METAL MAGNETIC MEMORY METHOD

The metal magnetic memory method is one of the most effective methods of non-destructive testing in industry. This method uses the features of the magnetic structure of the metal to detect defects and estimate their size.

The basis of the metal magnetic memory method is the use of an applied magnetic field to make temporary changes in the magnetic structure of the material. Then, using sensors, the deviation of the magnetic memory from its original state is recorded. Based on these data, it can be concluded that there are defects such as cracks, deformations, or inhomogeneities in the magnetic structure.

One of the advantages of this method is its ability to detect hidden defects such as cracks and internal pores in metal products. This helps to prevent possible accidents and reduce the likelihood of equipment failures.

Another important advantage of the method is its high speed and accuracy. Magnetic metal memory allows you to quickly process large amounts of data and obtain accurate research results. Thanks to this method, it is possible to quickly and effectively assess the quality of building materials, machine-building products and other metal structures.

The magnetic memory of metal also has high sensitivity and the ability to quantize information, which facilitates the interpretation of the received data. This method allows for accurate measurements and analysis of the parameters of metallic materials, which helps to improve their quality and reliability.