SU1012134A1 - Device for investigating building material erosion properties - Google Patents

Abstract

1. DEVICE FOR RESEARCH OF EROSION PROPERTIES OF CONSTRUCTION MATERIALS, Containing gas supply, heater, test chamber, middle with gas heater through device, cleaning fixture and measuring devices, as such that / in order to expand the range and improve the quality of research. it is equipped with a gadget. of gaseous and liquid impurities, I connected to the heater with the device for monitoring and controlling the temperature of the gas mixture, consisting of located in the test: chamber, adjusting the temperature of the device and temperature setter, the heater is designed as a coil with a thermally insulated housing and an infrared heating source control, while the temperature setpoint is connected to the control unit of the heating source. 2. A device according to claim 1, characterized in that the cleaning device is made in the form of a filter and a trap of liquid and gaseous impurities with a gas analyzer connected to the device for supplying gaseous and liquid impurities.

Description

The invention relates to the construction, in particular to studies of the erosion properties of building materials. A device is known for investigating the erosion resistance of materials from a combustion chamber, from which the combustion products are placed into a test chamber, and which the sample under study is located. The test chamber is located in the furnace for additional heating of CO. However, studies of erosion resistance are carried out only in the environment of combustion products, which in turn have a significant effect on the erosion of the materials under study. The device itself is quite complicated, since the combustion process of the faaa must be adjustable both in temperature and speed — the expiration of combustion products from the combustion chamber into the chamber with the test specimen of building material I. The closest to the invention is a device for studying the erosion properties of the building material. materials, comprising a gas supply device, a heater, and a test chamber connected by a gas supply device. through the heater, cleaning device and measuring devices t2. However, during operation of the heater, erosion and evaporation of electrical materials occur. Products of erosion and evaporation are deposited on the test specimens, which distorts the results of the study. At the same time, it should be noted that this installation allows to investigate erosion only in inert gases, and cannot be used. led research with impurities of gas and vapor-gas mixture. The purpose of the invention is to expand the range and quality of research. The goal is achieved in that the device for investigating the erosion properties of building materials, comprising a gas supply / heater, a test chamber connected to a gas supply device through a heater, a device for cleaning gaseous and liquid impurities, and measuring devices, are equipped with gaseous and liquid impurities connected to the gel by means of an adaptation to control and regulate the temperature of the gas mixture consisting of the thermocouple chamber, the recording device and the temperature setter {l, the heater is designed as a coil with a thermally insulated casing and an infrared heating source with a control, while the temperature setter is connected to the control of the heating source, in addition the cleaning device is made in the form of filters and traps of liquid and gaseous impurities with a gas analyzer, connected with a device for supplying gaseous and liquid impurities. The drawing shows a device for studying the erosion properties of building materials. The device consists of a gas supply device consisting of a 1. inert gas compressor and an air compressor 2 supplying gas to the coil 3 enclosed in the housing 4 with thermal insulation 5. The gas is heated by an infrared heating source 6. A coil is connected to the coil 3 for the supply of impurities, consisting of a compress of impurities 7 and a liquid pump 8. The heated gas with impurities enters the test killer 9, in which the test sample 10 is located. In chamber 10 and test sample 10 thermocouples 1 1 are located, connected to the recording instrument 12. The gas velocity is measured using the flow meter 13. The medium after passing through the test sample 10 passes through the refrigerator 14, the filter battery 15 and after cleaning the gels from water and gas impurities in the trap 16 again enters the compressor 1 The purity of the gel after the trap 16 is checked by a gas analyzer 17. The temperature is controlled by means of a temperature setter 18, connected to the recording device 12 and controlling (controlling an infrared source with the help of 19. Yeni Studies in this apparatus are performed as follows. : The test sample 10 with a through channel is installed in the test chamber 9. The inert gas compressor 1 is turned on, the air compressor 2 or both is turned on simultaneously, and the infrared heat source 6 is turned on. Test medium, the passage through the coil 3 enclosed in the heater 4 body is heated. In order to reduce heat losses, the casing of the heater 4 is protected by thermal heating 5. When tested with a vapor-air medium or a medium with additives, impurities are supplied, consisting of an impurity compressor 7 and an ultrasonic pump 8. The heated test medium is from

enters a test chamber: chamber 9 and is blown through the test -. sample 10. Tomsheraturg Hispat; Nid is fixed by thermocouples 11 located in chamber 9 and in the test sample 10. Thermocouples 11 are connected to a register "device 12, which in turn is connected to a spark (18), the signal from which enters the control body 19 by an infrared source heating6. The gas velocity in the sample: 10 is measured using a flow meter 13, made in the form of a high-speed flow meter or Pitot tube. After the process; {ozh; 1: {ea through the sample: the test medium passes through the cooler 14 and enters the filter battery 15 on the cat The test medium is cleaned from the erosion products of the sample under investigation. The gels are cleaned of water vapor and gas impurities in the trap 16 using membrane filters, the purity of the gels leaving the trap 16 of the control; p) gWTS using a gas analyzer 177 the signal of which is fed to the compressor 7 and the pump 8 The purified gas buys into the compressor 1. The test sample is 10 s d r d. the results of visual inspection, according to the results of weighing the test sample 10 before and after the tests and the results of weighing the filters before and after testing the sample 10

I

The invention allows research. The erosion resistance of materials is practically in any environment, eliminating 5 the influence of heater erosion products at this, which will improve the quality of research. Due to the versatility of the device, there is no need for a whole range of installations for research of erosion resistance in 13 people, which is especially important when studying materials for nuclear gas reactors, which include emergency 5 water and other impurities.

Claims (2)

1. DEVICE FOR RESEARCH OF EROSION PROPERTIES OF BUILDING MATERIALS, comprising a gas supply device, a heater, a test chamber connected to a gas supply device through a heater, a cleaning device and measuring devices, as well as in order to expand the range and improve the quality of research. it is equipped with a food aid. Chi gaseous and liquid impurities! connected with the heater prisposo _^: leniem for monitoring and control _(temperature gas mixture consisting of arranged in 'test: cell hermopar, the recording device and the setpoint temperature, the heater is formed as a coil with heat-insulated housing and the infrared heating source with a control body, wherein the temperature setter is connected to the »» control element of the heating source. 2. The device pop. 1, characterized in that the cleaning device is in the form of filters and traps of liquid and gaseous impurities with a gas analyzer connected to a device for supplying gaseous and liquid impurities. with e