Research on the Grinding Performance of Grinding Wheel in the Initial Grinding Stage after Electric Spark Dressing of Grinding Wheel

Abstract

Abstract Electrical discharge dressing has advantages of high precision, high efficiency and low cost, which is an effective dressing method for metal bonded diamond grinding wheel. In this paper, the influence of discharge voltage, discharge current and power pulse width on the surface morphology of the grinding wheel were studied by single factor method. The grinding experiments of SiC ceramics were carried out and the surface morphology of the grinding wheel and the surface roughness of the workpiece after grinding a certain volume of SiC ceramics were analyzed. The experimental results show that large electrical parameters can improve the dressing efficiency, but the grinding wheel surface appears more adverse phenomena such as abrasive shedding, looseness, bond melting recasting. In the early stage of grinding wheel, surface damage is serious, and grinding workpiece surface roughness is poor. It provides a practical reference for the reasonable selection of EDM dressing of metal bond diamond grinding wheel.