SU1442950A1 - Instrument converter of local ferritometer - Google Patents

Abstract

The invention relates to the field of non-destructive testing in power engineering. The measuring transducer of a local ferritometer has a body 6 of a non-magnetic material with a magnetic core (MP) 5 of a magnetically soft material, the length of which is ETO, 3-0.4 of the length of the core (C) 4 of a magnetically soft material. The length of the end face of the C 4 protruding beyond the end face of the MP 5 is proportional to the size of the gap between them. The principle of operation of the measuring transducer is based on the interaction of inductively coupled magnetizing and measuring coils 1-3 with C 4 through the controlled material. When the protruding part of C 4 is in contact with the controlled metal, the compensation of the differential circuit is disturbed, and an emf arises, which increases with increasing content of the ferrite phase. MP 5 concentrates the magnetic flux created by the magnetizing coil 1 and C 4. The accuracy of determining the content of the ferrite phase in a layer of austenitic steel with a thickness of less than 3 mm increases on a ferromagnetic basis. 1 hp f-ly, 1 ill.

Description

The invention relates to the field of non-destructive testing and can be used in power engineering and other industries in which austenitic and austenitic-ferritic grade stainless steels are used.

The aim of the invention is to increase the reliability of determining the content of the ferritic phase in the layer of austenitic steel with a thickness of less than 3 mm on a ferromagnetic basis.

The drawing shows a measuring transducer of a local ferritometer.

The converter contains a magnetizing coil 1S measuring coils 2 and 3, a core 4 from a magnet of a soft material, a magnetic flute 5 from a magnetic material and a housing 6 from a nonmagnetic material.

Measuring transducer local ferritometry works as follows.

In the magnetizing coil 1 serves a sinusoidal current frequency, for example, 1200 Hz. In the measuring coils 2 and 3 is registered

Upon contact, the parts of the core 4 of the measuring transducer with the controlled metal protrude, the compensation of the differential circuit is disturbed, an emf occurs, which increases with increasing content of the ferritic phase. The magnetic core 5, having a length of 0.3-0.4 lengths of the core 4, concentrates the magnetic flux created by the magnetizing coil 1 and the core 4 in the gap between the edge of the magnetic core 5 and the protruding part of the core 4.

Claims (2)

Invention Formula A measuring transducer of a local ferritometer, comprising a body made of a nonmagnetic material, in which a magnetizing and two countercurrent measuring coils are placed, mounted coaxially on a core of magnetically flexible material, but in order to increase the accuracy of determining the content of the ferrite phase C:. Loew austenitic steel ma emf induction. Coils 1–3 of measuring 3 mm of a ferromagnetic transducer are connected in a differential circuit. The final compensation of the differential circuit is carried out by moving along the axis of the core 4 the magnetizing coil 1. In the initial state, the indicated EMF is zero. The principle of operation of the proposed converter is based on the interaction of inductively coupled coils 1-3 with a heart-Q NIC 4 through a controlled metal. On the basis of this, the housing from the end with the projecting core is provided with a magnetic core enclosing it, and the length of the end of the core protruding beyond the end of the magnetic core is rational between the gap between them. 2. The converter according to claim 1, characterized in that the length of the magnetic circuit is 0.3-0.4 of the core length. oh menosis 3 mm on ferromagnetic On the basis of this, the housing from the end face with a protruding core is provided with a magnetic core enclosing it, and the length of the end of the core protruding beyond the end of the magnetic circuit is rational between the gap between them. 2. The converter according to claim 1, characterized in that the length of the magnetic circuit is 0.3-0.4 of the length of the core.