SU1499151A2 - Sample for determining strength of adhesion of gas-thermal coatings with blast material - Google Patents

Abstract

The invention relates to a testing technique and makes it possible to improve the accuracy of determining the adhesion strength of gas-thermal coatings with the base material when testing samples by providing a guaranteed tear-off at the edge of the coating-pin. The end face 4 of the cage 1 from the side of the truncated cone 2 is made conical and together with the surface of the truncated cone 2 forms a protrusion 5 of triangular section, and the height H of the truncated cone 2 and the diameter D of the pin 6 are selected from the condition 2HΔ. The conical end 4 and the annular protrusion 5 of the cage 1 prevent the spontaneous cone 2 from spontaneously detaching the cover 8 from its thermal contraction during cooling. The selected ratio of the dimensions of the height H of the truncated cone 2 and the diameter D of the pin 6 and the installation of the end face 7 of the pin 6 in the same plane with the smaller base of the cone 2 ensure a guaranteed tear off at the interface of the cover 8 with the end face 7 of the pin 6. 1 Il.

Description

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The invention relates to a testing technique and is an improvement of a known sample according to the author. St. No. 1352325..

The aim of the invention is to improve the accuracy of determining the adhesion strength of gas-thermal coatings with the base material by providing a guaranteed detachment along the coating-pin border when testing a sample.

The drawing shows a diagram of the sample

The sample is made in the form of a holder 1 with a hole that has the shape of a truncated cone 2 and a cylinder 3 associated with its smaller base. The end face 4 of the holder 1 on the side of a truncated cone 2 is conical and forms, with the surface of a truncated cone 2, a protrusion 5 of a triangular profile O Cylindrical pin 6 is installed in the cylindrical part of the opening of the cage J so that its end 7 is placed in the same plane with the smaller base of the cone 2, and the cover 8 is placed on the end 4, the protrusion 5, in the conical part of the hole of the clip and on the end 7 Tift. The height H of the truncated cone 2 and the diameter D of the pin 6 are selected from the condition 2Н D.

The sample is made and tested as follows.

The cylindrical pin 6, made of the test material, is mounted in the cylinder 3 holes of the yoke 1. Test coating 8 is applied by one of the known methods on the end 4, in the conical part of the hole 1 and on the end 7 of the pin 8 truncated cone 2 and the annular protrusion 5 of the holder 1 and

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the conical end 4 and the annular jaw 5 of the cage 1 are retained on them to prevent the spontaneous separation of the cover 8 from the walls of the truncated cone 2 during its thermal shrinkage during cooling. The obtained sample is fixed in a tear-off device (not shown) and a tearing load is applied to the pin 6. By making the height H of the truncated cone 2 and the diameter D of the pin within 2N D and the installation of the end face 7 and the pin 6 in the same plane with the smaller base of the cone 2, the gap between the cover 8 and the end 7 of the tip 6 is ensured. Completion of the height H of the truncated cone 2 n of the diameter D of the pin 6 within smaller limits leads to cohesive destruction of the coating 8 along the perimeter of the pin 6 "The size of the load to be destroyed and the area of the end face 7 of the pin 6 are measured, and the adhesion strength of the coating with the base material is determined by the known formula.

Claims (1)

Invention Formula A sample for determining the adhesion strength of gas-thermal coatings with the base material according to Avt. No. 1352325, in order to improve accuracy by providing a guaranteed edge-to-pin, edge of the clip from the truncated side. the cone is made conical and forms, together with the surface of the triangular profile, truncated to the onus, and the height H of the truncated cone and the diameter D of the pin are selected from the condition 2Н D