Smoke liquid is a liquid obtained from smoke condensation during charcoal firing process. The main content of the smoke liquid is acetic acid, hence, can be used as an alternative latex coagulant. Acid in vinegar can reduce the pH of latex and  cause the latex to coagulate rapidly. This paper determines effectiveness of using  smoke liquid as a latex coagulant and characteristics of the treated latex. The smoke liquid  in this study was derived from pine wood. The smoke liquid solutions consisted of  the crude smoke liquid and the diluted solution in various concentrations of 5, 10, 15 and 20%. The smoke liquid solution was then each poured into a container of  latex. Testing was undergone by observing latex coagulating time, coagulate condition, texture, color, odor and homogenity. The most effective smoke liquid which produced the best latex based on its performances was then taken for further testing of physico-chemical properties which included dry rubber content, plasticity retention index (PRI), initial plasticity (Po), final plasticity (Pa), dirt content, ash content, volatile matter content (Vm), and nitrogen content. Results were then compared with the conventional use of formic acid as a control coagulant. The result showed that the crude and distillate smoke liquid solutions with concentration of  10% produced the best coagulantperformances than the other solutions. Rubber latex treated with the crude smoke liquid produced the best physico-chemical properties and could meet requirements of the Indonesian National Standard (SNI) for Rubber Quality.

Bateman, L. (1963). The chemistry and physics of rubber-like substances. London: McLaren and Sons Ltd.

Burhanudin, A. (1995). Penentuan analisis Standard Indonesian Rubber (SIR). In House Training, Pengolahan Lateks Pekat dan Karet Mentah (1). Bogor: Balai Penelitian Teknologi Karet.

Darmawan, S. (2008). Sifat arang aktif tempurung kemiri dan pemanfaatannya sebagai penyerap emisi formaldehida papan serat berkerapatan sedang. (Master Tesis). Program Pascasarjana Institut Pertanian Bogor, Bogor.

Gani, A. (2007). Konversi sampah organik menjadi komarasca (kompos-arang aktif-asap cair) dan aplikasinya pada tanaman daun dewa. (Disertasi). Program Pascasarjana Institut Pertanian Bogor, Bogor.

Goutara. (1985). Dasar pengolahan karet. Bogor: Agro Industri Press.

Gumanti, F.M. (2006). Kajian sistem produksi cuka kayu hasil penyulingan asap tempurung kelapa dan pemanfaatannya sebagai alternatif bahan pengawet mie basah. (Skripsi Sarjana). FPIK, Insitut Pertanian Bogor.

Guo, J., Luo, Y, Lua, A.C., Chi, R., Ychen, Bao, X., & Xiang, S. 2007). Adsorption of hydrogen sulphide (H2S) by activated carbons derived from oil-palm shell. Carbon, 45, 330-336.

Hendra, D., Waluyo, T.K., & Sokanandi, A. (2014). Karakteristik dan pemanfaatan asap cair dari tempurung buah bintaro (Carbera manghas Linn.) sebagai koagulan getah karet. Jurnal Penelitian Hasil Hutan, 32(1), 27-35.

Marwati, T. (2005). Kajian proses adsorpsi dan pengkelatan pada pemucatan minyak daun cengkeh. (Master Tesis). Program Pascasarjana Institut Pertanian Bogor, Bogor.

Nakade, S., Kuga, A., Hayashi M., & Tanaka, Y., (1997). Highly purified natural ruber IV : preparation and characteristics of gloves and condoms. Tokyo: The New Rubber Material Research Concortium Japan.

Pari, G., Nurhayati, T., & Hartoyo. (2000). Kemungkinan pemanfaatan arang aktif kulit kayu Acacia mangium Willd untuk pemurnian minyak kelapa sawit. Buletin Penelitian Hasil Hutan, 18(1), 40-53.

Saputera, H., Agustina, M., & Rangkai, Y.A. (2011). Uji penggunaan berbagai jenis koagulan terhadap kualitas bahan olah karet (Hevea brasiliensis). Jurnal Agripeat, 12(2), 4752.

Simon, R., Calle, B., Palme, S., Meler, D., & Anklam, E. (2005). Composition and analysis of liquid smoke flavouring primary products. Journal Food Science, 24(1), 143148.

Solichin, M. (1991). Faktor-faktor yang mempengaruhi viskositas mooney dalam pengolahan SIR 3CV. Lateks, 6(2), 67-75.

Solichin, M. (2007). Penggunaan asap cair deorub dalam pengolahan RSS. Jurnal Penelitian Karet, 25 (1), 1-12.

Standar Nasional Indonesia (SNI). (2000). Standard Indonesian Rubber. (SNI 061903-2000). Badan Standardisasi Nasional.

Wibowo, S. (2009). Karakteristik tempurung biji nyamplung (Calophyllum inophyllum Linn) dan aplikasinya sebagai adsorben minyak nyamplung. (Master Tesis). Program Pascasarjana Institut Pertanian Bogor, Bogor.