SU949356A1 - Method of measuring mechanical stresses - Google Patents

Description

(5) METHOD OF MEASURING MECHANICAL STRESSES

Claims (2)

The invention relates to a measurement technique, in particular, to magnetic methods for measuring mechanical stresses, preferably in linear ferromagnets, for example, in steel reinforcement of reinforced concrete structures. Known control method eg; (deformed state of ferromagnetic, based on the registration of their residual magnetization 1. The disadvantage of this method is the large error in the determination of mechanical stresses in reinforcement of reinforced concrete structures. The closest known method is the measurement of mechanical stresses in ferromagnetic bodies, mainly in steel reinforcement of reinforced concrete structures, including the application of magnetic marks on ferromagnetic bodies and the registration of the induction of their magnetic field 2. At the same time Voltages are determined by changing this induction using previously established calibration dependencies. The disadvantage of this method is the low measurement accuracy due to ambiguity of calibration dependencies caused by the variability of the initial label induction due to the reversal processes of displacement and rotation occurring in the domain domain. the structure of ferromagnets when applying magnetic labels, in particular when the intensity of the magnetizing field decreases from maximum to zero. The purpose of the invention is to improve the measurement accuracy. This goal is achieved by the fact that, according to the method of measuring mechanical stresses in ferromagnetic bodies, mainly in steel reinforcement of reinforced concrete structures, including applying magnetic marks on ferromagnetic bodies and recording the induction of their magnetic field, magnetic marks are applied in a monotonically decreasing alternating magnetic field. At the same time, the ability of the domain structure to reversible processes decreases due to multiple reorientation of the spontaneous magnetization vectors of individual domains and the movement of the boundaries between them, and the contribution to the induction of labels of those domains that take an energetically unstable position is eliminated. Both factors contribute to a sharp decrease in the variation of the initial induction of the tags and, as a consequence, an increase in the stability of the calibration dependencies. The method can be implemented using a circuit consisting, for example, of a commanding device, direct and alternating current sources, a wiring magnet and a third-party field sensor. Electromagnet and sensor tray to steel reinforcement. On command from the command device, the nascent, electromagnet is supplied with direct current, the force of which gradually increases from zero to the maximum, which causes the magnitude of the damping, which is sufficient for magnetic fittings. When the magnetizing current reaches its maximum, the command device turns on the alternating current source. The alternating current in the sensor must be such that the intensity of the external alternating magnetic field is about 0, from the coercive force of the controlled ferromagnet. A further monotonous reduction of the DC and AC power at the final stage of labeling should be carried out by a commanding device according to a single law. The invention The method of measuring mechanical stresses in ferromagnetic bodies, mainly in steel reinforcement of reinforced concrete structures, includes applying magnetic marks on ferromagnetic bodies and recording the induction of their magnetic field, about tl and -. This is due to the fact that, in order to improve the measurement accuracy, magnetic labels are applied in a monotonously decreasing alternating magnetic field. Sources of information taken into account in the examination 1. Instruments for non-destructive testing of materials and products. Handbook ed. Klyucheva V.V. Prince. 2, M., Mechanical Engineering, 1976, p. 85-86. 2. USSR author's certificate number 255870, cl. G 01 L 1/12, 1968 (prototype).