SU1320720A1 - Method of determining adhesion strength of adhesive glass fibre joint - Google Patents

Abstract

The invention relates to a test technique, is intended to determine the adhesive strength of an adhesive-glass fiber joint and allows for improved determination by ensuring that the adhesive adheres equally densely to glass fiber. The fiberglass, installed at one end into the substrate hole, is heated to a temperature of 0.1 to 0.5 of the melting point of the glass fiber material, held at this temperature, and then cooled to ambient temperature. This ensures a clean contact surface of the glass fiber. Heating the glass fiber to a temperature below 0.1 of the melting point of the glass fiber material does not help clean the surface, and heating to a temperature above 0.5 of the melting point of the glass fiber material leads to a change in the physical properties of the material. After applying the adhesive to the substrate around the glass fiber, a compressive pressure of 0.01 to 0.5 MPa is applied to the adhesive along the perimeter to form a uniform and uniform thickness of the contact of the adhesive with the glass fiber. The use of pressure less than 0.01 MPa does not result in compaction of the adhesive, and with a compressive pressure above 0.5 MPa, the adhesive penetrates into the gap between the glass fiber and the substrate. After the adhesive has cured, a shear load is applied to the fiberglass until the fiberglass is removed from the adhesive, and the adhesive strength of the adhesive-fiberglass joint is determined by its size and contact area. S (l

Description

one

The invention relates to a test technique, and specifically to methods for determining the adhesive strength of adhesive-glass fiber joints.

The aim of the invention is to improve the accuracy of determining the adhesion strength of a joint by providing an equal adhesion of the adhesive to the glass fiber.

The method is carried out as follows:

In the hole of the substrate fix one end of the test fiberglass. The glass fiber is heated to a temperature of 0.1 to 0.5 of the melting point of the glass fiber material and held at this temperature, then cooled to ambient temperature. Apply an adhesive to the substrate around the perimeter of the glass fiber, activate the adhesive properties, apply a compressive pressure from 0.01 to 0.5 MPa around the adhesive's perimeter, and cure the adhesive. In this case, the heating of the glass fiber and holding at this temperature contribute to the formation of a clean contact surface of the fiber, and the application of compressive pressure around the perimeter of the adhesive forms a tight uniform contact of the adhesive with the glass fiber throughout the adhesive thickness. In the case of heating the glass fiber below a Temperature of 0.1 melting point of the glass fiber material, a film of acid remains on the surface of the glass fiber, and in the case of heating the glass fiber to a temperature of 0.5 melting point of the glass fiber material its physical properties change.

The use of a compressive pressure of less than 0.01 MPa does not result in the compaction of the adhesive, and at a compressive pressure of 0.5 MPa, the adhesive penetrates into the gap between the glass fiber and the side wall of the substrate opening.

To facilitate the creation of a compressive pressure around the perimeter of the adhesive in the substrate, its holes coaxially are made into which the adhesive is applied.

V1SHIPI Order 2653/47 Circulation 776 Subscription Arv-polygr. pr-tie, Uzhgorod, st. Project, 4

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207202

After the adhesive has cured, a shear load is applied to the fiberglass until the fiberglass is removed from the adhesive, and the adhesive strength of the adhesive-fiberglass joint is determined using the known formula according to its size and area 5 of the contact of the adhesive with fiberglass.

An example. Experienced compound polyethylene - fiberglass. The glass fiber was heated to 120, 360 and 600 ° C. The melting point of the glass fiber material was 1200 ° C. Maintained fiberglass at heating temperatures for 10 minutes. They applied compressive pressure around the perimeter of liquid polyethylene 0.01, 0.25; 0.5 MPa.

The curing temperature of the polyethylene was 150 seconds. The adhesive strength of the joints was 21.3J 26.6 and 44.2 kgf / cm. Tests have shown that the higher the temperature of the fiberglass heating and the higher the compressive 2e

perimeter adhesive pressure,

the higher the adhesive strength of the adhesive-glass fiber adhesive.

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Claims (1)

Formula image shadows The method of determining the adhesive strength of the connection adhesive - fiberglass, in which one end of the test glass fiber is fixed in the substrate hole, adhesive is applied to the substrate around the glass fiber perimeter, activates the adhesive properties and cures the adhesive, applies a shear load to the glass fiber, and determines the adhesive strength by its value, in order to increase the accuracy of determination, before applying the glass fiber is heated to a temperature from 0.1 to 0.5 of the melting point of the glass fiber material, maintained at this temperature, and then cooled to ambient temperature, and after After applying the adhesive, a compressive pressure of 0.01 to 0.5 MPa is applied along the perimeter of the adhesive.