RU2017125C1 - Fatigue testing machine - Google Patents

Abstract

FIELD: investigating strength properties of solid materials. SUBSTANCE: testing machine has bedframe 1, grips 5,6 for specimens 7,8, wheels 4, followers 13, cams 9 with locking pawls 11,12, energy accumulator 2 with driving actuator 3. After running energy accumulator 2 and engaging it with wheels 4, there occur loading of specimens 7,8 by circular bending stresses. After locking cams 9 on bed 1, there occur additional loading the specimen by alternating axial stresses. EFFECT: enlarged functional capabilities. 1 dwg

Description

 The invention relates to testing equipment, to strength tests.

 A known installation for testing samples of materials for fatigue [1], comprising a bed, an energy storage drive with a drive mounted on it, kinematically connected to the energy storage wheels and pairs of active and passive grips of samples, passive of each pair of which is mounted on the bed, and the active one is pivotally connected to the corresponding wheel and is located eccentrically relative to its axis.

 The disadvantage of the installation is that it is not feasible tests when loading the samples as a circular bend, and together with a circular bend and a cyclic or constant axial load.

 The aim of the invention is to expand the functionality by providing tests when loading the samples as a circular bend, and together circular bending and cyclic or constant axial load.

 This is achieved by the fact that the installation is equipped with end cams, each of which is freely mounted on the axis of the corresponding wheel, with pairs of clamps, one of each pair of which is designed to connect the corresponding end cam to the bed, and the other with the corresponding wheel, and pushers mounted on each the corresponding wheel is eccentric to its axis with the possibility of interaction with the profile surface of the corresponding end cam, and each active grip is fixed to the corresponding push rod.

 The drawing shows an amplifier circuit.

 The fatigue testing apparatus for samples of materials contains a frame 1, an energy storage device 2 with a drive 3 installed on it, kinematically connected to the energy storage wheel 4 and a pair of active and passive captures 5, 6, samples 7, 8. Passive capture 5 is mounted on the frame, and the active 6 is pivotally connected to the corresponding wheel 4 and is located eccentrically relative to its axis.

 The installation is equipped with end cams 9, each of which is freely mounted on the axis 10 of the corresponding wheel 4, pairs of clamps 11, 12, one 11 of each pair of which is designed to connect the corresponding end cam with the frame 1, and the other with the corresponding wheel 4, and pushers 13, each mounted on a corresponding wheel eccentrically to its axis with the possibility of interaction with the profile surface of the corresponding end cam. Each active grip 6 is mounted on the corresponding pusher 13.

 The energy store is made in the form of an inertial load 2 and is connected to the wheels 4 by clutches 14, and with a drive 3 - by a clutch 15.

 Installation works as follows.

 When clutches 14 are turned off and clutch 15 is turned on, drive 3 is turned on and loads 2 are untwisted to a speed at which the required amount of energy is stored in the installation. To transfer energy to the samples 7, 8, turn off the clutch 15 and turn on the clutch 14 of the corresponding wheels 4. In this case, the wheels 4 are driven into rotation and produce circular bending of the samples. The mode of axial loading depends on the latches 11, 12.

 To create a cyclic axial load, the latch 11 on the corresponding cam 9 is turned on and connected to the bed 1. The pusher 13, interacting with the profile surface of the cam 9, loads the corresponding sample with a cyclic axial load in addition to circular bending. When the cam is connected to the axis 10 when the latch 12 is turned on, the axial load becomes constant or zero depending on the position of the pusher on the cam profile at the moment the latch is turned on.

 The setup allows one to study a group of interacting energy-absorbing samples in new modes that change during the experiment, namely, under circular bending with a cyclic or constant axial load.

Claims (1)

 INSTALLATION FOR TESTING MATERIAL SAMPLES FOR FATIGUE, containing a frame, an energy storage drive mounted on it, kinematically connected to the energy storage wheels and a pair of active and passive grippers, passive of each pair of which is mounted on the frame, and the active is articulated to the corresponding wheel and located eccentrically relative to its axis, characterized in that, in order to expand the functionality by providing tests when loading the samples as a circular bend, and locally in a circular bend and with a cyclic or constant axial load, the installation is equipped with end cams, each of which is freely mounted on the axis of the corresponding wheel, with pairs of clamps, one of each pair of which is designed to connect the corresponding end cam to the bed, and the other to the corresponding wheel, and pushers mounted each on the corresponding wheel eccentrically of its axis with the possibility of interaction with the profile surface of the corresponding end cam, and each active The gripper is mounted on the corresponding push rod.