SU1516904A1 - Specimen for determining energy of adhesion failure - Google Patents

Abstract

This invention relates to instrumentation technology. The aim of the invention is to increase the reliability of the results of determining the adhesive failure energy by implementing a strictly adhesive type of joint destruction, as well as to reduce the duration of sample testing by eliminating additional tests to select the angle of inclination of the axis of the non-slab zone. To achieve this goal, in a sample containing a rigid substrate 1 with a through hole 2 and an adhesive 3 applied to it, an area 4 of a non-covering in the form of an ellipse is formed on the interface and the center of intersection of the axes of which coincides with the center of the hole in the substrate view 0.8≤B / A * 981.0, where A is the major semi-axis of the ellipse, B is the minor axis of the ellipse. The energy γ _{A of} adhesive failure is determined taking into account the following values: σ is the pressure of a liquid or air in the cavity of the non-closure zone

ν is the Poisson's ratio of the adhesive layer

E is the modulus of elasticity of the adhesive layer

A - half of the major axis of the ellipse

B - half of the small axis of the ellipse. 2 Il.

Description

1

The invention relates to instrumentation engineering and can be used to quantify the adhesive breakdown energy at the interface between the phases of laminated composite materials and adhesive compositions.

The aim of the invention is to increase the reliability of the results of determining the adhesive failure energy by implementing a strictly adhesive type of joint destruction, as well as reducing the duration of specimen testing by eliminating additional tests to select the angle of inclination of the axis of the non-overlay zone.

Figo provides a sample circuit and device for testing it; Fig. 2 shows the experimental dependences of the pressure of the liquid (a) and gas (b) on the ratio b / a, where a is the major semi-axis of the ellipse and a, b is the small semi-axis of the ellipse.

The sample contains a rigid substrate 1 with a through hole 2 and an adhesive layer 3 applied to the substrate. On the surface of the phase separation between the substrate and adhesive, a non-coated zone 4 in the form of an ellipse is formed, the center of intersection of the axes of which coincides with the center of the hole in the substrate, and the ratio of axes of the ellipse looks like 0.8 b / a, 0 (fig „1).

An increase in the reliability of the results obtained is achieved due to the fact that under pressure conditions (3 in the cavity, representing a non-plank zone in the form of an elliptical treadmill with a ratio of 0.8 b / a semi-axes, 1.0, the beginning of fast dynamic destruction preceded by a slow, stable growth along the small axis of the ellipse, during which the crack tends to be circular with a diameter of 2a, and the energy Ud of adhesive failure turns out to be independent of the length of the crack and is calculated by the formula

f. Sl | ...,

where C is the pressure of the fluid or air in the cavity of the non-pierced zone;

 - Poisson's ratio;

E is the modulus of elasticity of the adhesive layer;

a.half of the major axis of the ellipse

b - half of the small axis of the ellipse

0

five

0

five

0

five

0

five

0

five

In addition, the possibility of implementing a slow, steady growth of a crack makes it possible to carry out a strictly adhesive type of separation both under the action of fluid and air, which makes it possible to compare the media by their aggressive effect on the adhesive bond of the phase boundary (Fig. 2). It also increases the reliability of the results.

A device for testing the proposed sample consists of two clamping discs 5 and 6, between which a test sample is placed. The lower clamping disk 5 has a fitting

7dl to supply to the sample fluid under pressure measured by the sensor

8 pressure.

The adhesive failure energy on a proposed sample is determined as follows.

Liquid or gaseous medium is supplied under increasing pressure, measured by pressure sensor 8, through fitting 7 to the interface of adhesive 3 - substrate 1. At the same time, cracking along the interface between the adhesive and substrate is started and grows. With increasing pressure, the breakdown process stops. Successive stages of increase to the moment of the onset of destruction and pressure reduction before it stops with the pressure recorded by sensor 8 make it possible to determine with a high degree of confidence by obtaining several JCa values on one sample.

I

The sample is tested as follows.

Distilled water is used as a liquid medium, and acrylate glue is used as an adhesive. Steel is used as the substrate material. The experimentally obtained adhesive breakdown energy is: 25 N / m air 54 m / m. The best reproducibility of the results was obtained with an adhesive thickness of 5 Oz. In addition, microscopic examination of the substrate surface after the sample is destroyed by the air medium shows the absence of polymer layers, i.e. the implementation of strictly adhesive type of destruction.

formula

five

of

15

bratis

A sample for determining the energy of adhesive failure, made in the form of a rigid substrate with a through hole and a layer of adhesive deposited on the surface of the substrate, characterized in that, in order to increase the reliability of the results of the determination of the energy of adhesive failure, the interface

1516904

the phases of the substrate — adhesive are made with a non-covered zone in the form of an ellipse, the center of intersection of the axes of which sorts with the center of the hole in the substrate, and the ratio of semi-axes is chosen in the range

0.8 Å 1.0

but

ten

where a b

-big semi-axis of the ellipse;

-mala half axis of ellipse.

V.

-6

gd gv

f

q 0.8 0.9 FIG. 2

X

7.0

S / ff

Claims (2)

Claim A sample for determining the energy of adhesive failure, made in the form of a rigid substrate with a through 5 hole and a layer of adhesive deposited on the surface of the substrate, characterized in that, in order to increase the reliability of the results of determining the energy of adhesive destruction, the interface between the substrate and the adhesive is made with a non-adhesive zone in the form of an ellipse, the center of intersection of the axes of which coincides with the center of the hole in the substrate, and the ratio of the semiaxes is selected in the range b 0.8 g - 1.0 a where a is the semimajor axis of the ellipse; B - minor axis of the ellipse. Phi2. 2.