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By cavitation tests and scanning electron microscope (SEM) microanalysis,the micro-appearance of cavitation samples is studied. It is the first time that the micro-appearance of metals is pursued successfully. According to the changing course of the micro-appearance of metals,the dam-aging course of cavitation erosion is determined. The destructive way of collapsing bubbles on the metal surface is known. Firstly cavitation pinholes appear on the metal surface,then cracks generate and grow under the action of collapsing bubbles. When cracks connect each other,small pieces are removed from pinhole wall and pinholes develop into cavitation pits. When the previous surface is removed completely,new pinholes are produced again on the new surface. A pinhole is the result of the powerful striking of a micro-liquid jet ejected by a large collapsed bubble near the surface. At some stages,cracks grow in the way of fatigue. The corrosion phenomenon is observed during the cavitation erosion. The cavitation pattern can be used to explain the cavitation pregnancy and the changing regulation of sample surface.
By cavitation tests and scanning electron microscope (SEM) microanalysis, the micro-appearance of cavitation samples is studied. It is the first time that the micro-appearance of metals is pursued successfully. According to the changing course of the micro-appearance of metals The dam-aging course of cavitation erosion is determined. The destructive way of collapsing bubbles on the metal surface, then cracks generate and grow under the action of collapsing bubbles. other, small pieces are removed from pinhole wall and pinholes develop into the new surface. A pinhole is the result of the powerful striking of a micro-liquid jet ejected by some large collapsed bubble near the surface. At some stages, cracks grow in the way of fatigue. The caustic phenomenon is observed during the cavitation erosion. The ca vitation pattern can be used to explain the cavitation pregnancy and the changing regulation of sample surface.