It was found that the density of co

It was found that the density of concrete decreased incrementally replace the coarse aggregate replaced 0 , 50 and 100 percent by weight , with a density of 2,210 , 2,030 and 1,780 kg/m3. As a result, the concrete is weighted down by the 2228, 2081 and 1822 g by weight , by density is the ratio of weight by volume and because the lightweight aggregates ratio of 80: 20 percent have a porous structure. Which has less dense, coarse aggregate at high density. So when the production of concrete, making lower weight. Water absorption of concrete has increased incrementally replaced. The water absorption of concrete replacement ratio of 100 % water absorption, the higher the proportion of replacing 50 and 0 % , respectively. Is equal to 1.08, 1.54 and 3.55 % by weight. The lightweight aggregates ratio of 80: 20 % have a small structure that is porous at the surface. It has a high water absorption than coarse aggregates. This will affect the compressive strength too. The results showed that compressive strength of concrete is reduced. Once replaced , which increases the compressive strength in the replacement ratio is higher than 0 % replacement ratio of 50 and 100 % is equal to 42.34 , 41.79 and 40.94 MPa. The coarse aggregate density and lightweight aggregates more weight ratio of 80: 20 %. Thus, the ratio of replacement of lightweight aggregates are more coarse aggregates at the same weight in Table 3. Comparison between the lightweight aggregates 0 and 100 %, the compressive strength of concrete is similar. The thermal conductivity of concrete to replace coarse aggregate 0, 50 and 100 % by weight, the conductivity decreases, which is equal to 1.165, 0.968 and 0.771 W/mK. When increasing the amount of replaced, the lightweight aggregates ratio of 80: 20 % have a structure that is porous. The characteristics of the porous structure material is a high-heat conditions compared to solid material. It concrete replacement ratio of 100 %, has a low thermal conductivity or thermal insulation compared to concrete replacement ratio of 0 and 50 percent, respectively. Therefore the increased replacement, the thermal conductivity decreases.