RU2616742C2 - Durability increase method of copper product operating under creep conditions - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: method of increasing the product life of polycrystalline copper, working in creep conditions includes determining the relative change in the product of the creep rate in the linear portion of the creep curve, with slowing of creep process by exposing the product to a constant magnetic field from 0.05 to 0.6 Tesla.

EFFECT: increased product durability, operating in creep conditions.

1 dwg, 1 tbl

Description

The invention relates to the processing of copper and alloys based on it and can be used to regulate the service life of products made from polycrystalline copper grade M00b, operated under creep conditions. In particular, the invention can be used in the operation of cable products, subject, among other effects, to the creep process.

A known method of controlling the creep of aluminum grade A85 [1], which consists in the fact that a potential difference is applied to an aluminum product operating under creep conditions and its value is determined. The potential difference is created by connecting one of the metal plates with a work function different from aluminum: Pb, Fe, Cu, Zr, Ni and Ti, depending on the value of the calculated contact potential difference, creep or slow down by connecting plates of Pb, Ti, Fe , Cu, or accelerate by connecting plates of Zr, Ni.

The disadvantage of this method is not a sufficiently wide range of changes in the creep rate from -11% to 30% depending on the connected metals.

Closest to the claimed is a method [2] for regulating the durability of an aluminum product operating under creep conditions, comprising measuring the relative change in the creep rate of an aluminum product, characterized in that the creep process is accelerated or slowed by exposing the product to a constant magnetic field, while carried out by a constant magnetic field with induction from 0.15 to 0.3 T, and acceleration by exposure to a magnetic field with induction from 0.01 to 0.15 T.

The disadvantage of this method is the inability to increase the durability of a copper product operating under creep conditions.

The objective of the invention is to increase the durability of a copper product operating under creep conditions, in the range from 18% to 45% by exposure to a constant magnetic field with induction up to 0.6 T, which allows to increase the durability of a copper product operating under creep conditions.

The problem is realized by a method of regulating the durability of a polycrystalline copper product operating under creep conditions.

The method includes determining the relative change in the creep rate of the product on a linear section of the creep curve, while creep is slowed down by exposing the product to a constant magnetic field from 0.05 to 0.6 T.

The method is illustrated in the drawing, which shows the dependence of the relative change in creep rate from the induction of the magnetic field.

The influence of a magnetic field leads to a significant decrease in the creep rate in the linear portion of the creep curve (see drawing). The magnetic field practically does not affect the amount of deformation before fracture, however, the time required to achieve the same degree of deformation is different for different parameters of exposure to the magnetic field. The dependence ξ (B) shown in the drawing can be conditionally divided into four regions (indicated by numbers), which indicates the threshold nature of the effect of the magnetic field on the creep of polycrystalline copper.

, где

- среднее значение скорости ползучести образцов в случае воздействия магнитным полем с разной индукцией, а

- среднее значение скорости ползучести образца, не подверженного воздействию магнитного поля.As a quantitative parameter for assessing the effect of the magnetic field induction on the creep process, we chose the relative change in the creep rate in the linear section of the creep curve, calculated by the ratio

where

- the average value of the creep rate of the samples in the case of exposure to a magnetic field with different induction, and

- the average value of the creep rate of a sample not exposed to a magnetic field.

The table shows the values of the magnetic field induction and the relative change in the creep rate of aluminum under its action.

Information sources

1. RF patent 2433444. IPC G05D 11/00, C22F 3/02. A method of controlling the creep of aluminum grade A85. Konovalov C.B. (RU), Zuev L.B. (RU), Filipiev P.A. (RU), D. Zagulyaev (RU), Danilov V.I. (RU), Gromov V.E. (RU). Application No. 201017981/02, 05/04/2010. Published November 10, 2011.

2. RF patent 2502825. IPC C22F 3/02, C22F 1/04. A method for controlling the durability of an aluminum product operating under creep conditions. Zagulyaev D.V. (RU), Konovalov C.B. (RU), Komissarova I.A. (RU), Gromov V.E. (RU). Application No. 2012119810/02, 05/14/2012. Published 12/27/2013.

Claims (1)

A method for increasing the durability of a polycrystalline copper product operating under creep conditions is to determine the relative change in the creep rate of the product in the linear portion of the creep curve, while the creep process is slowed down by exposing the product to a constant magnetic field from 0.05 to 0.6 T.

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