Pemanfaatan Karet Alam Sebagai Aditif Pada Mortar Untuk Meningkatkan Mutu Jalan Semen Beton

Abstract

Nowadays, natural rubber consumption in Indonesia is relatively low. By diversification of natural rubber uses as additional mixture for concrete road is expected to increase its consumption. At this time, concrete road doesn’t use latex, so it will less flexible and susceptible to crack. Also this matter can’t make concrete road comfortable to use. Therefore, with admixture of latex to the cement may be able to increase flexural strength. The objectives of this research were to know type and dose of stabilizing agent for suitable admixture of latex and cement, and to know the effect of type of latex and rubber dose as additional mixture for mortar. This research consisted of two steps. First step was preliminary research which used type (Emal, Emulgen and Casein) and dose (1, 3, 5 and 7%) of stabilizing agents to determine a suitable admixture of latex and cement. Second step was main research where the effects of latex on mortar was determined. Types of latex tried were Centrifuge Latex (LP), Double Centrifuge Latex (LDS) and Deproteinized Natural Rubber Latex (LDPNR). Rubber doses of 0 (control), 1, 3, 5, 7 and 9 were used. When latex was mixed with cement, it agglomerated. Therefore, suitable type and dose of stabilizing agent was needed. The best stabilizing agent was Casein of 7% because it could maintain the setting time to almost 210 minutes. This combination was used in main research. The highest initial weight was obtained from LDS, i.e. 261.25 g, whereas final weight, i.e. 266.70 g. Rubber dose of 1% gave the highest initial weight, i.e. 268.70 g and final weight, i.e. 272.83 g. Final weight would be heavier than initial weight. The more rubber dose used in mixture mortar, the less weight of mortar produced. Mortar added by latex showed lighter weight than its control. LDS gave a significant effect on mortar’s compressive strength, whereas LDPNR didn’t have significant effect. LDS gave the highest compressive strength, i.e. 176.60 kg/cm2. Rubber dose of 1% gave the highest compressive strength, i.e. 200.67 kg/cm2. The more rubber dose used, the less compressive strength of mortar produced. LDS gave highest flexural strength than LP and LDPNR, i.e. 33.62 kg/cm2. Rubber dose of 1%, i.e. 36.77 kg/cm2 gave the highest flexural strength. LDS dose of 7% gave the highest flexural strength, but its compressive strength was low. Therefore, to produce strong and flexible mortar could be used LDS with dose of 1%.