SU728068A1 - Method of control of mechanical properties of ferromagnetic material articles - Google Patents

Description

The invention relates to methods for the intact control of the mechanical properties of ferromagnetic products and may find application in mechanical engineering. The method of quality control of products made of ferromagnetic materials is known by the magnitude of the coercive force, in which magnetization and demagnetization are carried out using an electric magnet, and the mechanical properties of l are determined by the magnitude of the demagnetizing current corresponding to the return field. However, this method cannot be used to control medium carbon and low alloy steels. The closest to the invention to the technical essence and the achieved result. The method of controlling the mechanical properties of products made of ferromagnetic materials is that the product is locally magnetized by an axially symmetric pulsed magnetic field directed normally to a surface / product exceeding the coercive force. and read the normal component of the local magnetic field gradient of the residual magnetization f2. The disadvantage of this method is the impossibility of controlling medium-carbon structural steels due to the ambiguity of the change in the magnetic and mechanical properties of these steels from the tempering temperature after quenching. . The purpose of the invention is to expand the range of controlled steels. This is achieved by the fact that the product is additionally affected by an axially symmetric pulsed magnetic field of the opposite direction, the magnitude of which is chosen as smaller magnetizing and insufficient for magnetization reversal. In addition, additional effects are carried out after the end of the relaxation processes caused by pulsed magnetization reversal. The method is carried out as follows. A magnetizing solenoid mounted on a controlled surface with a transducer is connected to a source of pulsed current and a current pulse is passed through the coil of the solenoid, the amplitude of which provides .i

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. J & f S & ffS№i “E:% f fupu, e pinch magnetic field, a larger crE1tctive product. According to the c6nChrany relaxations; ; the processes in the product, by means of magnetism, magnetization,

through; o6 TlkyffaMarHH4HWtmt Rpb-,

a pulsed current of the opposite direction is produced, which creates a pulsed magnetic current (1 tLO, 1 1) and 6); goyo is magnetizing and does not cause a magnetization reversal of the product. For example, to control a 45X steel product, the magnitude of the magnetization FLU is. 1.10 a / m, and the value of the reverse sex of 0.3. 104 cars The Gyrgy Gyrgy component of the magnetic field gradient of the residual magnetization with the aid of a known ferrite, an ionizing shear, Saf it records the value of this gradient, by which the mechanical properties are determined, for example, the hardness of the steel to be tested. 20

The use of the {3determine .cnodo ea will ALLOW to control the mechanical properties and the quality of the high-grade machining of a large class of structural steels containing jc

Lerod more than 0.3%, subjected to for-, KAlkё. And leave in a wide range

temperatures. . :

Claims (2)

1. The method of controlling the mechanical properties of products from ferromagnetic / materials, which imply that the product is locally magnetised by an axially symmetric pulsed magnetic field, directed normally to the surface of the product, exceeding the coercive force of the product, and the normal component of the local residual field gradient field is read, and so that, in order to expand the range of controlled steels, the product is additionally affected by an axially symmetric pulsed magnetic field of the reverse direction, the direction of which I choose t less magnetizing and insufficient for magnetization reversal. 2. A method according to claim 1, characterized in that the additional effect is carried out after the termination of the relaxation processes caused by pulse magnetization. V Sources of information, priy tyvo attention in the examination  1. USSR author's certificate No. 429329, CL. G 01 N 27/80, 1972. 2. USSR author's certificate. No. 331303, .kl.b 01 N 27/80, 1969 (prototype).