SU1499157A1 - Apparatus for testing specimens for bending - Google Patents

Abstract

The invention relates to a testing technique and can be used to test specimens for bending. The purpose of the invention is to reduce the size of the device. The device contains a thermostatic chamber 1 with a heat exchanger 2 and a loading device placed in it in the form of glasses 3,4 installed coaxially relative to each other, whose open ends are coaxially fixed with the help of columns 7 corresponding hollow cylinders 5,6. On the outer glass 3 and on the cylinder 5, two diametrically opposite grooves 8 are made, located at an acute angle to the axis of the glasses 3.4, and on the internal glass 4 and on the cylinder 6 - similar grooves 9, perpendicular axes of the glasses 3.4. In slots 8.9, the supports 10 for sample 11 are placed. The cups 3.4 are connected to a testing machine by means of t 13.14. The sample is placed in the glasses 3.4 along the axis of the latter between the supports 10 at the stop 12. When tensile force is applied through bars 13.14 to glasses 3.4, the latter, together with the cylinders 5.6, move one relative to the other. In this case, the supports 10 interact with inclined grooves 8 and move in the slots 9 towards the apex of the acute angle. When moving the supports 10, they approach each other and load the sample 10 according to the four-point bending pattern. Making the slots in the cups and cylinders and placing the specimen supports in the slots ensures that the specimens are placed along the axis of the cups during the bend test, which reduces the size of the device. 3 il.

Description

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cylinder 6 — similar grooves 9, perpendicular to the axes of the cups 3, 4. In the slots 8, 9, the supports 10 for the sample 11 are placed. The cups 3 4 are connected with the testing machine by means of bars 13, 14. The sample is placed in the cups 3, 4 along the axis of the latter between the supports 10 at the stop 12. When a tensile force is applied through the bars 13, 14 to the glasses 3, 4, the latter, together with the cylinders 5, 6, move one relative to the other. With

This support 10 interact with the inclined grooves 8 and move in the grooves 9 in the direction of the vertical angle of the acute angle. When moving the supports 10, they approach each other and load the sample 11 in a four-point bending pattern. Making the slots in the cups and cylinders and placing the specimen supports in the slots ensures that the specimens are placed along the axis of the cups during the bend test, which reduces the size of the device. 3 il.

The invention relates to a test apparatus, in particular to devices for testing bending specimens.

The purpose of the invention is to reduce the size of the device. .

FIG. 1 shows a diagram of a device for testing specimens for bending at high temperatures; Figure 2 shows the same for testing specimens for bending at low temperatures; in fig. 3 is a section A-A in FIG. one.

The device contains a thermostating chamber J, a heat exchanger 2 placed inside it and a loading device. The latter is performed as installed coaxially to each other with the possibility of axial movement of glasses 3 and 4 and two cylinders of cylinders 5 and 6, each of which is installed coaxially with the corresponding glass 3 and 4 and is rigidly connected with it from the open end of the last threaded columns 7. On the outer glass 3 and the corresponding hollow cylinder 5 at an acute angle to the axis of the glasses 3 and 4 there are two diametrically opposite grooves 8, and on the inner glass 4 and the corresponding hollow cylinder 6 perpendicular to the axis of the glasses 3 and 4 There are two diametrically opposite opposite sides of the groove 9. In slots 8 and 9 of Stake 3 and 4 and hollow cylinders 5 and 6 there are cylindrical supports 10 designed to interact with sample 11. At the bottom of the inner cup 4 there is a stop 12, and

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The cups 3 and 4 on their bottoms are connected with the corresponding weights 13 and 14 of the test gear (not shown).

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The device works as follows.

Sample 1I is placed in glasses

3 and 4 and cylinders 5 and 6 along the axis of the glasses 3 and 4 and end face on the stop 12. In this case, the sample 11 is positioned between the supports 10. When the testing machine is turned on, the glasses 3 and 4 are moved through bars 13 and 14

with the corresponding cylinders 5 and 6 relative to each other along the axis of the glasses 3 and 4. When the latter move, the supports 10 interact with the walls of the grooves 8, the latter, placed on one side of the sample 11, parallel to each other and have the same angle of inclination to the axis of the glasses 3 and 4. Since the execution of the grooves 9 corresponds to the implementation of the grooves 8, the supports 10 are located at an equal distance from the reamer of the sample 11, in the direction of the sharp angle of inclination of the grooves 8 with respect to the axis of the glasses 3 and 4 when moving the latter determines the movements and dix load by means of supports 10 to the sample 11. Thus, moving the nozzle 3 on the glass

4 leads to movement of the supports 10 in the slots 8 and 9 and to the convergence of the supports 10, which move in the slots 8 to the top of the acute angle. With this support

10 are kept from moving along the axis of the sample 11 by the grooves 9 of the cup 4 and the cylinder 6. After reaching

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Using the heat exchanger 2 of the specified test temperature, the pulls 13 and 14 transfer the tensile load on cups 3 and 4 with cylinders 5 and 6. The supports 10 interact with grooves 8 and 9 and sample 11, converting the applied load into a bending one. Thus, the sample 11 is loaded between the supports 10 according to the four-point bending pattern. In this case, the shoulder acts on the sample 11 forces remains unchanged, since it is determined by the position of the grooves 9 of the cup 4 and the cylinder 6, and the magnitude of the acting forces is proportional to the applied stretching forces and depends on the angle of the grooves 8 of the cup 3 and the cylinder 5, which also remains constant. Placing the supports 10 in the slots 8 and 9 of glasses 3 and 4 and cylinders 5 and 6 provides loading sample 11 with a clean bend when the latter is located along the axis of glasses 3 and 4, which reduces the size of the device.

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Claims (1)

Invention Formula A device for testing specimens for bending, containing a thermostatic chamber with a load placed in it, made as mounted coaxially to each other with the possibility of axial movement of two glasses with through grooves and supports for the sample, characterized in that, in order to reduce the dimensions, the device equipped with two hollow cylinders with through slots, each of which is mounted coaxially with the corresponding glass and rigidly connected with it from the open end, the grooves on the outer glass and the corresponding floor the cylinder is located at an acute angle to the axis of the glasses, the grooves on the inner glass and the corresponding hollow cylinder are perpendicular to the axis of the glasses, two diametrically opposite grooves are made on each glass and the hollow cylinder, and the supports are placed in the corresponding grooves of the glasses and cylinders. 2 (ig.Z