SU783644A1 - Apparatus for double-axis tensile testing of sheet test piecies with radial cutout - Google Patents

Description

The invention relates to the field of strength testing of materials, namely, devices for testing sheet samples with a radial cut for biaxial tension. 5

A device for testing sheet material for biaxial tension, containing an annular matrix, a clamp and a punch [1].

The disadvantage of this device is the inability to determine the components of the drawing force on it.

A device is known for testing sheet samples with a radial cut for biaxial tension, containing 15 an annular matrix and a clamp, a punch and placed in the cutout of a sample: a tangential force meter with a sensor; deformations between the clamp and the matrix [2]. This device 20 is the closest to the invention in technical essence and the achieved result.

The disadvantage of this device is the high complexity of the tests, since it is necessary to repeatedly test a sample to measure the distribution of tangential forces.

The purpose of the invention is to reduce the complexity of the tests. State of emergency

To achieve this goal, the tangential force meter is made in the form of an annular sector of a U-shaped section in the tangential direction with external protrusions on its uprights, the working surfaces of which are designed to interact with the surfaces by cutting the sample, and with uniformly alternating tangential slots made from its two sides, and a groove is made in the clip to accommodate a tangential force meter in it, the width of which is equal to the width of the meter.

In FIG. 1 shows a diagram of the device, front view; in FIG. 2 - the same, top view; in FIG. 3 - tangential force meter.

The device comprises an annular matrix 1 and a clamp 2, a punch 3, a tangential force meter 4 in the form of an annular sector of a U-shaped section in the tangential direction with external protrusions 5 and 6 on its racks 7 and 8, while the working surfaces 9 of the protrusions 5 will last for interactions with cutout surfaces in the sample. The meter 4 is made with 'evenly alternating tangential slots 10 on its two lateral sides. Deformation sensors 11 are placed on the jumpers 12 of the meter 4 between the slots 10, and in the clip 2, a groove 13 is made to accommodate the meter 4. A sample 14 with a radial cutout 15 is placed on the matrix 1.

The device operates as follows.

A tangential force meter 4 is placed in the cutout 15 in such a way that its working surfaces 9, protruding 5 and 6, interact with the surfaces of the cutout 15, and strain gauges 11 are connected. Then, clamp 2 is installed s / eosno with matrix 1 in such a way that meter 4 is located in groove 13 of clamp 2. Install Punch 3, load sample 14 and * pull it out. When drawing in the sample 14, radial tensile stresses and deformations appear in its flange part, uneven along the radius (large near the punch 3 and smaller on the outer edge of the sample 14), and the tangential compressive forces, ® are also uneven. Due to the slots 10, the meter 4 can be comparatively free to deform in the radial Direction, while the components of the radial forces are not transmitted to the strain gauges 11. Decompressive tangential forces, Pg, 'are transmitted to the working surfaces 9 of the meter 4, while the magnitude of the force, which is transmitted to the jumpers 12 of the meter 4, placed between the slots, proportional to the value of the tangential Stresses. The smaller the width · over # 1h-.35 ki 12, the higher the accuracy of measuring the Tangential forces and their distribution.

The device allows using only one sample 14 to obtain the value of the tangential stresses and their distribution at any stage of the hood.

Claims (2)

The invention relates to the field of strength testing of materials, namely, devices for testing sheet specimens with a radial notch for bipolar stretching. A device for testing a sheet of biaxial stretching material containing an annular clamping matrix and a punch 1 is known. A disadvantage of this device is the impossibility of determining the component stretching forces on it. A device for testing sheet specimens with a radial notch for biaxial stretching is known, containing an annular matrix and a clamp, a punch and placed in the sample notch: between the clamp and the matrix, a tangential force meter with strain gauges 2. This device is closest to the invention of technical essence and the achieved result. The disadvantage of this device is the high labor intensity of the testing NII, since to measure the distribution of tangential efforts it is required to repeatedly test the sample. The purpose of the invention is to reduce labor capacity tests. To achieve this goal, the tangential force meter is made in the form of an annular sector of a U-shaped cross section in the tangential direction with external protrusions on it, whose working surfaces are designed to interact with the notch surfaces in the sample, and with uniformly alternating tangential edges from its two sides. slots, and in the clamp there is a slot for accommodating a tangential-force meter in it, whose width is equal to the width of the meter. FIG. 1 shows a diagram of the device, front view; in fig. 2 - the same, top view; in fig. 3 - tangential force meter. The device contains an annular matrix 1 and a clamp 2, a punch 3, a gauge 4 of tangential efforts in the form of an annular sector of a U-shaped cross section in the tangential direction with external projections 5 and b on its uprights 7 and 8, while the working surfaces 9 of the projections 5 will serve for interactions with the cut surfaces in the specimen. The meter 4 is made with evenly alternating tangential slots 10 on its two lateral sides. The strain sensors 11 are softened on the slips 12 of the meter 4 between the slits 10, and the clamp 2 has a groove 13 for placing the meter 4 on it. A sample 14 with a radial cut 15 is placed on the matrix 1. The device works as follows. A gauge 4 of tangential forces is placed in the cut-out 15 in such a way that the working surfaces 9 of its protrusions 5 and 6 interact with the surface of the cut-out 15 and connect the deformation sensors 11. Then set the cfaocHo with the matrix 1, the clamp 2 in such a way that the gauge 4 places it in the slot 13 of the clamp 2. Set the riyaHCOH 3, load the sample 14 and pull it out. When stretching lj4 in a sample in its flange part, radial tension and strain, uneven along the radius (large near punch 3 and Minimum on the outer edge of sample 14), and tangential compressive forces, uneven, occur. Due to the slot 10, the gauge 4 can be relatively deformed freely in the radial direction, while the components of the radial forces are not transmitted to the sensors 11. Deformations. The tangential forces R, are transmitted to the working surfaces 9 of the gauge 4, while the magnitude of the force that It is transmitted to the jumpers 12 of the gauge 4 placed between the slits, proportional to the value of the tangential IVs of the 1st. The smaller the tririn: the crossings 12, the higher the accuracy of the measurement of the tangential forces and their distribution, the device allows, using only one sample 14, to obtain the value of the tangential stresses and their distribution at any stage of stretching. The invention The device for testing sheet specimens with a radial cut for biaxial stretching, containing annular matrix and clamp, punch and again 4e in the cutout of the sample between the clamp and the matrix, a tangential force tester with strain gauges, characterized in that, in order to reduce the complexity of the tests , the tangential force meter is made in the form of an annular sector of a U-shaped cross section in the tangential direction. With external protrusions on its racks, whose working surfaces are designed to Signing from the surface of the notch in the specimen, and with uniformly alternating tangential cuts made from its two lateral sides, and c. The clamp has a groove for accommodating a tangential force meter in it, whose width is equal to the width of the meter. Sources of information taken into account in the examination, 1. Ovdeev BA Testing machines and devices. M., Mashgiz, 1957, p. 287. 2. Grach V.I. Measurement of average tangential :; stress, acting in the flange of the workpiece during stretching. - Forging and stamping production, 1968, 10, p. 19-22 (prototype). 111