SU84523A1 - Testing machine for samples of brittle torsional materials, joint or separate, with stretching or compression - Google Patents

Description

Known machines for testing cylindrical specimens of fragile building and other similar materials for crushing, joint or detached, with stretching or compressing, for short-term and prolonged loads, are allowed for torsion of specimens. The transverse forces and bending moments are torsional.

The difference between the described machine and the known one is that instead of the commonly used mechanical drive, driven by an electric motor, a push lever device with two paired flexible rods, oppositely directed and covering the heads of the sample, is used as a mechanism for twisting the test cylindrical specimen.

By pressing the lever, the specimens tighten the specimen, fixed by the elastic deformation associated with the calibrated rod.

The advantage of this type of machine is to prevent the formation of transverse forces and bending moments in the process, which distort the test results.

FIG. 1 is a schematic diagram of a machine with a device for compressing a test sample and a cut along the AA; in fig. 2 and 3-lower and upper — torsion mechanisms of the test sample; in FIG. 4-schematic diagram of a machine with another variant of the device for stretching an intact sample.

The machine is made in the form of a rigid vertical frame 1, on the lower support 2 of which the test sample 3 is installed. Through screw bolts 4 the sample is brought to the upper support 5 of the machine. The lower and upper supports are equipped with ball bearings, due to which a fixed specimen can be rotated around its axis.

The torsion of the test specimen is carried out by a mechanism based on the use of a pair of anti-directional forces applied to the ends of the specimen. For this purpose, metal rings 6 are put on the upper and lower heads of the specimen (Fig. 2) with protrusions for fastening pair steel tension bands 7 (or a cable) to them.

The opposite ends of the tension tapes are fixed by means of prism supports 8 held in shaped levers 5 and 10 to the ends of two tension levers connected between each other by a flexible pull 11. The distance between the levers can be adjusted by means of a two-way nut 12; the levers are fastened to the side racks of the frame of the machine by means of grids 13 and 14.

The upper mechanism (Fig. 3) differs from the lower mechanism (Fig. 2) in that the tension tapes in it are directed to the sides opposite to the direction of the tapes in the lower mechanism; in addition, the upper mechanism is connected to the thrust 15 with a pressure lever 16, which is suspended on the axis 17.

In the lower part, by means of a spring-loaded nut 18, the lever can deflect to the right and create tension in rod 15, from which through lever 19, tension belt 2G, rod 21, lever 22 and belt 23, tension will be perceived by a ring 6

The force from the tension tape 20, equal to the force from the tension tape 23. creates a torsional pair of forces. The spring 24 in the lower part of the lever 16 provides a constant amount of tension during long-term testing.

15

FIG. four

 84523-4-

The point of attachment of the lever 16 with the rod 15 when the latter is deflected will move to the arc of a circle, the center of which is the axis 17 of the lever. To eliminate this phenomenon, an adjustment of the length of the rod 15 is provided.

To control the magnitude of the load applied to the specimen on the bottom 14 of the torsional mechanism, a calibrated rod 25 is fixed, designed to record the magnitude of the reactive torque by the magnitude of the elastic deformation of the rod extension measured, for example, by a strain gauge.

In order to create a compressive load, joint or separate with torsion, in the upper part of the machine (Fig. 1) screw-bolts 4 are fixed —the lower and upper traverse 26 and 27, between which a screw or other dOM-clamp 28 is installed, creating a compressive load on the sample, which is determined by the deformation of the springs 29, previously traversed.

FIG. Figure 4 shows a schematic diagram of a maschine in which the device for loading a sample with a tensile force is made in the form of an unequal arm 30.

Subject invention

1.Machine for testing samples of brittle materials in torsion, joint or separate, with tension or compression, with the use of a cargo linkage device and a screw or other jack for loading the test specimen with a force of stretching or compression, In order to prevent the possibility of the formation of distorting transverse forces and bending moments in the process of sample twisting, the mechanism for torsion of the sample is made in the form of a push lever with paired, interconnected flexible rods opposite to routed and covering the heads of the test specimen, which, when the lever is pressed, tighten the specimen.

2. In the scope of Clause 1, use a calibration rod fastened to one of the grids and intended for fixing the reactive torque according to the magnitude of the elastic deformation of the extension of the rod.