SU1497483A1 - Specimen for determining joint destruction viscosity - Google Patents

Abstract

The invention relates to a test technique, is intended to determine the fracture toughness of the sample connection and allows to increase the accuracy by eliminating the effect of the airlock at the moment of supplying the liquid to the interface between the coating and the substrate. The substrate 1 is made in the form of a hollow cylinder with holes 2 placed radially at the same distance from one of its ends. Along the perimeter of the outer surface of the substrate between the holes 2, a layer 3 of material is placed which is anti-adhesive with respect to the coating 4. When fed into the internal cavity of the substrate of working fluid, it penetrates through the opening 2 between layer 3 and the coating 4, displaces the air from there and forms an initial annular crack. With a further increase in the pressure of the fluid, the splitting and growth of the annular cleavage along the interface occurs, and the fracture toughness of the coating is determined taking into account the modulus of elasticity and the Poisson's ratio for a given material by known formulas. 2 Il.

Description

there the air and form the initial annular crack. With a further increase in the pressure of the fluid, the stratification and growth of the annular cleavage along the interface,

and the fracture toughness of coating 4 is determined taking into account the modulus of elasticity and the Poisson's ratio for a given material using the known formulas, 2 Il.

The invention relates to a testing technique, namely samples dp for determining the fracture toughness of joints.

The aim of the invention is to improve the accuracy of determining the fracture toughness of a joint by eliminating the effect of an airlock at the moment of supplying fluid to the interface between the coating and the substrate.

Fig, 1 shows a diagram of the sample; in fig. 2 is the same, section A-A in FIG. one.

The sample consists of a substrate 1, made in the form of a hollow cylinder with holes 2 placed radially at the same distance from one of the ends of the substrate 1, a material 3 layer 3 located on the outer surface of the substrate 1 between the holes 2, whose width is equal to the diameter of the holes 2, and the material J deposited on the outer surface of the substrate J and the layer 3, and the covering hole 2 of the coating 4, the layer 3 of the material is anti-adhesive with respect to the coating 4.

The sample is tested as follows.

At one of the ends, the substrate 1 is crushed 5, and the other end is installed the substrate 1 on the cell 6 of the adhesion meter connected to the loader (not shown). The pre-ends of the substrate 1 are sealed with 7.8 "gaskets. The working fluid flows through the cavity the holes 2 of the substrate 1 between the material layer 3 and the coating 4, the air is forced out from there, and forms an initial annular crack of the bundle with a width equal to the width of material layer 3

With a further increase in the pressure of the working fluid, the stratification and growth of the annular cleavage along the phase boundary,

0

five

0 r

0

0

five

the pressure at the time of cracking, fixed by the pressure gauge 9, as well as the modulus of elasticity E, the Poisson's ratio for a given material, using known formulas, determines the fracture viscosity on the interphase boundary of coating 4 with the substrate 1.

Making the substrate 1 of the sample in the form of a hollow cylinder with radial holes 2 at one distance from its end makes it possible to determine the fracture viscosity along the interphase boundary of the layered cylindrical structures.

The implementation in the substrate 1 of the sample of the radial holes 2 below the upper level to which the working fluid is poured into the sample makes it possible, when filling the sample with liquid, to avoid the formation of air plugs between the liquid and the interface due to the gradual displacement of air by the liquid.

The application of a layer of material 3 which is anti-adhesive to the coating 5 between the radial holes 2 allows the initial annular crack of the bundle in the cylindrical shell to be determined during the supply of the dead medium through the phase boundary and determine the future fracture viscosity without affecting the air block at the moment of the fluid supply at the interface of the coating 4 with the substrate 1.

In addition, the sample expands

experimental capabilities by determining the fracture viscosity at the interphase boundary of layered cylindrical structures and studying the effect of various liquid media on the fracture viscosity at the interfacial boundary

Formula invented

A sample for determining the fracture toughness of a joint using proppant fluid pressure, made in the form of a substrate with openings and a coating applied to it and blocking aperture, characterized in that, in order to improve the determination accuracy by eliminating the effect of the air plug at the moment of fluid injection

97483

ten

on the boundary between the coating and the substrate, the substrate is made in the form of a hollow cylinder, the holes are placed radially at the same distance from one of the ends of the substrate, around the perimeter of the outer surface between the holes is placed a layer of anti-adhesive with respect to the coating material whose width is equal to the diameter of the holes, and the coating is applied on the layer of material and on the outer surface of the substrate.

D-4

(PUZ.2.

Claims (1)

A sample for determining the fracture toughness of a compound using a proppant fluid pressure, made in the form of a substrate with holes and a coating deposited on it and covering the holes, characterized in that, in order to increase the accuracy of determination by eliminating the effect of an air plug at the time of liquid supply to the interface coatings with a substrate, the substrate is made in the form of a hollow cylinder, the holes are placed radially at the same distance from one of the ends of the substrate, along the perimeter of the outer surface between the antiadhesive layer openings arranged with respect to the covering material, the width of which is equal to the diameter of the holes and the coating applied to the material layer and the outer surface of the substrate.