SU1629812A1 - Stand to test specimens for tensile-compressive strength - Google Patents

Abstract

The invention relates to a test technique and reduces the energy consumption during testing of a group of samples. The proposed stand is equipped with additional axial active 6 and passive 2 grips of samples 3. Passive grippers are fixed on the base by cylindrical hinges located along two parallel straight lines, and active grips 6 are fixed on a movable traverse by 3 cylindrical hinges mounted along a straight line straight lines, on which the hinges of the passive grippers are mounted, so that the projections onto the plane, perpendicular to this straight line, of every two pairs of grippers that have hinges pass ivnyh grippers are mounted on different parallel straight, form an isosceles triangle with the acute angle between the axes of these pairs, and Cu lovozbuditel axis located parallel to the base 4 and is crossed by a straight, along which there are active hinge axis 6. The gripper 2 yl.

Description

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FIG. /

The invention relates to a testing technique and can be used when conducting strength tests of samples of materials and full-scale structures, for example, of the type of pipe sections.

The purpose of the invention is to reduce energy consumption during testing of a group of samples.

FIG. 1 shows a stand, side view; in fig. 2 - the same, front view.

The test bench for strength testing contains base 1, passive grippers 2 samples 3, energizer 4 cyclic load, movable traverse 5, pivotally connected to energizer 4, and coaxial passive 2 active grips 6. Passive grippers 2 are fixed on base 1 by means of cylindrical hinges 7 and 8, located along two parallel straight lines, and active grippers 6 are fixed on the movable cross beam 5 by means of cylindrical hinges mounted along a straight line parallel to hinges 7 and 8 passive each of the two pairs of grippers on a plane perpendicular to this straight line, together with the base 1, form an isosceles triangle with an acute angle between the axes of these pairs, and the axis of the energizer 4 is parallel to the base 1 and intersected with the straight axis , along which the axis of the hinges of the active grippers 6.

On the movable traverse 5 fixed inertial mass 9.

Dynamometers 10 are installed between sample 3 and passive grippers 2.

The stand works as follows.

Energizer 4 causes harmonic oscillations of the mobile beam 5. When moving the mobile beam 5 in the direction parallel to the base 1, axial forces occur in the samples 3. And in the samples, fixed in the hinges 8,

they have one sign, and in the samples fixed in hinges 7, opposite. With a decrease in the angle between the axes of the pairs of grippers of the corresponding samples, the forces in the samples increase. The control of the loading force is carried out using dynamometers 10. The loading is carried out at a frequency close to the natural frequency of the stand oscillation, which is adjusted, and the inertial masses 9 are mounted on the movable yoke 5.

Claims (1)

Invention Formula 0 A test bench for tensile-compressive strength containing base, passive gripping of the sample, mounted on the base, cyclic load energizer, movable traverse pivotally connected with the energizer, and coaxial with passive active gripping of the sample, mounted on the movable traverse, characterized in that , it is equipped with additional axial active and passive grippers, passive grippers are fixed on the base 5 by means of cylindrical hinges located along two parallel straight lines, and active grippers are fixed on a movable cross beam by means of cylindrical hinges mounted along a straight line parallel to the straight, 0 along which the hinges of the passive grippers are installed so that the projections onto the plane perpendicular to these straight lines, every two pairs of grippers, in which the hinges of the passive grippers are mounted on parallel straight lines, form an isosceles triangle with an acute angle between the axes of these pairs, and the energetic axis is parallel to the base and intersected with a straight line along which the axes of the active grippers are mounted.  5 h . FIG. 2