Characteristics of marshall additional hot rolled sheet base rattan fiber

All Lataston or HRS structure consists of a mixture of coarse aggregate, fine aggregate, filler and binding material in the form of hot asphalt mixture. The relatively high asphalt content of the mixture aims to increase flexibility, durability and resistance to melt and not easily cracked. The mechanical properties of rattan are related to the ability to withstand external forces, including: compressive strength, fracture, stiffness, tenacity, tensile strength, shear, splitting and durability. This study aims to examine the characteristics of Marshall with the addition of rattan fiber as a mixture of gap graded Hot Rolled Sheet Base. Tests carried out on the characteristics of Marshall. The test results show the addition of rattan fiber with levels of 0%, 2%, 4%, 6%, 8% and 10% and asphalt content of 6.35% obtained VIM values with an increase of an average of 0.08%, Stability increases rattan fiber and will decrease if more rattan fiber is used, Flow will decrease along with the addition of rattan fiber and increase the value of flexibility if more rattan fiber is used, VMA increases with increasing rattan fiber used 0.07%, so that each additional rattan fiber will increasing VMA, VFB decreases with increasing rattan fiber used, durability testing results indicate the addition of rattan fiber will increase resistance to the load.