Generally, a pipe-to-soil potential of -850mV vs. copper-copper sulfate reference electrode(CU$CuSO4)or more negative is the most widely used as a criterion for determining the acceptable degree of cathodic protection applied on the underground pipeline. However, geomophology, weather, and geology may interfere with the above criterion and result in the difference in IR drop. Although the difference in IR drop can be overcome by measurement techniques and deduce a optimized potential (i.e. polarized potential), this potential is actuallya mixed potential of all buried pipes in a local area. It seems very difficult to be aware of the potential distribution along the buried pipeline, because of the shield effect resulted from the arrangement and numbers of pipes situated in the same area. The purpose of this study is tried to clarify the effectiveness of cathodic protection under shielded condition. In order to simulate the shielded effect, the tested samples and reference electrodes were designed to locate in a different distance. It is also emphasized to understand the disadvantage of existing buried pipes and to study the improvement method. Due to the lack of consideration of shield effect in the past, it is hope that the experimental results can create a better and more correct design concept of cathodic protection and extend the service life of buried pipes.