SU1786392A1 - Impact strength testing method for notched thin-sheet specimens - Google Patents

Description

The invention relates to mechanical testing of sheet metal samples to determine the toughness of the material.

There is a known method for impact testing, which consists in testing a composite sample in the form of a package of plates with a transverse notch and the same sample fixed in a U-shaped holder, mounted on the supports of the test device, loading the samples with impact, determining the energy spent on deformation and fracture the sample (in the first case), the definition of the energy expended on the deformation of the holder (in the second case), which is taken into account when determining the energy spent on the deformation and destruction of the sample.

The closest technical solution to the Invention is a method for testing the impact strength of thin-sheet samples with a notch, in which the sample is placed in a holder formed by pouring a liquid mixture into the formula in which the sample is placed, and the mixture is cured. The energy spent on the destruction of the cage and the sample is determined, then the energy of deformation and destruction of only the cage by loading the latter with a composite sample and. comparing the test results, determine the toughness of the sample material.

The disadvantage of this method is that to determine the energy spent on the destruction of the cage, use a detachable sample composed of two

786392A1 of the halves that resulted from the destruction of the sample, again fill these halves of the sample into the mold and cure, which reduces the accuracy of the test and requires a significant investment of time in obtaining test results.

The aim of the invention is to increase accuracy by using all the energy only to destroy the sample and increase productivity. .

This goal is achieved by the fact that, in the method for testing the impact strength of thin-sheet specimens with a notch, in which the specimen is placed in a device that gives it rigidity in the direction perpendicular to the plane of bending of the specimen, it is mounted on the supports of the test device, the specimen is loaded with a bending shock, energy is determined, spent on deformation and destruction of the specimen, and it is used to judge the impact strength of the specimen, using the trims between which many joints secure the ends of the sample, leaving a free length of the working area of the sample sufficient to pass the shock element of the test device. .

In Fig. 1, a sample is mounted on the supports of the test device with the straps fixed at its ends: in Fig. 2, the same top view; in FIG. 3, section AA in FIG. 1; figure 4 is a section bB in figure 1; figure 5 - section bb in figure 1.

The method is as follows.

Sample 1 using bolts (screws) through pre-made holes at its ends is fixed between the strips to give it rigidity in the plane of the impact, while leaving a free zone sufficient and necessary for the passage of the shock element of the test device. the ends of the strips 3 protrude beyond the edge of the sample by 8-10 mm. After that, the sample 1 with the fixed strips 3 are freely mounted on the supports 4 of the test device. Sample 1 with straps 3 is loaded dynamically, for example by impact, in a notch section. The energy spent on breaking the sample is determined. Since the straps 3 are located beyond the working area of sample 1, all the energy is spent only on its destruction, while the length of the sample does not affect the test results.

A test was conducted according to the method [2] of samples 1.5 mm thick made of steel 03X11H10M2T. The holder with the sample has a cross section of 10x10 mm. The length of the sample is 55 mm and the length of the clip is 70 mm. The clip is made of cured epoxy. From the same steel, samples were tested using removable strips 3 having a cross section of 10x10 mm. The value of impact strength for the above steel was when testing the samples in the holder And _to = 27.5 J / cm ² and for samples using straps Ak = 26.5 J / cm ² .

The test results showed that the proposed method provides an objective and more accurate assessment of the state of the material by impact strength, since all the energy is spent only on the destruction of the sample, while significantly increasing labor productivity by reducing the time it takes to prepare the sample for testing, the process of calculating test results is simplified .

Claims (1)

Claim A method for testing the impact strength of thin-sheet specimens with a notch, according to which the specimen is placed in a fixture that gives it rigidity in the direction perpendicular to the plane of bending of the specimen, is mounted on the supports of the test device, the specimen is loaded with a bending impact, the energy spent on deformation and destruction of the specimen is determined, and it is used to judge the impact toughness of the sample, characterized in that, in order to increase accuracy by using all the energy only to destroy the sample and increase the production In order to achieve this, we use trims between which the ends of the specimen are fixed by means of a detachable connection, leaving a free length of the working zone of the specimen sufficient for the shock element of the test device to pass.