As one of the most important geometric parameters for a PC-type fiber connector end face, apex offset can contribute to high insertion loss and high back-reflection reading. A novel measurement method for the paramete...As one of the most important geometric parameters for a PC-type fiber connector end face, apex offset can contribute to high insertion loss and high back-reflection reading. A novel measurement method for the parameter, connector rotating-π method, is proposed. With the method, the apex offset of a common connector end face is measured. The result is compared with that measured by a Norland 3000 fiber connector end face interferometer. It is found that the difference between two results is 1.8μm. Meantime, the influences of relevant error resources on apex offset measurement under rotating-π method and apex-core method are respectively analyzed, and two error equations are derived. The analytical result shows that, compared with apex-core method, if two additional sub-tilts of axis within and in the direction perpendicular to principal plane caused by its rotation are not bigger than the original axis tilt angle, the max. measurement error will then be reduced by at least 22.5% with rotating-π method. The practicability of the method is confirmed by the experiments.展开更多
为了提高处于超疏水状态下材料表面静态接触角测量的准确性,实现了1种将液滴顶点、倾斜程度和形状参数作为变量的鲁棒的轴对称液滴边缘形状分析(axisymmetric drop shape analysis-profile,ADSA-P)算法,并将其应用于超疏水材料憎水性检...为了提高处于超疏水状态下材料表面静态接触角测量的准确性,实现了1种将液滴顶点、倾斜程度和形状参数作为变量的鲁棒的轴对称液滴边缘形状分析(axisymmetric drop shape analysis-profile,ADSA-P)算法,并将其应用于超疏水材料憎水性检测。基于Young-Laplace方程仿真产生了不同体积、接触角、倾斜程度和顶点坐标的超疏水的水珠边缘,使用圆拟合算法、椭圆拟合算法与ADSA-P算法计算接触角,结果表明:随水珠体积与接触角增加,圆拟合算法与椭圆拟合算法拟合得到的边缘偏离仿真得到的液滴边缘,接触角计算误差增大,2种算法在该研究仿真设定的水珠体积和接触角范围内得到最大误差分别为-47.57°和-22.51°;ADSA-P算法在不同的水珠体积、接触角、倾斜程度和顶点坐标下拟合得到的边缘均能与仿真得到的水珠边缘非常符合,获得的接触角具有很高的准确性,误差<0.1°。基于实际超疏水材料水珠图像的接触角计算验证了圆与椭圆拟合算法误差较大而AD-SA-P算法准确性较高的分析结论。展开更多
基金Research Projects of Nanjing University of Science and Technology
文摘As one of the most important geometric parameters for a PC-type fiber connector end face, apex offset can contribute to high insertion loss and high back-reflection reading. A novel measurement method for the parameter, connector rotating-π method, is proposed. With the method, the apex offset of a common connector end face is measured. The result is compared with that measured by a Norland 3000 fiber connector end face interferometer. It is found that the difference between two results is 1.8μm. Meantime, the influences of relevant error resources on apex offset measurement under rotating-π method and apex-core method are respectively analyzed, and two error equations are derived. The analytical result shows that, compared with apex-core method, if two additional sub-tilts of axis within and in the direction perpendicular to principal plane caused by its rotation are not bigger than the original axis tilt angle, the max. measurement error will then be reduced by at least 22.5% with rotating-π method. The practicability of the method is confirmed by the experiments.
文摘为了提高处于超疏水状态下材料表面静态接触角测量的准确性,实现了1种将液滴顶点、倾斜程度和形状参数作为变量的鲁棒的轴对称液滴边缘形状分析(axisymmetric drop shape analysis-profile,ADSA-P)算法,并将其应用于超疏水材料憎水性检测。基于Young-Laplace方程仿真产生了不同体积、接触角、倾斜程度和顶点坐标的超疏水的水珠边缘,使用圆拟合算法、椭圆拟合算法与ADSA-P算法计算接触角,结果表明:随水珠体积与接触角增加,圆拟合算法与椭圆拟合算法拟合得到的边缘偏离仿真得到的液滴边缘,接触角计算误差增大,2种算法在该研究仿真设定的水珠体积和接触角范围内得到最大误差分别为-47.57°和-22.51°;ADSA-P算法在不同的水珠体积、接触角、倾斜程度和顶点坐标下拟合得到的边缘均能与仿真得到的水珠边缘非常符合,获得的接触角具有很高的准确性,误差<0.1°。基于实际超疏水材料水珠图像的接触角计算验证了圆与椭圆拟合算法误差较大而AD-SA-P算法准确性较高的分析结论。