurement equipment and can be used for experimental studies of flammability of protective coatings. Disclosed device is a testing machine consisting of a combustion chamber fixed on supports. Device operates as follows. Burner is ignited, gas flow rate (l/min) is established, which ensures uniform heating in combustion chamber, with gradual decrease of temperature along chamber length. Test specimen is installed on the turning platform of the movable mechanism and fixed with a holder. Rotation of rotary platform makes it possible to vary angle of impact of fire on tested coating. Movable mechanism with the test sample is installed inside the combustion chamber at a certain distance to the burner fire. Then, the stopwatch is switched on and the time to ignition/self-ignition of the tested coating is counted. At the moment of ignition/self-ignition of the coating, the temperature in the combustion zone (flue gas/flame temperature) is recorded on the temperature measurement sensor, the distance to the fire is determined, then, resistance of the tested coating and duration of its independent burning are determined. After the specimen has cooled down and is removed from the rotary platform, the weight loss of the sample and the volume of its damage are determined.

EFFECT: higher efficiency of tests for fire resistance of protective coatings due to possibility of determining duration of coating resistance to fire, temperature and moment of ignition of the tested coating, distance from the tested coating to fire.

1 cl, 3 dwg

Description

The proposed device relates to the field of physics, namely to the study of indicators of flammability of protective coatings, including paint and varnish.

Protective coatings of machines, mechanisms, building structures require a certain set of properties. One of the important properties for protective coatings is fire resistance. So, paints and varnishes not only increase flammability, but also contribute to a more rapid spread of flame over the surface, increase smoke generation and toxicity, therefore, issues related to the assessment of their fire hazard characteristics are very relevant.

The known devices are very limited in the determination of indicators and make it possible to determine, as a rule, one or two indicators of combustibility, are expensive and difficult to manufacture. Also, a small number of devices allow testing protective coatings.

Known installation for testing building materials for incombustibility "OGNM" (GOST 30244-94. Method 1).

This unit is used to study homogeneous and layered building materials with a thickness of at least 50 mm. Wood, polystyrene, polystyrene concrete, particle boards, etc. are tested as homogeneous ones. Laminated - gypsum plasterboards, paper-laminated plastics, homogeneous materials with fire-retardant treatment. The disadvantages of this device are: impossibility of testing protective coatings, manufacturing complexity, large dimensions, high cost.

Known installation for testing building materials for flammability "ШП" (GOST 30244-94. Method 2).

The installation is used for all homogeneous and layered combustible building materials, including those used as finishing and facing, as well as paint and varnish coatings. The main disadvantages of the installation: the impossibility of determining the temperatures of ignition and self-ignition of materials, large dimensions, high cost.

Installation for determining the ignition temperature and self-ignition of solid substances and materials "OTP". GOST 12.1.044-89 (clause 4.7,4.9).

The installation is designed for experimental determination of the ignition temperature of solids and materials. The principle of operation of the installation is based on setting the temperature regime in the reaction chamber and the effect of the burner flame, monitoring the temperature indicators after the material under investigation is introduced into the reaction chamber. The disadvantages of the installation are: the ability to measure only one indicator - ignition, large overall dimensions, complexity in manufacturing, high cost.

TECHNICAL OBJECTIVE - to increase the efficiency of testing the fire resistance of protective coatings due to the possibility of determining the duration of the coating resistance to fire, temperature and moment of ignition of the test coating, the distance from the test coating to fire.

To achieve this task, the device contains a mobile mechanism consisting of a platform, a holder fixed to it, in which a rotary platform is installed, to which the test sample is fixed. To move the mobile mechanism, a thermocouple is fixed to it, parallel to the combustion chamber, through which a thermocouple is supplied to the area where the test sample is located. Moving the mobile mechanism makes it possible to strictly fix the moment and temperature of ignition of the test coating, the duration of its resistance, the distance from the test coating to the fire, and the minimum fire temperature at which the test coating ignites. Due to the rotation of the turntable of the mobile mechanism, it is possible to change the angle of the effect of fire on the test coating.

The claimed device, due to its design differences, is versatile and allows you to determine a greater number of indicators of the flammability of protective coatings, compared with known devices. Indicators determined: duration of self-burning / smoldering, area of damaged coating, mass of the sample before and after testing, distance from the tested coating to fire, duration of resistance of the coating to fire, ignition / self-ignition temperature.

The device is depicted: 1 - top view, 2 - front view, 3 - side view.

The proposed device consists of a combustion chamber 1 fixed on the supports. On one side of the combustion chamber 1, inside, a movable mechanism 2 is installed, consisting of a platform 3, a holder 4 fixed to it, in which a turntable 5 is installed, to which a test sample and a thermocouple 6 are fixed. To move the movable mechanism 2 to it, parallel to the combustion chamber 1, a thermocouple 7 is fixed, through which the thermocouple 6 is supplied to the area where the test specimen is located, on the opposite side of the thermocouple 7 from the mobile mechanism 2, a temperature measurement sensor 8 is located. through the hole of which the burner 10 is installed. In the upper part of the combustion chamber 1, a thermal glass 11 is fixed to record the moment of ignition / self-ignition of the test coating, the duration of the resistance of the test coating, the duration of its burning.

The claimed device operates as follows. Burner 10 is ignited, the gas flow rate (l / min) is set, providing uniform heating in the combustion chamber 1, with a gradual decrease in temperature along the length of the chamber. A test specimen is installed on the turntable 5 of the mobile mechanism 2 and fixed by the holder 4. By rotating the turntable 5, it is possible to change the angle of the fire effect on the test coating. The mobile mechanism 2 with the test sample is installed inside the combustion chamber 1 at a certain distance to the fire of the burner 10. Then, the stopwatch is turned on, the time until the ignition / spontaneous ignition of the test coating is counted down. At the moment of ignition / self-ignition of the coating, the temperature value in the combustion zone (temperature of the flue gases / flame) is recorded on the temperature measuring sensor 8, the distance to the fire is determined, then the duration of the resistance of the test coating and the duration of its self-burning are determined. After cooling the sample and removing it from the turntable 5, the weight loss of the sample and the amount of damage are determined.

If the sample does not ignite at the specified distance, the sample is moved closer to the fire source and the test is repeated.

This device is capable of testing various protective coatings used in various industries.

Claims (1)

A device for determining the flammability of protective coatings, including a combustion chamber, a holder, a thermocouple, a temperature measurement sensor, a burner, characterized in that a movable mechanism is installed inside the combustion chamber, consisting of a platform, a holder fixed to it, in which a rotary platform is installed, allowing the angle of the impact of fire on the test coating, to which the test specimen is fixed and a thermocouple, which is supplied to the area where the test specimen is located through a thermotube fixed to the mobile mechanism parallel to the combustion chamber.

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