SU1357775A1 - Method of determining strength properties of cable specimens in bending tests - Google Patents

Abstract

The invention relates to a testing technique and can be used to determine the strength properties of cable products. The purpose of the invention is to simplify the method for testing fiber optic cables. A cable specimen with radius g, including a central fiber with a tensile strength (5 ,, Young's modulus E and cross-sectional area S and a sheath with tensile strength C, is bent around the mandrel with radius R, -which is determined from the ratio (J. -G -cE- r / Rx XS i b. A tensile force is applied to the ends of the sample and the sample is loaded until the fiber breaks over the bend region. The critical stress is determined by the magnitude of the tensile force.

Description

The invention relates to a test apparatus, and specifically to methods for determining the strength properties of flexible specimens.

The purpose of the invention is to simplify the method for testing fiber optic cables.

The method is carried out as follows.

A sample of the cable consisting of the light guide AND the sheath is bent around the mandrel and a tensile force is applied to the ends of the sample. The radius R of the mandrel is chosen from the ratio

b, b

E | S.6.

where b is the ultimate strength of the fiber; (2. The ultimate strength of the shell E is the Young's modulus of the fiber; S is the cross sectional area of the optical fiber; i is the cable radius. If the radius R of the mandrel is determined from the ratio

.i ..

then, after the bend of the sample, it is not destroyed by the bending load, and with a radius R of the mandrel determined from the ratio

-I

, -6,

the additional tensile force needed to destroy the stronger component of the cable, i.e. the light guide will be equal

Cj.O, H | S

those. will be less than G j, which will lead to a break in the cable sheath in a straight section, where only tensile force acts.

Subsequently, a tensile force is applied to the ends of the sample until the fiber on the mandrel is destroyed. In this case, the magnitude of the tensile force is recorded, according to which the magnitude of the critical stress in the sample and the strength properties of the cable are judged.

VNIIPI Order 5989/41

Shuffle-half pr-tie, Uzhgorod, st. Project, 4

Example. A fiber was tested with a radius of 0.3 mm, including a glass fiber with a Young's modulus of 5000 kg / mm, a cross-sectional area S of 0.0156 mm and strength of 6.0 kg / mm, and a polyamide sheath with ultimate strength (5j 2,0 kg / mm.

The radius R of the mandrel was selected in the range of 3.0-4.5 mm. The specimen was bent around the mandrel and a tensile force of 2.0 kg was applied to its ends. The fiber was ruptured in a curved region on the mandrel. From the magnitude of the tensile stress, the critical stress was determined, by which the strength characteristics of k-abel were judged.

Predetermining the mandrel radius simplifies the test method, since it eliminates the need for consistently bending the specimen on mandrels of different radii until the specimen is destroyed.

Formula inventions

The method of determining the strength properties of cable samples during bending, by which a cable sample containing a core and a sheath is bent around a mandrel, is applied to the ends of the sample a tensile force and a critical stress value is defined, characterized in that, in order to simplify the test method fiber optic cables., the sample is stretched to the destruction of the cable core at the site of its bending, and the radius R of the mandrel is chosen from the ratio

G, -6, E I ,,

R

where G is the ultimate strength of the core

tensile cable; 6j, - the ultimate strength of the shell

tensile cable; E — Young's modulus of a core; S is the cross-sectional area

cable core; g - cable radius.

Circulation 776

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Claims (1)

Claim A method for determining the strength properties of cable samples in bending, in which a cable sample containing a core and a sheath is bent around a mandrel, applying a tensile force to the ends of the sample and determining a critical stress value, characterized in that, in order to simplify the method when testing fiber optic cables. the stretching of the sample is carried out until the destruction of the cable core in the area of its bending, and the radius R of the mandrel is chosen from the relation where G is the tensile strength of the cable core; FROM? _L is the tensile strength of the cable sheath; E - Young's modulus of the cable core; S is the cross-sectional area of the cable core; g is the radius of the cable. VNIIIPI Order 5989/41 ____ Circulation 776 _____ Subscription Custom polygr. ave, city of Uzhhorod, st. Project, 4