The vegetation-based spraying method has been used as a revegetation measure for protecting slopes. However, after the method is applied to the fields, the collapse due to deteriorated bond performance of artificial slopes and defective vegetation growth bases prevent it from displaying its proper function. Therefore, research and application technologies for revegetation measures that can achieve both the reinforcement of slopes and the ecological restoration at the same time are necessary. Accordingly, in this study, fundamental research was conducted regarding the bond properties of slopes, according to the addition of additives based on bonding materials for improving bond performance.

In this study, fluidity and compressive strength characteristics of latex modified mortar was compared with each latex types. From the test result, fluidity of the product "A-a" was most outstanding and the product "B-b" revealed the highest compressive strength. Following this experiment range, when using the produce "B-b" it is considered to be able to secure proper fluidity and strength.