SU1318812A1 - Method of measurinng coefficient of stress concentration - Google Patents

Abstract

The invention relates to a measurement technique and allows to increase the accuracy and shorten the measurement time. In the sample under study, a plate of optically active material is cut holes - indicators 2, 3, in the form of slots, drilled at the ends and located relative to concentrator 1 at a distance not less than three times the largest of its size. The stretched specimen is illuminated using a polarization-projection installation. The ratio of the number of strips from the design points (slots 2 of the indicator holes) to the concentrator 1 to the indicator hole 2, 3 calculates the coefficient, stress concentration in the sample. 1 il. iS. t i Ф t

Description

one

The invention relates to a measurement technique and can be used to measure the stress concentration coefficient in parts of machines, building structures and structures.

The aim of the invention is to improve the accuracy of measurements and reduce the time of the measurement process.

The drawing shows a sample with the test hub, a general view.

The sample under study is a rectangular plate with a study of concentrator 1 and a reference indicator concentrator consisting of a notch 2 and aperture 3,

The measurement of the stress concentration of the proposed method using a test specimen with a concentrator is carried out as follows.

The concentration ratio of the reference concentrator indicator is theoretically determined. When a sample is stretched and the sample is polarized with polarization light, the concentration ratio of the test concentrator 1 is determined from the number of bands in the interference pattern and the theoretical concentration factor.

If a reference concentrator indicator is present in the sample under test, regardless of the magnitude of the load P, the value of the stress concentration coefficient is determined by the formula

about

mr

--TO

optical path difference

(or the order of the strip) is measured at the point of the contour of the electric hub, the optical path difference (or the order of the bands) measured at the points of action of the peak voltages. concentration ratio

reference concentrate. the value of Kj is closest to my coefficient of the concentration of the investigated concentrator.

then at K, sl

MdKc and error

one

 l (/ (, + about ms (ks

one

)

(one)

- t / Mdnc minimum value, accuracy, provided by the method.

122

If the obtained error value satisfies the requirements, then the determination of the stress concentration factor K

is running out. Otherwise, a second approximation is performed.

In the first approximation, the calculation of the concentration ratio of the concentrator under study is performed according to the formula

for stretching a plate with an elliptical hole:

K, 2 + 1 n

(2) 15 For slit 2 of length 1, drilled at the end by a hole 3 of radius R, we have

20

K 1 + 2

(3)

Therefore, in the case of 1.2 h, in order to ensure an approximate equality of the concentration ratios of the concentrator under study 1 and the reference concentrator, it is necessary that 1 3 R.

The distance between the test hub and the reference

thirty

a „7, 3 1

Thus, in the sample under study, at the distance a from the concentrator under study, the through holes of 3 with radius R are drilled and

slot 2, length 1 (with R). Next, the sample is stretched with a force P and shine through with a polarization-projection installation. In this case, zero-order interference bands are located at unloaded points of the sample. By counting the number of bands with a cac from design points 2 to the concentrator under study and c / j to the reference concentrator, the concentration ratio of the concentrator under study is calculated by the formula

  dp

in this case, the EE 5 in accordance with (3) for the case of 1C

Claims (1)

Invention Formula The method of measuring the stress concentration coefficient, which consists in using a plate as a test specimen. carbon forms from optically active material with a test concentrator in which holes are preliminarily cut — indicators, after which the value of the coefficient of concentration of the photoelasticity is determined, characterized in that, in order to increase accuracy and reduce the time of measurement, slots, tO drilled at the ends and located relative to the investigated concentrator at a distance of not less than three times the largest size of the investigated concentrator, and the coefficient of 124 the concentration concentration is determined dependencies J  mssss to with, to uh de c M with/. to - the number of interference fringes from the unloaded point of the sample to the concentrator under study, e is the number of interference fringes from the unloaded point of the sample to the reference concentrator, 3, is the calculated concentration ratio of the reference concentrator.