SU1295279A1 - Device for compression-shear testing - Google Patents

Abstract

The invention relates to a testing technique and allows prismatic specimens made of non-rigid materials to be sheared with compression, given the laws of translational motion, of a traverse designed to interact with the test object. The purpose of the invention is to reduce the weight and size parameters of the device when tested under conditions where shear deformations are higher than compressive, i.e., at the angle of inclination of the abutment surface of the abutment O-45 °. The device contains guide 3 stem 2, located in guide 4 base 1. The movable guide 3 stem 2 have perpendicular to the direction of their possible movement guide 8 traverse 6, on one side of which is fixed stop 9 with a profiled surface 10 contacting with the end of the stem 2, which with the other end rests on the base 1. The other side of the cross bar 6 contacts the object under test 7. The displacement of the cross bar 6 is set rigidly fixed on the movable guideways 3 by the energizer I I set coaxially with the cross arm 6. In this case, the rod 2, interacting with the stop 9 on the profiled surface 10, forces the cross bar 6 to move in the direction perpendicular to the direction of movement defined by the force actuator 11. Folding these movements provide the specified law of motion of the cross bar 6 and therefore, the given law of motion of the surface of the test object is 7. 1 Il. (L to sd 1 hE; o

Description

a circular hinge guide 8. Folding, these movements provide a given law of movement of points of the loading surface of the test object 7. Changing the loading law of object 7 is achieved by changing the angle of inclination of the abutment surface 10 of the abutment 9 and changing the profile of the abutment 9 along the abutment surface 10. Placement in the force The force measuring circuit 12 and 13 practically does not reduce the accuracy of the invention. The invention relates to test equipment, namely, devices for strength testing of non-rigid materials that are used in creating Denmark shock absorbers.

The purpose of the invention is to reduce the mass-size parameters of the device when testing under conditions of excess shear deformations over compressive, i.e., at an angle of inclination of the abutment surface of the stop O-45 °.

The drawing shows the scheme of test predisposition even when the interchangeable device. The loading surface register registers the device contains base I, rod 2, with respect to movement of the crosshead 6 relatively movable guides 3 of the rod 2, us- The traversing directions 6 parallel to them are large, and the changes in sizes of sizing 4 and 5, which are made in measuring gauges 12 and 13, do not exceed 0.1% of 1, traverse 6, intended for moving points of traverse 6 to interact with the subject The object 7, the hinge guide 8 crosspiece 6 is rigidly fixed to the guide 3 schtoka 2 perpendicular to the direction of possible movement of the rigidly mounted on the plate 6, abutment 9 with the inclined thrust the profiled surface 10, energizer 11, rigidly fixed to the guide 3, the stem 2

Claims (2)

Invention Formula 20 coaxially traverse 6 and a shear compression test force associated with it, comprising a base, a stem, stem guides, a traverse designed to interact with the test subjects, a hinged guide traverse, perpendicular to the stem guides, by measuring device 12, force measuring device 13, a 25 stop connected with a cross-beam with an inclined base 1 and one end face with a stopper-resistant surface and a force measuring device, 2, the other end of which is hingedly different in that, in order to reduce It operates with an inclined thrust above the weight and size parameters of the device when 10 of the stop 9. tests in conditions of excess shear The device operates as follows. out of deformation over compressive, i.e. On the base 1, the test subject 30 is placed with the angle of inclination of the stop surface of the stop object 7, the traverse 6 is brought to its contact with the loading surface of the object 7 and the hinged contact of the stop surface 10 of the stop 9 with the rod 2. The actuator 11 is actuated, which0-45 °, the rod guides, are installed in parallel guides parallel to it, which are made at the base, the traverse guides are rigidly fixed on the rod guides, the support is rigidly fixed to the traverse through the load-measuring device 12 creates axial crossover, and the device is supplied with a force-induced force on the yoke 6, causing it to move in the hinged guides 8. When the yoke 6 is moved, an additional force occurs from the rod 2, which is transmitted to the yoke 6 through the stop face of the stem, another rec Shar NOSTA which stops 9 and 10 causes a further movement of crosspiece 6 perpendilem rigidly fixed to the guide and the traverse schtoka coaxially associated with it through siloizmeritelej and second siloiz- measurer binding with a base Nirn interact with the inclined surface of the stop. a circular hinge guide 8. Folding, these movements provide a given law of movement of points of the loading surface of the test object 7. Changing the loading law of object 7 is achieved by changing the angle of inclination of the abutment surface 10 of the abutment 9 and changing the profile of the abutment 9 along the abutment surface 10. Placement in the force the force measuring circuit 12 and 13 practically does not reduce the turning of the cross beam 6 from 1, as the displacements, and the changes of the spacing 12 and 13, do not exceed the points of the cross beam 6 Invention Formula tilt angle of the abutment surface 0-45 °, the guide, s stem is installed in parallel guides, which are made at the base, the traverse guides are rigidly fixed on the rod guides, the support is rigidly fixed on the traverse, and the device is provided with a force-limiting shaft, the other end of which is -  here, and the device is equipped with a silo-powering tool, the other side of which is a ball a lem rigidly fixed on the guides of the shaft coaxially with the traverse and connected with it through a load cell, and the second force measuring device connected to the base one  here, and the device is equipped with a silo-powering tool, the other side of which is a ball Nirn interact with the inclined surface of the stop.