SU1165938A1 - Machine for fatigue tests in rotational bending - Google Patents

Abstract

1. MACHINE FOR TESTING OF OBJECTIVES FOR CIRCULAR FLEXIBILITY, containing base, driving and driven spindles with specimen grips, spindle supports mounted on the base, and a device for bending the specimen, which is hinged to the spindle of the Tpiatser link, associated with t gigid. and suspension with a load, about tl and h a yusch and with. In order to increase the test accuracy in determining the cyclic stress intensity factor, the follower spindle support is installed with the possibility of free orientation in the plane perpendicular to the plane tg, and the connectors are connected to the spindles by means of levers attached to each spindle from the side opposite to the grippers. 2. The machine according to claim 1, characterized in that for the free orientation of the support of the driven spindle in a plane perpendicular to the plane of the t, the support is mounted on the base (L with the help of rolling elements from 3. The machine according to claim 1 , characterized in that, in order to ensure a rigid loading mode, it is provided with a support interacting with the crosshead mounted on the base with the possibility of adjusting its height. 05 sd; 0 OP 00

Description

The invention relates to the study of the strength properties of a material, namely, machines for testing fatigue samples, and can be used to study the fatigue resistance of small-sized samples in a circular bend. The known machine for fatigue testing under circular bending, containing spindles with specimen grips, driven in rotation from an electric motor through a flexible roller, IcTBo device for bending the specimen, including traction, traverse and load DJ "However, this machine only allows testing in soft load mode. The closest to the technical essence of the invention is a circular bending fatigue testing machine, containing a base, driving and driving spindles with specimen grips, spindle supports rigidly mounted on the base, and a device for bending the sample, which is directly pivotally connected to spindle mi gi, traverse pivotally connected with t gami, and suspension with load t2l. A disadvantage of the known machine is the low accuracy of the tests in determining the cyclic coefficient K of the intensity of stresses, determined by the formula -. , / - To 6L If. . where n is the variable bending stress; 1l- length (depth) of fatigue cracks. / Due to the low rigidity of small-sized samples used in determining the K coefficient, the accuracy of setting the value is greatly influenced by the possible misalignment of the spindle axes. In addition, the accuracy of determining the length of 1p is negligible when using the microscope and the stroboscopic method of illumination rotating from the working surface of the sample. This is reduced due to the fact that the deflection of the sample occurs downwardly bulging and over the open crack has to be led through the mirror. The purpose of the invention is to improve the accuracy of tests in determining the cyclic stress intensity factor. This goal is achieved by the fact that in a circular bend fatigue testing machine containing a base, a leading and a driven spindle with a specimen grips, a support for the spindles mounted on the base, and a device for the bending of the specimen including hinges attached to the spindles , the traverse pivotally connected with the rods, and the suspension with the load, the support of the driven spindle is installed with the possibility of free orientation in the plane perpendicular to the plane t g, and the rods are connected with the spindles by levers attached to the to each spindle from the side opposite to the grippers. For the free orientation of the support, the driven spindle in the plane, perpendicular to the plane tg, the support is mounted on the base with the help of rolling elements. In order to ensure a rigid loading mode, the machine is equipped with a stop interacting with the crossmember, mounted on the base with the possibility of adjusting its height. The drawing shows the proposed machine, the overall appearance. The machine contains base 1, drive 2 and driven 3 spindles with grippers 4 and 5 of sample 6, supports 7 and 8 spindles. 2. and 3, installed on the base. 1, electric motor. 9, a device for bending sample 6, which includes rods 10 and 11, pivotally connected to spindles 2 and 3, yoke 12, pivotally connected to rods, and a suspension 13 with a load 14. The support 8 of the slave section 3 is fitted with the capability free orientation in the plane perpendicular to the plane of the tons of 10 and 11, on the basis of 1 s, using heat 15 rolling. PLAYER 10 and 11 are connected to spindle 2 and 3 by levers 16 and 17, attach to each spindle 2 and 3 from the side opposite to grippers 4 and 5. Ma: the tire is equipped with an emphasis 18, inter-acting with crosshead 12 mounted on base 1 with the possibility adjusting its height. The drive of the driving spindle 2 is carried out by the electric motor 9 by means of a flexible roller 19.

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The machine operates in the following manner. Sample 6 is installed in grippers 4 and 5, spindles 2 and 3, and is rotated by means of an electric motor 9.

If the leading spindle 2 in the support 7 is accidentally misaligned, the support 8 of the driven spindle 3 moves on the base 1 along the bodies. 15 rolling and occupies a position that eliminates the skew. When the load 14 is mounted on the suspension 13, the sample 6 is bent upwards with a bulge. In this case, the mode of soft loading.

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If necessary, a rigid load of the deflection of the sample 6 under the influence of the calculated load 14 is fixed by means of the stop 18, which acts on the yoke 12, after which the load 14 is removed.

The invention makes it possible to significantly improve the accuracy of testing at 10 determining the cyclic stress intensity factor, as well as in determining the fatigue limit and the number of cycles to failure. sheney.

Claims (3)

1. MACHINE FOR TESTING SAMPLES FOR FATIGUE IN A CIRCULAR BEND, comprising a base, a driving and driven spindles with sample grips, spindle bearings mounted on the base, and a device for bending the sample, which is pivotally connected to the thrust spindles, a beam, pivotally connected to rods, and suspension with load, characterized in that, in order to improve the accuracy of tests when determining the cyclic coefficient of stress intensity, the support of the driven spindle is installed with the possibility of free orientation in the plane, erpendikulyarnoy thrust plane, and the thrust levers are connected to the spindle attached to each spindle on the opposite side grip. 2. Machine by π. 1, characterized in that for the free orientation of the support of the driven spindle in a plane perpendicular to the plane of the rods, the support is mounted on the base using rolling bodies. 3. The machine according to p. ^ Characterized in that, in order to ensure a rigid loading mode, it is equipped with a stop interacting with the traverse, mounted on the base with the possibility of adjusting its height. SU .... 1165938 L 65938