X-ray Orientation Analyzer is a non-destructive method to inspect the surface and near surface of materials for defects.  This chapter will tell you how the X-ray orientation analyzer actually performs the inspection and how it works.  We know that the magnetic interaction between the leakage magnetic field at the material defect and the magnetic powder After the ferromagnetic material or workpiece is magnetized, the magnetic lines of force at the surface or near-surface defect deform, and the detectable leakage magnetic field will be formed when escaping from the surface of the workpiece.  Moreover, if magnetic powder is sprinkled on the surface of the workpiece or magnetic suspension is poured, the magnetic powder particles of the X-ray orientation analyzer will be adsorbed on the defect area, showing the position, shape and size of the defect. The above is the working principle of the X-ray orientation analyzer that we will tell you.  What are the characteristics of the X-ray orientation analyzer?

First of all, the X-ray orientation analyzer has very fast inspection speed, simple process and relatively low price.

Secondly, it can intuitively show the size, shape, location and severity of the defect, and finally determine the nature of the defect.

Third, the X-ray orientation analyzer can comprehensively adopt various magnetization methods, and can pick up and measure various parts of the workpiece.

Fourth, the X-ray orientation analyzer has high detection sensitivity, and the magnetic marks formed by magnetic powder gathering on defects have amplification effect.

Fifth, the buried depth of subcutaneous defects that can be detected by X-ray orientation analyzer is 2-3mm, and for larger pores, the detection depth can even reach 10mm.