The purpose of designing diamond saw blades is to make them show ideal working efficiency and service life during use. The cutting efficiency and service life of diamond saw blades are closely related to the formula of the segment, and the segment formula mainly depends on the parameters of the selected diamond, the matrix parameters, etc.
The performance of diamond saw blades mainly includes two aspects, sharpness and wear resistance. During the sawing process, sharpness is manifested as the cutting efficiency, and wear resistance is manifested as the service life of the saw blade. Efficiency and service life are two important indicators for measuring the comprehensive performance of diamond saw blades.
The purpose of designing diamond saw blades is to make them show ideal working efficiency and service life during use. The cutting efficiency and service life of diamond saw blades are closely related to the formula of the segment, and the segment formula mainly depends on the parameters of the selected diamond, the matrix parameters, etc.
The larger the average density Φ of diamonds on the working surface of the matrix, the better the wear resistance of the segment and the longer the service life of the segment; on the contrary, the smaller Φ is, the worse the wear resistance is and the shorter the service life of the segment.
The planar density of diamonds on the working layer of the segment matrix surface is related to the diamond encapsulation strength of the segment matrix, the diamond particle size and concentration selected by the segment. The higher the diamond concentration selected by the segment, the greater the average density of diamonds on the working surface of the segment matrix, the higher the wear resistance of the segment and the longer the service life. The greater the longitudinal density of diamonds in the working layer of the segment matrix, the more diamond layers in the working layer of the diamond matrix, the more diamond layers in the matrix, and the longer the service life of the segment. The longitudinal density of diamonds on the working layer of the segment matrix is ??related to the diamond particle size and concentration selected by the segment. The higher the diamond concentration, the greater the longitudinal density of diamonds in the working layer of the segment matrix, and the more diamond layers in the segment matrix; the finer the particle size of the diamond particles selected by the segment, the more diamond layers in the diamond matrix, and the higher the wear resistance of the segment.