PENGARUH PENAMBAHAN SERAT KAYU PINUS DAN BAMBU PETUNG TERHADAP KUALITAS PAPAN SERAT KERAPATAN SEDANG KAYU MAHANG DENGAN PEREKAT ASAM MALAT
Abstract
Sifat dan kualitas produk papan serat dipengaruhi oleh kualitas serat bahan, proses kempa dan jumlah serta tipe perekat yang digunakan. Penggunaan perekat asam malat dalam pembuatan papan serat kerapatan sedang (MDF) dari kayu mahang memiliki sifat mekanika yang rendah, terutama nilai keteguhan lengkung statis. Penelitian ini bertujuan mempelajari pengaruh penambahan serat panjang kayu pinus dan bambu petung terhadap sifat papan MDF kayu mahang dengan perekat asam malat. Komposisi perbandingan serat kayu mahang, kayu pinus dan bambu petung sebanyak 6 perlakuan yaitu 100/0/0, 90/10/0, 80/20/0, 90/0/10, 80/0/20 dan 80/10/10, dengan kadar perekat asam malat 25% berdasarkan berat kering serat dan dikempa panas pada suhu 180ºC selama 10 menit. Pengujian sifat fisika dan mekanika papan berdasarkan standar pengujian JIS 5905-2003. Penambahan serat panjang kayu pinus dan bambu petung dapat meningkatkan nilai mekanika papan MDF dari kayu mahang, komposisi campuran serat yang paling baik adalah serat kayu mahang 90%: bambu petung 10%, dengan nilai keteguhan rekat internal 0,7 MPa, keteguhan patah 9,11 MPa dan keteguhan elastisitas 2,5 GPa.
Keywords
Full Text:
PDF (Bahasa Indonesia)References
Aisyah, H.A., Paridah, M.T., Sahri, M.h., Anwar, U.M.K., and Astimar, A.A., 2013. Properties of medium density fibreboard (MDF) from kenaf (Hibiscus cannabinus L.) core as function of refining conditions. Composites; part B. 44 : 592-596
Benthein, J.T., Heldner, S., and Ohlmeyer, M., 2017. Investigation of the interrelations between defibration conditions, fiber size and medium density fiberboard (MDF) properties. Eur. J. Wood Prod 75:215-232
Benthien, J.T., Bahnisch, C., Heldner, S., and Ohlmeyer, M. 2014. Effect of fiber size distribution on medium density fiberboard properties caused by varied steam time and temperature of defibration process. Wood Fiber Sci. 46(2): 175-185
Groom, L., Mott, L., and Shaler, S., 1999. Realationship between fiber furnish properties and structural performance of MDF. 33rd. International particleboard/composite material symposium 1999. 13-15 April 1999. Pullman, Washington. USA.
Hiziroglu, S., and Suzuki, S.V., 2007. Evaluation of surface roughness of commercially manufactured particleboard and medium density fiberboard in Japan. Journal of Meterial Process Technology 184 (1-3): 436-440.
International Agency for Research on cancer (IARC). 2012. Chemical agents and related occupations. Volume 100 F: A Review of Human Carcinogens, WHO. France
Japanese Standard Association. 2003. Japanese Industrial Standard for Fiberboards A 5905. Japanese Standard Association. Tokyo
Kusumah, S.S., Umemura, K., Yoshioka, K., Miyafuji, H., and Kanayama, K., 2016. Utilization of sweet sorghum bagasse and citric acid for manufacturing of particleboard I : Effects of pre-drying treatment and citric acid content on the board properties. Industrial Crops and Products 84 ; 34-42.
Kusumah, S.S., Umemura, K., Yoshioka, K., Miyafuji, H., and Kanayama, K., 2017. Utilization of sweet sorghum bagasse and citric acid for manufacturing of particleboard II : influences of pressing temperature and time on particleboard properties. Journal of Wood Science 63(2):161-172
Myers, G.C., 1983. Relationship of fiber preparation and characteristics to performance of medium density hardboards. For Prod. J 33(10): 43-51
Nemli, G., Ozturk, I., and Ayudin, A., 2005. Some of parameters influencing surface roughness of particleboard. Building and Enviroment 40: 1337-1340
Roffael, E. 1993. Formaldehyde release from particle board and other wood based panels. Kuala Lumpur: FRIM Kepong
Shi, J.I., Zhang, S.Y., and Riedl, B., 2006. Multivariate modeling of MDF panel properties in relation to wood fiber characteristics. Holzforsschung 60:285-293
Sugawara, R and K. Umemura. 2014. Bonding composition and board. United States Patent. No. US 2014/0011042 A1.
Syamani, F.A, and Munawar, S.S., 2013. Eco friendly board from oil palm frond and citric acid. Wood Research Journal. Vol. 4 No. 2 : 72-75
Umemura, K., O. Sugihara, and S. Kawai. 2013. Investigation of a new natural adhesive composed of citric acid and sucrose for particleboard. J Wood Sci. (59), 203-209.
Umemura, K., T. Ueda, SS. Munawar and S. Kawai. 2012. Application of citric acid as natural adhesive for wood. Journal of Applied Polymer Science (123), 1991-1996.
Vukusic SB., D. Katovic, C. Schramm, J. Trajkovic and B. Sefc. 2006. Polycarboxylic acids as non formaldehyde anti swelling agents for wood. Holzforschung(60), 439-444.
Wahyudi, A., Prayitno, T.A., Widyorini, R., and Sutapa, J.P.G., 2018. Pengaruh jumlah perekat asam malat terhadap sifat papan serat kerapatan sedang kayu mahang. Dalam Nanang Masruchin (Eds). Prosiding ilmiah Nasional Seminar Ligoselulosa 2018. Hal : 127-132.
Widyorini, R., Dewi, G.K., Nugroho, W.D., Prayitno, T.A., Jati, A.S., and Tejolaksono, M.N., 2018. Properties of citric acid bonded composite board from elephant dung fibers. J. Korean Wood sci. technol. 46(2): 132-142
Widyorini, R., Umemura, K., Isnan, R., Putra, D.R., Awaludin, A., and Prayitno, T.A., 2016. Manufacture and properties of citric caids bonded particleboard made from bamboo materials. European Journal of wood and Wood Product 71 (1) : 57-65.
Xing, C., J. Deng, and SY. Zhang. 2007. Effect of thermo mechanical refining on properties of MDF made from black spruce bark. Wood Sci Technol (41). 329-338.
DOI: https://doi.org/10.20886/jphh.2019.37.2.81-92
Refbacks
- There are currently no refbacks.
JURNAL PENELITIAN HASIL HUTAN INDEXED BY:
Copyright © 2015 | Jurnal Penelitian Hasil Hutan (JPHH, Journal of Forest Products Research)
eISSN : 2442-8957 pISSN : 0216-4329
JPHH is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.