SU553528A1 - Dilatometer for the study of the deformability of building materials - Google Patents

Claims (3)

(54) DILATOMETER FOR STUDYING THE DEFORMATION OF BUILDING MATERIALS FIG. 1 shows the proposed dilatometer, general view; in fig. 2-bottom end of a quartz tube with a tube in the section; in fig. 3 electrical dilatometer circuit. The dilatometer for studying the deformability of building materials consists of a heat insulating body 1 installed on a common metal frame 2, guides 3 installed in the body, a movable insulating shell 4 with a lifting mechanism 5. A quartz tube 6 is installed in the center of the case with a pusher 7 installed on the test ora 8. At the upper end of the tube 6 there is a micrometric screw mechanism 9 with an electric sensor 10 placed in it, which is connected by cable to an electronic measuring system I, which together form the device strain measurements. The output of the electronic measuring system is connected to the input of a recording device 12, made in the form of a two-coordinate potentiometer, to another input of which is connected one of the thermocouples 13 placed in the sample 8. At the bottom end of the pipe 6 on the thin section 14 is installed a quartz test tube 15, made corrugated and fitted coaxially installed Cylinders 16 and 17, forming annular flow chambers 18 and 19. In addition, the lower end of the pipe 6 is equipped with capillary tubes 20 with thermocouples 13 and 21 placed in them. At the lower ends cuttings 20 installed a ground quartz plate 22 on which test sample 8 is placed. The cooling device is designed as a probe 15 placed in a movable thermal insulation shell 4 and equipped with a software control device for temperature and cooling rate, including a thermocouple 21 connected to an electronic potentiometer 23, electrically connected to an electrically controlled software controller 24, which in turn is connected to a cooling source 25, which pumps the refrigerant through the test tube 15, Camera 19 is provided with nozzles 26, 27. The dilatometer operates as follows. The test sample 8 is mounted on the quartz plate 22, on which the push rod 7 is in turn mounted. The quartz tube 15 is put on the cut 14. The gauge 4 rises on the feeder 4, the sensor 10 is brought to the push rod 7 by means of the micrometric mechanism 9 and refrigerant is pumped through the pipes 26 and 27 from the cooling source 25, cooling the entire volume of the chamber. Cooling is carried out according to a predetermined program by a software controller 24 and an electronic potentiometer 23. In the process of cooling a sample, a continuous recording of deformations of the sample depending on the temperature in rectangular coordinates on millimeter paper is carried out on the two-coordinate potentiometer, which makes it possible to considerably simplify the calculation and eliminate the construction graphs. The presence of a casing moving along the guides reduces the heat loss from the cooled volume of the measuring chamber to the environment and at the same time provides a convenient approach to the lower end of the quartz tube to replace the samples. The execution of the tube corrugated and equipped with coaxially placed cylinders greatly enhances the heat transfer and cooling of the sample under study with the refrigerant being pumped. Placing capillary tubes in the shaft allows thermocouples to be led directly to the sample, simplifying the sealing of the cooled volume. The implementation of a strain measurement device in the form of an electronic measuring system and the presence of a two-coordinate measuring instrument make it possible to fully automate the investigation of the deformability, which is also achieved by automatically controlling the temperature and cooling rate. Thus, the proposed dilatometer makes it possible to fully automate the study of the deformability of building materials during freezing, and especially in the study of a large number of samples. In addition, the recording of measurements is carried out in a functional relationship: (G °). Claim 1. A dilatometer for studying the deformability of building materials, for example during freezing, comprising a heat insulating body, a quartz tube with a pusher, a quartz test tube, thermocouples and a device for measuring deformations with an electronic sensor, characterized in that, in order to increase the accuracy of definitions, contains a movable shell, inside which is placed a quartz test tube, made of a corrugated plate and provided with a quartz plate and coaxially mounted cylinders, forming and annular flow chambers, with the lower end of the tube made with capillary tubes in which thermocouples with a K1-mounted hinge plate fixed at their lower ends are placed, and the upper end of the tube with a micrometric screw mechanism. 2. dilatometer on and. 1, characterized in that, for the purpose of automatic measurement and control, it is equipped with a software temperature control device. Sources of information used in the examination: 1. Patent of Great Britain No. 1071578, cl. G IN; 06/23/1964. 2. The author's certificate number 390427, cl. G 01N 25/16, 02.06.1971. 3.G. I. Gorchakov et al. "Temperature expansion coefficients and temperature deformations of building materials. Publishing Committee Standards. M., 1968, p. 54-56. . -S ld  I go 2J g