One of the major issues of drilling operations pertains to the formation of burrs, which greatly influences the accuracy of the manufactured parts, and, thus, the capability to meet the desired performance of the part. To remove or prevent these burrs, their geometry must be measured accurately, even though they are sharp and irregular in shape. The accurate measurement of the geometry of a burr will lead to the development of a proper deburring method. In this work, the authors describe a simple and convenient new measurement technique for drilling burr profiles and a developed drilling burr measurement system based on surface area. The new method presented in this research aims at providing a comparative evaluation of the height, arc length and area of the burr, as well as its geometrical characteristics. When the average height and arc length measurement methods are compared with the area measurement method, large deviations in burr height are detected. In particular, these deviations increase more in non-uniform burrs. In the measurement of burr size, the new developed method is based on area measurement and is carried out using a computer. Therefore, there is no deviation between the measurements. In contrast, the average deviation ranges for the height and arc length measurement methods are found to be 9.94–48.14% and 6.07–18.82%, respectively.

钻孔操作的主要问题之一是毛刺的形成，毛刺的形成极大地影响了所制造零件的精度，进而影响了满足零件所需性能的能力。为了消除或防止这些毛刺，即使形状锐利且形状不规则，也必须精确测量其几何形状。毛刺的几何形状的精确测量将导致开发适当的去毛刺方法。在这项工作中，作者描述了一种简单便捷的钻头毛刺轮廓测量新技术，以及一种基于表面积的发达钻头毛刺测量系统。本研究中提出的新方法旨在对毛刺的高度，弧长和毛刺面积以及其几何特征进行比较评估。将平均高度和弧长测量方法与面积测量方法进行比较时，会发现毛刺高度的较大偏差。特别地，这些偏差在不均匀的毛刺中增加更多。在毛刺尺寸的测量中，新开发的方法基于面积测量并使用计算机进行。因此，测量之间没有偏差。相反，高度和弧长测量方法的平均偏差范围分别为9.94–48.14％和6.07–18.82％。因此，测量之间没有偏差。相反，高度和弧长测量方法的平均偏差范围分别为9.94–48.14％和6.07–18.82％。因此，测量之间没有偏差。相反，高度和弧长测量方法的平均偏差范围分别为9.94–48.14％和6.07–18.82％。