dc.identifier.citation | [1] American Standart Testing Method C 618 – 93, 1991. Standard Test Method for Fly Ash, Manual book of ASTM volume 04.02, USA [2] Anonim, 1990, Tata Cara Pembuatan Rencana Campuran Beton Normal, SKSNI T15- 1990-03, Jakarta. [3] ASTM C 618 – 93, 1991. Standard Test Method for Fly Ash, Manual book of ASTM volume 04.02, USA [4] Departemen Pekerjaan Umum, 1982. Persyaratan Umum Bahan Bangunan di Indonesia, Jakarta. [5] Gideon, H. K., Kole P, Sagel, 1994. Pedoman Pengerjaan Beton, Erlangga, Jakarta. [6] Murdock, dan K.M.Brook, 1999. Bahan dan Praktek Beton, Erlangga, Jakarta. [7] Tjokrodimuljo, K, 1996. Teknologi Beton, Civil Engineering, Gadjah Mada University, Yogyakarta. | in_ID |
dc.description.abstract | Tulakan soil containing compounds that needed in the formation of conventional cements,
namely oxide compounds such as CaO, SiO2, Al2O3, and Fe2O3. Tulakan soil contains
siliceous and aluminous materials which react with calcium hydroxide in the presence of
water. Based on the composition of Tulakan soil, Tulakan soil in this study classified in the
class N pozzolan. The amount of SiO2 + Al2O3 + Fe2O3 are more than 70% and SO3 content
is less than 4% by weight (based on ASTM C618-92). Concrete mix design using SK-SNI-T-
15-1990-03. The ratio of Tulakan soil is vary at 10% ; 15% ; 20% ; 25% of Portland cement
composition. The use of Tulakan soil as a partial replacement for cement can effectively
maintain the compressive strength of concrete, it can even raise the value of compressive
strength of concrete at a certain composition. A hundred concrete cylindric samples have
been tested to study the concrete performance at two water cement ratio that are 0.4 and 0.5.
Compressive strength of concrete with replacement of Tulakan soil + 10% of lime has a trend
to increase and have a higher tendency to remain above the average of normal concrete.
Overall, both for concrete with Tulakan soil or for concrete with Tulakan soil + lime are able
to maintain even raise the value of compressive strength in concrete. As a result, the Tulakan
soils effectively substitute the Portland cement, as it can increase the concrete compressive
strength up to 3.24% on the percentage of Tulakan soil replacement of 10% – 20%. The split
tensile strength test was able to raise up to 2.513% of normal concrete and the tension pullout
bond test survive and rise up to 9.783% of the normal. | in_ID |