Pengantar Teknologi Biokomposit

A A Moslemi, 1974. Particleboard 1 & 2. Southern Illionis University Press.

Ahn, N., Lee, C.G., Kim, J., Park, P., Kim, S., & Yoon, J. (2021). Analysis of Recycled Raw Materials and Evaluation of Characteristics by Mixing Ratio for Recycling of Waste Vinyl. 자원리싸이클링.

Alan A Marra, 1992. Technology of Wood Bonding : Principle in Practice. New York : Van Nostrand Reinhold.

Alberto, M.M., E. Mougel, dan A. Zoulalian. 2000. Compatibility of Some Tropical Hardwood Species with Portland Cement Using Isothermal Calorimetry. Products Products Journal, volume 50, N0. 9. Forest Products Research Society, Madison, WI, USA.

Anonim, 2012. Sulawesi Selatan dalam Angka. Badan Pusat Statistik Sul-Sel.

Anonim, 2013. Statistik Kehutanan Indonesia. Badan Pusat Statistik Jakarta.

Anonim, 2013. Statistik Pertanian Indonesia. Badan Pusat Statistik Jakarta.

Bakar E S, Rachman O, Massijaya M Y, Bahruni, 1999. ASPEC-aspek pemesinan dan Pengolahan serta Kajian Ekonomi Pemanfaatan Kayu Kelapa Sawit sebagai Bahan Bangunan dan Furniture. Laboran Penelitian HB VI/I. Fahutan IPB.

Bakri, E Gunawan, D Sanusi, 2006. Sifat Fisik dan Mekanik Komposit Kayu-Semen Serbuk Gergaji. Jurnal Perennial. Jurusan Kehutanan Unhas, Makassar. Januari 2006 : 2 (1) : 38 – 41.

Beutel, Peter. 1996. Cement Bonded Wood Composites. Department of Forestry, Australian National University, Canberra, Australia.

Blomquist, 1983. Adhesives—an Overview, in Adhesives Bonding of Wood and Other Structural Materials, edited by, R.F. Blomquist, A.W. Christiansen, R.H. Gillespie, and G.E Myers. USA: The Pennsylvania State University

Braschke, K., Zoller, J., Zargaran, A., Dittler, A., & Janoske, U. (2021). Analytical and numerical calculation of the detachment of particle structures from fibers. Aerosol Science and Technology, 56, 1 - 11.

Brochmann J, Edwardson C, and Shmulsky R, 2004. Influence of Resin Type and Flake Thickness on Properties of OSB. Madison USA: Forest Product Journal Vol. 54 (3) : 51 – 55.

Charles A Harper, 1996. Handbook of Plastics, Elastomer, and Composites (Third Edition). MC Graw Hill.

Chang, C. W., & Chang, F. C. (2022). Physical-Mechanical Properties of Bamboo-Textile-Reinforced Polymer Made with Vacuum-Assist Resin Transfer Molding. Journal of Natural Fibers, 19(17), 15824–15835. https://doi.org/10.1080/15440478.2022.2133056

Chilukuri, S., Kumar, S., & Raut, A.N. (2021). Status of Agro-Industrial Waste Used to Develop Construction Materials in Andhra Pradesh Region – India. IOP Conference Series: Materials Science and Engineering, 1197.

Coates, G.R. 1989. Product Application of Wood-Cement Particleboard Including Applied Finishes. Proceeding of Fiber and Particleboards Bonded with Inorganic Binders Conference. Forest Products Research Society, Madison, Wisconsin, USA.

Daniel F Caulfield, Roger M Rowell, John A. Youngquist. Woodfiber-Plastic Composites. Forest Product Society

David A Pease, 1994. Panels : Product, Aplications and Production Trends. USA : Miller Freeman.

De Witt, John. 1994. Utilizing Wood Wool Cement Building Boards and Some Others Application Possibilities of the Boards. Paper presented on 4th International Inorganic-Bonded wood and Fiber composites Conference in Spokane, Idaho, USA (september 1994). Elten System, Barneveld, The Netherlands.

Departemen Kehutanan. 2002. Statistik Kehutanan Indonesia. Departemen Kehutanan Indonesia, Jakarta, Indonesia.

Dinwoodie, J.M. and B.H. Paxton. 1991. The Long-term Performance of Cement-bonded Wood Particleboard. Proceding of the Second International Inorganic Bonded Wood and Fiber Composite Material Conference. Forest Products Research Society, Madison, Wisconsin, USA.

Galbraith C J, and Newman W H, 1992. Reaction Mechanism and Effect with MDI Isocyanate Binders for Wood Composites. Proceedings of the Pacific Rim Bio-based Composites Symposium. Conviled by D.V. Plackett and E.A. Dunningham. Rotorua New Zealand : 9 – 13 November 1992.

George Tsoumis , 1991. Science and Technology of Wood : Structure, Properties, Utilization. New York. Van Nostrand Reinhold.

Goodell, B., G. Daniel, J. Liu, L. Mott, dan R. Frank. 1997. Decay Resistance and Microscopic Analysis of wood-Cement Composite. Forest Products journal, Volume 47, No 11/12. Forest Products Research Society, Madison, WI, USA.

Hayashi K, Ohmi M, Tominaga H, and Fukuda K, 2003. Effect of Board Density on Bending Properties and Dimensional Stabilities of MDF-reinforced Corrugated Particleboard. Japan : J. Wood Sci. 49 (5) : 398 –404.

Haygreen J G, and Bowyer J L, 1982. Forest Product and Wood Science, an Introduction. USA : Iowa State University Press, Ames, Iowa.

Hermawan, D. 2001. Manufacture of Cement – Bonded Particleboard Using Carbon Dioxide Curing Tecnology. Disertation, Departement of Forest and Biomass Science, Graduate School of the Faculty of Agriculture, Kyoto University, Kyoto.

Hill C S, 2006. Wood Modification, Chemical, Thermal, and Other Process. John Wiley & Sons Ltd. England.

Holderness, S. 1991. Marketing and Application Opportunities for Cement-bonded Particleboards: Lesson Great Britain and North America. Proceding of the Second International Inorganic Bonded Wood and Fiber Composite Material Conference. Forest Products Research Society, Madison, Wisconsin, USA.

Husein N, 2004. Sifat Fisik dan Mekanik Papan Semen dari Kayu Ketapang (Terminalia catappa). Prosiding Seminar MAPEKI VII. Editor, Muin M dan A Arif. Makassar, 3 – 5 Agustus 2004.

I F Ridzqo, D Susanto, T H Panjaitan, and N Putra. 2020. IOP Conf. Ser.: Mater. Sci. Eng. 713 012010

John A Youngquist , 1999. Wood Based Composites and Panel Products in Wood hand book; Wood as an Engineering Material. USA. Forest Product Laboratory.

Kamarudin, Siti Hasnah, Mohd Salahuddin Mohd Basri, Marwah Rayung, Falah Abu, So’bah Ahmad, Mohd Nurazzi Norizan, Syaiful Osman, Norshahida Sarifuddin, Mohd Shaiful Zaidi Mat Desa, Ummi Hani Abdullah, and et al. 2022. "A Review on Natural Fiber Reinforced Polymer Composites (NFRPC) for Sustainable Industrial Applications" Polymers 14, no. 17: 3698. https://doi.org/10.3390/polym14173698

Kawai S, Umemura K, Sasaki H, and Matsuo K, 1998. Effects of the Formulation of Isocyanate Resins on the Properties of Particleboard. Bogor : Proceedings of the Fourth Pacific Rim Bio-based Composites Symposium

Kharazipour A and Huttermann A, 1998. Biotechnological Production of Wood Composites. Di dalam : Bruce A, Palfreyman J W, editor. Forest Product Biotechnology. UK : Taylor & Prancis Ltd.

Le Bourhis, E., & Touchard, F. (2021). Mechanical properties of natural fiber composites. Reference Module in Materials Science and Materials Engineering.

Lilik, Astari., Sudarmanto., Fazhar, Akbar. (2019). Characteristics of Particleboards Made from Agricultural Wastes. 359(1):012014-. doi: 10.1088/1755-1315/359/1/012014

Lim, Y. 1982. Hydration of Wood – Cement – Water Mixture for Twelve Southern Hardwoods. Thesis Presented in Partial Fulfillment of the Requirements for the Degree of Mater of Science. Graduate School, University of Idaho, USA.

Lipin, A. A., & Lipin, A. G. (2021). Particle coating with composite shell in a pan granulator. Particulate Science and Technology, 40(1), 123–130. https://doi.org/10.1080/02726351.2021.1927272

Lyons M J, 1997. FAO Outloock Study on Wood Based Panels Production, Consumption, and Trade in The Asia Pacific Region 1996 to 2010. Asia Pacific Forestry Sector Outloock Study Working Paper. Bangkok: Regional Office for Asia and the Pacific.

Maail R S, D Hermawan, Y S Hadi, 2006. Papan Semen-Gypsum dari Core kenaf (Hibiscus cannabinus) Menggunakan Teknologi Pengerasan Autoclave. Jurnal Perennial, Jurusan Kehutanan Unhas, Makassar. Juli 2006 : 2 (2) : 12 – 18.

Maloney T M, 1993. Modern Particleboard and Dry-Process Fiberboard Manufacturing. Edisi Revisi. USA : Miller Freeman Inc San Francisco

Marra A A, 1992. Technology of Wood Bonding : Principle in Practice. New York : Van Nostrand Reinhold

Massijaya M Y, Y S Hadi, 2003. Pemanfaatan Limbah kayu Kelompok Dipterocarpaceae dan Karton Gelombang sebagai bahan Baku Pembuatan Papan Komposit. Laporan Penelitian Hibah Bersaing. Fakultas Kehutanan Institut Pertanian Bogor.

Massijaya M Y, 1997. Development of Boards Made from Waste Newspaper [Ph.D. Dissertation]. Tokyo Japan : Tokyo University.

Massijaya M Y, Okuma M, 1998. Development of Composite Boards Made from Waste Newspaper and Wood particle (II) : Optimalization of Resin Solid Level. Di dalam : Hadi Y S, compiler. Proceedings of the Fourth Pacific Rim Bio-based Composites Symposium ; Bogor, 2 – 5 November 1998.

Miller, D.P. dan A.A. Moslemi. 1991. Wood Cement Composite: Species and Heartwood-Sapwood Effect on Hydration and Tensile Strength. Forest Products Journal, Volume 41 No. 3. Forest Products Research Society, Madison, WI, USA.

Nadir, H.M., & Ahmed, A. (2021). Comparative Evaluation of Potential Impacts of Agricultural and Industrial Waste Pozzolanic Binders on Strengths of Concrete. Journal of Material Sciences & Manufacturing Research.

Otto Suchland, 1993. Fiberboard manufacturing Practice I The USA.

Pease D A, 1994. Panels : Product, Aplications and Production Trends. USA : Miller Freeman.

Petrie E M, 2004. Reactive Polyurethane Adhesives for Bonding Wood. www.specialchem4adhesives.com/resource/article/

Procházka, Petr, Vladimír Honig, Jiří Bouček, Kateřina Hájková, Lukáš Trakal, Jana Soukupová, and Hynek Roubík. 2021. "Availability and Applicability of Wood and Crop Residues for the Production of Wood Composites" Forests 12, no. 5: 641. https://doi.org/10.3390/f12050641

Rahman M A, A R Rizduan, R Sudin, H M Saman, 2006. Influence of Wood Cement Ratio on Strength and Dimensional Stability of Cement Bonded Particleboard. Proceedings of the Eight Pacific Rim Bio-based Composites Symposium. Conviled by Mohd Noor Mohd Yusoff et al.. Kuala Lumpur Malaysia : 20 – 23 November 2006.

Rowell R. 2005. Handbook of Wood Chemistry and Wood Composites. Taylor and Francis USA.

Ruhendi S, 1988. Teknologi Perekatan. Bogor. Pusat Antara Universitas : Bioteknologi. IPB.

Ruhendi S, dan Hadi YS, 1997. Perekat dan perekatan. Bogor : Jurusan Teknologi Hasil Institut Pertanian Bogor

Salla, S.R., Modhera, C.D., & Babu, U.R. (2021). An Experimental Study on Various Industrial Wastes in Concrete for Sustainable Construction. Journal of Advanced Concrete Technology.

Semple, K.E. dan P.D. Evans. 2004. Wood-Cement Composites – Suitability of Western Australian malee eucalypt, blue gum and melaleucas. A Report for The RIRDC/Land & water Australia/FWPRDC/MDBC. RIRDC Publication No 04/101.

Seri Proceeding Pacific Rim Bio-Based Composites Symposium.

Subiyanto B, Firmanti A, and Permadi P, 2003. Acacia mangium the Prospective Wood In Indonesia : Challenge for A New Resource. International Sypmposium on Sustainable Utilization of Acacia mangium. Japan. JSPS-LIPI Core University Program.

Subramanian R V, 1983. The Adhesive System, in Adhesives Bonding of Wood and Other Structural Materials, edited by, R.F. Blomquist, A.W. Christiansen, R.H. Gillespie, and G.E Myers. USA. The Pennsylvania State University.

Sudijono, Subyakto, 2002. Bending and Shear Properties of Low Density Particleboard Laminated with Zephyr of Tali Bamboo. Di dalam : Dwianto W, S Yusuf , E Hermiati, L Suryanegara, editors. Proceeding of the 4th International Wood Science Symposium. JSPS-LIPI Core University Program; Serpong, September 2 – 5, 2002. Pp 219-222.

Suárez, Luis, Jessica Castellano, Sara Díaz, Abbas Tcharkhtchi, and Zaida Ortega. 2021. "Are Natural-Based Composites Sustainable?" Polymers 13, no. 14: 2326. https://doi.org/10.3390/polym13142326

Suhasman, 2004. Analisis Hubungan nantara Suhu Hidrasi Campuran Semen-Kayu dengan Sifat Papan Wol Kayu. Laporan Penelitian (Tidak dipublikasikan). Jurusan Kehutanan Unhas. Makassar

Suhasman, A Detti Yunianti, S Saad, Baharuddin, 2013. Characteristic of Binderless Particleboard Made of Three Species of Sulawesi Bamboo. Wood Research Journal. Vol 4 No. 2, 2013

Suhasman, M Y Massijaya, Y S Hadi. 2005. The Effect of Face and Back Layer Types on Composite Board Quality. Proceeding of The Fourth Japan Wood Science Symposium IV, Bali, 29 – 30 Agustus 2005.

Suhasman, M Y Massijaya, Y S Hadi. 2006. Kualitas Papan Komposit yang Terbuat dari Limbah Kayu Sengon dan Karton daur Ulang. Jurnal Perennial, : 2 (1) : 6 - 11

Suhasman, S Saad, M. Y Massijaya. Sifat Fisik Dan Mekanis Papan Partikel Tanpa Perekat Dari Kayu Kemiri Pada Kadar Oksidator Yang Bervariasi. Jurnal Hayati Tropika, Vol. 1 No 1, 2013

Suhasman, Y S Hadi, M Y Massijaya, A Satoso, 2011. Particle Oxidation Time for the Manufacture of Binderless Particle Board. Wood Research Journal Vol 2 (1).

Suhasman, Y S Hadi, M Y Massijaya, A Satoso, 2012. Binderless Particleboard Resistance to Termite Attack. Forest Product Journal, Vol 62 No 5, 2012

Sutigno P, 2000. Effect of Aqueous Extraction of Wood-wool on the Properties of Wood-wool Cement Board Manufactured from Teak (Tectona grandis). Proceeding of Workshop Wood-Cement Composites in the Asia-Pacific Region. Editor : PD Evans. Canberra, Australia, 10 Desember 2000.

Thomas M Maloney, 1993. Modern Particleboard and Dry-Process Fiberboard Manufacturing. Edisi Revisi. USA : Miller Freeman Inc San Francisco.

Thyavihalli Girijappa YG, Mavinkere Rangappa S, Parameswaranpillai J and Siengchin S (2019) Natural Fibers as Sustainable and Renewable Resource for Development of Eco-Friendly Composites: A Comprehensive Review. Front. Mater. 6:226. doi: 10.3389/fmats.2019.00226

Tsoumis G, 1991. Science and Technology of Wood : Structure, Properties, Utilization. New York. Van Nostrand Reinhold.

Umemura K, Takahashi A, Kawai S, 1998. Thermal Properties of Isocyanate Resin Adhesives for Wood. Di dalam : Hadi Y S, compiler. Proceedings of the Fourth Pacific Rim Bio-based Composites Symposium ; Bogor, 2 – 5 November 1998.

Raimonds, Makars., Jānis, Rižikovs., Daniela, Godiņa., Aigars, Pāže., Remo, Merijs-Meri. (2022). Utilization of Suberinic Acids Containing Residue as an Adhesive for Particle Boards. Polymers, 14(11):2304-2304. doi: 10.3390/polym14112304

Rudenko, Aleksandr, Alexander Biryukov, Oleg Kerzhentsev, Roman Fediuk, Nikolai Vatin, Yuriy Vasilev, Sergey Klyuev, Mugahed Amran, and Maciej Szelag. 2021. "Nano- and Micro-Modification of Building Reinforcing Bars of Various Types" Crystals 11, no. 4: 323. https://doi.org/10.3390/cryst11040323

Vick 1999. Adhesive Bonding of Wood Materials in Wood Handbook : Wood as an Engineering Material. USA. Forest Product Society

Weaver F W and Owen N L, 1992. The Isocyanate-Wood Adhesive Bond. Proceedings of the Pacific Rim Bio-based Composites Symposium. Conviled by D.V. Plackett and E.A. Dunningham. Rotorua New Zealand. 9 – 13 November 1992.

Wu, G., Zhu, E., Ren, H., Zhong, Y., & Gong, M. (2021). Application of small-diameter round timber as structural members in light frame construction. Journal of Asian Architecture and Building Engineering, 21(3), 1029–1039. https://doi.org/10.1080/13467581.2021.1929241

Yap KHF, 1984. Konstruksi Kayu. Bandung. Bina Cipta.

Yaseen, D., & Abdulqader, A. (2021). UTILIZATION OF CARTONS WASTE CHIPS IN MANUFACTURING OF FIBER COMPOSITE BOARDS. Mesopotamia Journal of Agriculture, 49(3), 33-49. doi: 10.33899/magrj.2021.130909.1136

Youngquist J A, 1995. Unlikely Partners? The Marriage of Wood and Nonwood Materials. USA. Forest Product Journal. Vol 45 No. 10 : (25-39)

Youngquist J A, 1999. Wood Based Composites and Panel Products in Wood hand book; Wood as an Engineering Material. USA. Forest Product Laboratory.

Youssef, Passant & Zahran, Khaled & Nassar, Khaled & Darwish, Mohamed & El-Haggar, Salah. (2019). Manufacturing of Wood–Plastic Composite Boards and Their Mechanical and Structural Characteristics. Journal of Materials in Civil Engineering. 31. 10.1061/(ASCE)MT.1943-5533.0002881.

Zhang, Y., Huang, X., Zhang, Y., Yu, Y. & Yu, W. (2018). Scrimber board (SB) manufacturing by a new method and characterization of SB’s mechanical properties and dimensional stability. Holzforschung, 72(4), 283-289. https://doi.org/10.1515/hf-2017-0071