RU2047153C1 - Set for conducting fatigue tests of specimens of materials - Google Patents

Abstract

FIELD: conducting strength tests. SUBSTANCE: set has pushers 2 and 3 with retainers 5 and 12, motion mechanism 4, wheel 11 with specimen grip 8 and retainers 9 and 10 of grips on wheel. Loading the specimen is effected at reciprocating motion of wheel 11; relationship of loads is adjusted by turning the wheel through changing-over retainers 5 and 12. Set may be used for testing specimens of various materials and articles. EFFECT: extended functional capabilities since axial and bending inertial loads relationship may be adjusted during tests. 1 dwg

Description

 The invention relates to strength tests.

 Known installations for testing fatigue samples having a base, two pushers mounted on it, a mechanism for reciprocating movements of the pushers, a first pusher lock on the base, sample grips, clamps for connecting the grippers to the pushers.

 The lack of installations, the impossibility of testing when adjusting the ratio between axial and bending inertial loads. Only axial inertial load is created with constant bending deformation.

 The purpose of the invention is the expansion of functionality by providing tests with an adjustable ratio between axial and bending inertial loads.

 The goal is achieved by the fact that the installation is equipped with a gear wheel, a latch for connecting the first pusher with a reciprocating movement mechanism, while the pushers are made in the form of racks and coupled to the wheel, and the grippers are mounted on the end surface of the wheel.

 With this installation design, loading is performed by inertial force from the reciprocating movements of the sample, as in the prototype. In this case, it is possible to change the orientation of the axis of the sample relative to the direction of its movements. This change is ensured by the fact that when switching the pusher lock, it is possible to rotate the wheel by a predetermined angle during movements, which is not feasible on the prototype and provides adjustment of the ratio between inertial axial and bending loads.

 The difference of the proposed solution lies in the fact that at the end of the wheel grips with clamps are installed, and in the known solution, the gripper is mounted on the axis of the wheel. This creates various effects: loading the sample by bending with twisting in a known solution, and loading the sample with inertial axial and bending loads with the regulation of their ratio in the proposed solution. This proves the significance of the differences of the proposed solution.

 The drawing shows the installation diagram.

 The installation contains a base 1, two pushers 2 and 3 mounted on it, a mechanism 4 for reciprocating movements of the pushers, a latch 5 of the first of the pushers 2 on the base, grippers 6 and 7 for the sample 8, latches 9 and 10 for connecting the grippers with the pushers.

 The installation is equipped with a gear wheel 11, a latch 12 for connecting the first pusher 2 with the mechanism 4 of the reciprocating movements. The pushers 2 and 3 are made in the form of racks and are coupled to the wheel 11. The grips 6 and 7 are mounted on the end surface of the wheel 11.

 The reciprocating movement mechanism is made in the form of a frame 4 with a roller 13 and a roller rotation drive 14. The grips are equipped with inertial loads 15.

 Installation works as follows.

 When the latch 12 is turned on, the actuator 14 is turned on and, using the roller 13 and the frame 4, reciprocating movements of the pushers 2 and 3 and the wheel 11 are created. One of the latches 9 or 10 is turned off, as a result of which the specimen 8 is loaded with bending and axial tensile or compressive loads. To change the ratio between axial and bending loads, the latch 5 is briefly turned on and the latch 12 is turned off. After that, the frame 4, continuing its movement through the pusher 3, rotates the wheel 11 by a predetermined angle. The latches 5 and 12 are switched again, connecting the pusher 2 with the frame 4. The tests continue with a new orientation of the sample axis with respect to the direction of movement of the pushers, which gives different ratios between axial and bending loads from pure axial compressive or tensile loads to clean bending.

 The setup allows testing in new conditions with wide regulation of the ratio between inertial axial and bending loads during the experiment.

Claims (1)

 INSTALLATION FOR TESTING MATERIAL SAMPLES FOR FATIGUE, containing a base, two pushers mounted on it, a mechanism for reciprocating translations of the pushers, a first pusher lock on the base, sample grips and clamps for connecting the grippers to the pushers, characterized in that, in order to expand the functionality by providing tests with adjustable axial and bending inertial loads, it is equipped with a gear wheel and an additional clamp for connecting the first push I with the mechanism of the reciprocating movement, the pushers are designed as strips and are in engagement with the gear, and grips mounted on the end surface of the wheel.