27

DAFTAR PUSTAKA

Bowyer, J.L., Shmulsky, R. dan Haygreen, J. G. 2003. Forest Products and Wood

Science:An Introduction. Ed ke-4. Ames, Iowa: Iowa State Press.

Blomquist, R. F. 1983. Adhesive Bonding of Wood and Other Structural Materials. Forest Product Technology USDA Forest Service and The University of Winconsin. Chap.1.

Bufalino, L., Albino, V.C.S., VA de Sá , Corrê a, A.A.R., Mendes, L.M., Almeida NA. 2012. Particleboards Made from Australian Red Cedar: Processing Variables and Evaluation of Mixed- Species. J. Tropical Forest Science24 (2): 162 Fore.

Clausen, C.A., Kartal, S.N., Muchl, J. 2000. Properties of Particleboard made from recycled CCA-treated wood. International Reseach Grub on Wood Preservation, IRG/WO/00-50146, Stockholm, Sweden.

Haygreen, J. G. dan J. L. Bowyer. 1996. Hasil Hutan dan Ilmu Kayu Suatu Pengantar. Gajah Mada University Press. Yogyakarta.

Iswanto, A.H., Widya, F., Andi, D.Y., Ahmad, Z. danFauzi, F. 2013. SifatFisisdanMekanisOriented Strand Board dariStandarKayuTerasetilasi JurnalIlmudanTeknologiKayuTropis.

Japanese Standards Association. 2003. Japanese Industrial Standard (JIS) A 5908 Particleboard. Tokyo: Japanese Standards Association.

Lee, A.W, Yihai, L. 2003. Selected physical properties of commercial bamboo flooring. For Prod J 53:23-26.

Kelly, M.W. 1977. Critical Literature Review of Relationship Between Processing Parameter And Physical Properties of Particleboard. General

Technical Report FPL-10.Department of Agriculture Forest. Wisconsin

University.

Kementrian Kehutanan 2013. Statistika Kehutanan Indonesia 2013. Kementrian Kehutanan. Jakarta.

Kementrian Kehutanan 2014. Statistika Kehutanan Indonesia 2014. Kementrian Kehutanan. Jakarta.

Koch, P.,1972, Utilization Of Southern Pinesvol.1: The Raw Material , U.S Departement of Agriculture, Forest Service.

28

Nuryawan, A. 2007.Sifat Fisis dan Mekanis OSB dari Kayu Akasia, Ekaliptus dan Gmelina Berdiameter Kecil [tesis]. Bogor (ID): Institut Pertanian Bogor (IPB)

Nuryawan, A., Iwan, R. dan Pamona S.S,.2009. Sifat Fisis-Mekanis papan partikel dari limbah pemanenan kayu. Jurnal ilmu dan teknologi hasil hutan 2(2):57-63.

Maloney, T.M. 1993. Modern particleboard and dry-process fiberboard

manufacturing (updated edition). Miller Freeman, San Francisco.

Mamza, P.A.P., Ezeh, E C., Gimba, E.C and Arthur, D.E. 2014,” Comporative study of phenol formaldehyde and urea formaldehyde particleboards from wood waste for subtainable envirotment” internasional jurnal of scientific and technology research, vol.3, no.9 pp. 53-61.

Muharam, A.1995. Pengaruh Ukuran Partikel Dan Kerapatan Lembaran Terhadap Sifat Fisis Dan Mekanis Papan Partikel Ampas Tebu.Skripsi. Fakultas Teknologi Pertanian. Institute Pertanian Bogor. Bogor.

Ortuno, T.G., Javier A.R., Maria, T. FerrandezsGarcia., Manuel Ferrandezs -Villena., dan Clara.E. Ferrandez-Gracia. 2011. Evaluation of the physical and Mechanical properties of particleboard made from gian reed (Arundo donax L)

Paridah, M.T., Chin, A.M.E. dan Zaidon A. 2001. Bonding properties of Azadirachta excelsa. Journal of Tropical Forest Products 161–171.

Pari, G. 2002. Teknologi Alternatif Pemanfaatan Limbah Industri Pengolahan kayu.http://tumoutou.net.

Pizzi, A. Garcia, R.Wang, S.1997. On the networking mechanisms of additivesaccelerated phenol-formaldehyde polycondensates. Journal of

Applied Polymer Science 66(2), 255-266.

Pizzi, A. 1994. Advanced Wood Adhesives Technology.MarcelDekker, Inc. New York.

Ruhendi, S. dan Y.S Hadi. 1997. Perekat dan perekatan. Jurusan Teknologi Hasil Hutan. Fakultas Kehutanan. IPB. Bogor.

Ruhendi, S., Firda, A.S., Desy, N.K., Nurhaida., Sahriyanto, S., Tito, S.dan Hikma, Y.2007.Analisis Perekatan Kayu. Bogor: Fakultas Kehutanan IPB.

Rusman, D. 2003.Sifat Keasaman beberapa Jenis Kayu dan pengaruh terhadap keteguhan rekat perekat urea formaldehida [skripsi]. Bogor (ID): Institut Pertanian Bogor.

29

Sulastiningsih, I.M., Novitasari dan A. Turoso. 2006. Pengaruh kadar perekat terhadap sifat papan partikel bambu. Jurnal Penelitian Hasil Hutan 24(1): 1-8. Pusat Penelitian dan Pengembangan Hasil Hutan. Bogor.

Suryadinata, E. 2005. Determinasi Suhu dan Waktu Kempa Optimum dalam Pembuatan Papan Komposit dari Limbah Kayu dan Karton Gelombang [Skripsi]. Bogor: Fakultas Kehutanan. Institut Pertanian Bogor.

Wang, S., Dai, C. 2003. Proc. of a Workshop Fundamental of Composite Processing, Madison, Wisconsin, USA, p.116.

Wahyuningsih, N. S. 2011. Pengaruh Perendaman dan Geometri Partikel tehadap Kualitas Papan Partikel Sekam Padi. Institut Pertanian Bogor. Bogor.

Widyorini, R., Xu, J., Umemura, K dan Kawai, S. (2005). “Manufacture and properties of binderless particleboard from bagse. I. Effects of raw material type, storge methods and manufacturing process,” J. Wood Sci. 51, 648-654.

Winandy, J.E. dan Krzysik, A. 2007 Thermal degradation of wood fibers during hot-pressing of MDF composites: Part I. Relative effects and benefits of thermal exposure.Wood Fiber Sci 39(3):450–46.

Yang, H., Kim, D dan Kim, H. 2003. Rice straw–wood particle composite for sound absorbing wooden construction materials. Bioresource Technology 86: 117–121.

Yusuf, A. 2000. Determinasi Suhu Kempa Optimum Papan Komposit Dari Kayu Dan Limbah Plastik. Skripsi Fakultas Kehutanan IPB Bogor.

Zhang, Y., Zheng, J., Guo, H., Li, Y dan Lu, M. 2015.Urea formaldehyde resin with low formaldehyde content modified byphenol formaldehyde intermediates and properties of its bambooparticleboards.J. Appl. Polym. Sci.: 1-8. DOI: 10.1002/APP.42280.