Nowadays, many countries in the world enjoy the benefits brought by nuclear power generation and atomic energy applications. However, with the advancement and convenience of technology, it is an important issue to deal with the resulting radioactive waste and radiation pollution. At present, countries adopt the concept of “multiple barriers” for the disposal of radioactive waste. They use strong natural terrain and multi-layered protective measures composed of artificial engineering barriers to isolate radioactive waste from the external environment, so that its radiation intensity can be reduced to a harmless range. However, considering that the design of the final disposal site for radioactive waste may be located in coastal or island areas, such as Wuqiu, Taiwan, therefore, seawater intrusion may occur. This study will explore the performance changes in buffer and backfill material used in the engineering barrier in seawater conditions. In this study, KUNIGEL-V1 bentonite imported from Japan and MX-80 bentonite imported from the United States were used as buffer and backfill materials without considering the addition of aggregate. Tests for material characteristics, swelling rate, swelling pressure and hydraulic conductivity were conducted to investigate the properties of two bentonites under different unit weights, pure water and seawater. It was found that the swelling rate of sodium bentonite was greatly reduced in seawater environment, but the reduction of expansion pressure was less serious. After comprehensive comparison, MX-80 has better expansion performance and water blocking performance, but both bentonites are good buffer and backfill materials in foreign specifications. In addition, through the test results to establish two kinds of bentonite performance prediction formula, it is expected to establish a database and provide a basis for subsequent engineering design reference.