着重探讨了放射性测井曲线中自然伽马测井曲线、补偿中子测井曲线和补偿密度测井曲线的高分辨率处理方法及其应用效果。对于自然伽马及自然伽马能谱测井曲线，采用反褶积技术和有效的噪音压制技术；对于补偿中子测井曲线和补偿密度测井曲线采用了改进的α因子法。可以发现：高分辨率处理技术可明显地改善有关曲线的纵向分层能力；处理后的曲线与岩心柱状图及与微球、微电极等高分辨率曲线进行对比，其相关性有很大的改善；应用高分辨率处理后的曲线求薄层的泥质含量等参数，其相对误差明显下降。 The high-resolution processing methods of natural gamma ray logging curve, compensated neutron logging curve and compensated density logging curve in radioactive logging curve are mainly discussed. For natural gamma-ray and gamma-ray logging logs, deconvolution techniques and effective noise suppression techniques are used. An improved alpha factor method is used for compensated neutron log curves and compensated density log curves. It can be found that high-resolution processing technology can significantly improve the longitudinal stratification ability of the curve. The correlation between the processed curve and the core histogram and the high-resolution curves such as microspheres and microelectrodes is significant Improve; using high-resolution processing of the curve shale content and other parameters, the relative error decreased significantly.