RU2138034C1 - Gear for compression test of samples of sheet material - Google Patents

Abstract

FIELD: testing equipment. SUBSTANCE: gear includes bed frame with two props and guiding frame and separable support mounted on it. The latter carries two rigid plates to support sample. Clamping rest is placed in guiding frame. It is made of two parts and wedge located between them. Under lateral deformations of sample displacement of part of clamping rest that touches plate supporting sample occurs. With this wedge displaces perpendicular to axis of clamping rest. EFFECT: enhanced degree of relative deformation of sheet material with uniform linear stressed state. 3 dwg

Description

 The invention relates to the field of determining the physicomechanical properties of metals and can be used in various industries (engineering, aircraft manufacturing, shipbuilding, etc.) to study the resistance of materials to plastic deformation.

 A device / 1 / is known for compressing samples of sheet material, including a bed with two racks, a guide frame mounted on it, in which a pressure stop is placed, a removable support on which two rigid plates are mounted to support the sample, and a centering element in the form of a screw with a ball on its working end, an elastic element to compensate for the transverse deformation of a compressible sample. The main disadvantage of this device is the impossibility of settling samples to large (> 0.15) degrees of relative deformation.

 The invention is aimed at increasing the degree of relative deformation of a sample of sheet material with simultaneous linear stress state.

 This is achieved by the fact that in the device the clamping stop is made of two parts and a wedge with an angle α is inserted, the value of which is prescribed from the condition of compressing the sample under a uniform linear stress state.

 The structural diagram of the proposed device is presented in the following figures: FIG. 1 is a main view, FIG. 2 is a top view of the device, FIG. 3 is a view of the device along section AA.

 The device consists of the following main elements: bed 1 with two uprights, rigidly fastened with it with two screws 2 of the guide frame 3, screwed into one of the uprights of the screw bed 4, a centering ball 5, two supporting rigid plates 6, a removable support 7 and a load 8 plates as well as a pressure stop 9 made of two parts, and a wedge 10 with an angle α is introduced, which is necessary to compensate for the transverse (in thickness) deformation of the sample.

 During testing, a flat sample 11 of sheet material with dimensions hxbxt (height x width x thickness) with an anti-friction layer 12 superimposed on its lateral surfaces is placed on the base plate 7 between the supporting plates 6 and is pressed through the stop 9 and the centering ball 5 by the screw 4 until the left plate contacts 6 with a bed stand with a preload force of 0.2 - 0.3 kN.

The device is assembled installed on the base plate of the testing machine, then the sample is loaded with force P through the loading plate 8. In this case, the lateral deformations arising in the sample 11 will cause the left part of the stop 9 in contact with the plate 6, which in turn will cause the wedge 10 to shift the direction perpendicular to the axis of the stop 9. The angle α of the wedge is prescribed from the conditions of compression of the sample under a uniform linear stress state to large degrees of relative deformation (ε> 0.15).
It is recommended that the dimensions of the sample be selected by the ratio h = (1.5 - 8) b, and the minimum thickness t = 1 mm to prevent the part of the sample protruding from the supporting plates 6 from bending, the height of the latter δ ≤ 1.5t, and the loaded end surfaces of the sample must be strictly parallel to each other and perpendicular to its lateral surface.

After compressing the sample by the amount of ~ δ, the supporting plates 6 and the base plate 7 are replaced with others of the appropriate size in order to continue the deposition of the sample to the required degree of deformation ε.
The proposed device is quite versatile and easy to operate. Its use as a testing technique will allow to conduct research with high accuracy in order to determine the physicomechanical properties of sheet metals with developed plastic deformations.

Sources of information
1. A.S. USSR N 1810785. Bull. pic. N 15, dated April 23, 1993

Claims (1)

 A device for testing compression of samples of sheet material containing a bed with two racks, a guide frame mounted on it, in which a pressure stop is placed, a removable support on which two rigid plates are mounted to support the sample, and a centering element in the form of a screw with a ball on it working end, characterized in that the clamping stop is made of two parts and a wedge is inserted, mounted with the possibility of displacement perpendicular to the axis of the clamping stop when moving part of the pr olive with the stop in contact with the plate to maintain the sample, wherein the wedge angle of the prescribed conditions ensure uniform compression of the sample at a linear tension.

Images