The physical properties of sidewalk pavement material made by combining rectangular chips with urethane resin were reviewed through both an indoor test and an on-site test. To obtain the chips, forest tree by-products were crushed and then passed through a 10mm sieve. The materials that remained in the 2.36 mm sieve are the above mentioned chips. For the indoor test, the mixing ratios of urethane resin to chips, by mass, were set as 30%, 40%, 50%, 75% and 100%, respectively. Then, the mixture obtained by mixing with forced mixing type mixer was formed in an iron mold. Tests for tensile strength, elasticity and permeability coefficient were performed 7 days after forming. For the on-site test, the cross-section of the sidewalk pavement material consisted of sand filter layer, crushed stone subbase, permeable concrete base and surface layer of the forest tree chip mixture. For the surface layer, the mass ratios of urethane resin to the forest tree chip were determined to be 40%, 60% and 80%, respectively. The physical property test like the one performed in the indoor test and the skid resistance test was performed over 7 days after the completion of trial construction. According to the result of the tests, the tensile strength, GB/SB coefficients and permeability coefficient were 0.1 to 0.7MPa, 15 to 43% and 0.3 to 0.5mm/sec, respectively, depending on the mixing ratio. In addition, the skid resistance coefficient was 75BPN with the mass ratio of the urethane resin to the forest tree chips of 80%. Furthermore, it was found through the on-site test that a pavement surface with excellent surface smoothness could be obtained through the application of a construction method using an electric heat roller. It was also confirmed that the mixing ratio of urethane resin to forest trees chips needed to be 60% or more.

• 최재진(공주대학교 건설환경공학부) | Jae Jin Choi Corresponding author
• 송진우(공주대학교 건설환경공학부) | Jin Woo Song