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Wood Material Science & Engineering Volume 17, 2022 - Issue 6
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Original Articles

Effect of cold-water treatment and hydrothermal carbonization of oil-palm-trunk fibers on compatibility with cement for the preparation of cement-bonded particleboard

Sudarmantoa Department of Physics, Faculty of Mathematics and Natural Science, University of Indonesia, Depok, Indonesia;b Research Center for Biomaterials – National Research and Innovation Agency (BRIN), Bogor, Indonesia
,
Ariadne L. Juwonoa Department of Physics, Faculty of Mathematics and Natural Science, University of Indonesia, Depok, IndonesiaCorrespondence[email protected]
,
Subyaktob Research Center for Biomaterials – National Research and Innovation Agency (BRIN), Bogor, IndonesiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-6009-9220
ORCID Icon,
Ismail Budimanb Research Center for Biomaterials – National Research and Innovation Agency (BRIN), Bogor, IndonesiaORCID Iconhttps://orcid.org/0000-0002-8990-1950
ORCID Icon,
Muhammad Adly Rahandi Lubisb Research Center for Biomaterials – National Research and Innovation Agency (BRIN), Bogor, IndonesiaORCID Iconhttps://orcid.org/0000-0001-7860-3125
ORCID Icon,
Sukma Surya Kusumahb Research Center for Biomaterials – National Research and Innovation Agency (BRIN), Bogor, IndonesiaORCID Iconhttps://orcid.org/0000-0001-5216-6246
ORCID Icon,
Wida Banar Kusumaningrumb Research Center for Biomaterials – National Research and Innovation Agency (BRIN), Bogor, IndonesiaORCID Iconhttps://orcid.org/0000-0001-9858-8671
ORCID Icon &
Danang Sudarwoko Adib Research Center for Biomaterials – National Research and Innovation Agency (BRIN), Bogor, Indonesia
 show all
Pages 979-988 | Received 09 Jun 2021, Accepted 17 Sep 2021, Published online: 06 Oct 2021

References

  • Abdullah, A., Abdullah, M. M. A. B., Hussin, K., Ghazali, C. M. R., Salleh, M. A. A. M., Sang, P. K. and Muhammad Faheem, M. T. (2013) Study on the properties of oil palm trunk fiber (OPTF) in cement composite. Applied Mechanics and Materials, 421, 395–400. DOI: 10.4028/www.scientific.net/AMM.421.395
  • Ahmad, Z., Saman, H. M. and Tahir, P. M. (2010) Oil palm trunk fiber as a bio-waste resource for concrete reinforcement. International Journal of Mechanical and Materials Engineering, 5, 199–207.
  • Akinyemi, B. A. and Dai, C. (2020) Development of banana fibers and wood bottom ash modified cement mortars. Construction Building Materials, 241, 118041. doi:10.1016/j.conbuildmat.2020.118041
  • Bakar, E. S., Sahri, M. H. and H'ng, P. S. (2008) Anatomical characteristics and utilization of oil palm wood. In T. Nobuchi, and M. H. Sahri (eds.) The Formation of Wood in Tropical Forest Trees: A Challenge from the Perspective of Functional Wood Anatomy (Kuala Lumpur: Penerbit Universiti Putra Malaysia).
  • Darwis, A., Massijaya, M. Y., Nugroho, N. and Alamsyah, E. M. (2014) The characteristics of the laminated board of oil palm trunk. Jurnal Ilmu dan Teknologi Kayu Tropis, 12(2), 158–168.
  • de Souza, M. J. C., de Melo, R. R., GuimarãesJr.J. B., de Azevedo Carnaval, T. K. B., Pimenta, A. S. and Mascarenhas, A. R. P. (2021) Wood–cement boards with addition of coconut husk. Wood Material Science and Engineering. doi:10.1080/17480272.2021.1914722
  • Ferraz, J. M., Menezzi, C. H. S. D., Teixeria, D. E. and Martins, S. A. (2011) Effects of treatment of coir fiber and cement/fiber ratio on properties of cement-bonded composites. BioResources, 6(3), 3481–3492.
  • Frybort, S., Mauritz, R., Teischinger, A. and Müller, U. (2008) Cement bonded composites – a mechanical review. BioResources, 3(2), 602–626.
  • Hermawan, D., Subiyanto, B. and Kawai, S. (2001) Manufacture and properties of oil palm frond cement-bonded board. Journal of Wood Science, 47, 208–213.
  • Hermiati, E., Risanto, L., Lubis, M. A. R., Laksana, R. P. B. and Dewi, A. R. (2017) Chemical characterization of lignin from kraft pulping black liquor of Acacia mangium. In: AIP Conference Proceedings. doi:10.1063/1.4973132.
  • Hofstrand, A. D., Moslemi, A. A. and Garcia, J. F. (1984) Curing characteristics of wood particles from nine northern rocky mountain species mixed with Portland cement. Forest Products Journal, 34(2), 57–61.
  • Hong, M.-K., Lubis, M. A. R., Park, B.-D., Sohn, C. H. and Roh, J. (2020) Effects of surface laminate type and recycled fiber content on properties of three-layer medium density fiberboard. Wood Material Science and Engineering, 15, 163–171. doi:10.1080/17480272.2018.1528479
  • Hoong, Y. B. and Paridah, M. T. (2013) Development a new method for pilot scale production of high grade oil palm plywood: Effect of hot-pressing time. Materials and Design, 45, 142–147. doi:10.1016/j.matdes.2012.08.054
  • Ibrahim, Z., Aziz, A. A., Ramli, R., Mokhtar, A., Omar, R. and Lee, S. (2014) Production of medium density fiberboard (MDF) from oil palm trunk (OPT). Journal of Applied Sciences, 14(11), 1174–1179. doi:10.3923/jas.2014.1174.1179
  • JIS A 5417 (1992) Cement Bonded Particleboards (Tokyo, Japan: Japanese Standards Association).
  • Jumhuri, N., Hashim, R., Sulaiman, O., Wan Nadhari, W. N. A., Salleh, K. M., Khalid, I., Saharudin, N. I. and Razali, M. Z. (2014) Effect of treated particles on the properties of particleboard made from oil palm trunk. Materials and Design, 64, 769–774. doi:10.1016/j.matdes.2014.08.053
  • Lamaming, J., Hashim, R., Sulaiman, O., Leh, C. P., Sugimoto, T. and Nordin, N. A. (2015) Cellulose nanocrystals isolated from oil palm trunk. Carbohydrate Polymers, 127, 202–208. doi:10.1016/j.carbpol.2015.03.043
  • Lee, S. H., Ashaari, Z., Ang, A. F., Abdul Halip, J., Lum, W. C., Dahali, R. and Halis, R. (2018) Effects of two-step post heat-treatment in palm oil on the properties of oil palm trunk particleboard. Industrial Crops Products, 116, 249–258. doi:10.1016/j.indcrop.2018.02.050
  • Lubis, M. A. R., Park, B. and Hong, M. (2019) Tailoring of oxidized starch’s adhesion using crosslinker and adhesion promotor for the recycling of fiberboards. Journal of Applied Polymer Science, 136, 47966. doi:10.1002/app.47966
  • Mihashi, H. and Nishiwaki, T. (2012) Development of engineered self-healing and self- repairing concrete: state of the art report. Journal of Advanced Concrete Technology, 10, 170–184. doi: 10.3151/jact.10.170
  • Momoh, E. O. and Osofero, A. I. (2020) Recent developments in the application of oil palm fibers in cement composites. Frontiers of Structural Civil Engineering, 14, 94–108. doi:10.1007/s11709-019-0576-9
  • Müller, G., Schöpper, C., Vos, H., Kharazipour, A. and Polle, A. (2009) FTIR-ATR Spectroscopic analyses of changes in wood properties during particle- and fiberboard production of hard- and softwood trees. BioResources, 4, 49–71. doi:10.15376/biores.4.1.49-71
  • Nazerian, M., Gozali, E. and Ghalehno, M. D. (2011) The influence of wood extractives and additives on the hydration kinetics of cement paste and cement-bonded particleboard. Journal of Applied Sciences, 11(12), 2186–2192.
  • Odeyemi, S. O., Abdulwahab, R., Adeniyi, A. G. and Atoyebi, O. D. (2020) Physical and mechanical properties of cement-bonded particleboard produced from african balsam tree (populous balsamifera) and periwinkle shell residues. Results in Engineering, 6, 100126.
  • Okino, E. Y. A., de Souza, M. R., Santana, M. A. E., Alves, M. V. S., de Sousa, M. E. and Teixeira, D. E. (2004) Cement-bonded wood particleboard with a mixture of eucalypt and rubberwood. Cement and Concrete Composites, 26, 729–734.
  • Olamilekan, A. F. (2019) Properties of oriented strand board (OSB) made from oil palm trunk strand bonded with phenol formaldehyde resin for structural and aerospace application. Thesis. University Putra Malaysia.
  • Pereira, C., Caldeira, F., Ferreira, J. M. F. and Irle, M. M. (2012) Characterization of cement-bonded particleboards manufactured with maritime pine, blue gum and cork grown in Portugal. European Journal of Wood and Wood Products, 70, 107–111.
  • Poletto, M., Ornaghi Jnior, H. L. and Zattera, A. J. (2015) Thermal decomposition of natural fibers: Kinetics and degradation mechanisms, reactions and mechanisms. In A. Tiwary and B. Raj (eds) Thermal Analysis of Advanced Materials. doi:10.1002/9781119117711.ch21
  • Richard, T., Mercury, L., Poulet, F. and d’Hendecourt, L. (2006) Diffuse reflectance infrared Fourier transform spectroscopy as a tool to characterise water in adsorption/confinement situations. Journal of Colloid Interface Science, 304, 125–136. doi:10.1016/j.jcis.2006.08.036
  • Shinoj, S., Visvanathan, R., Panigrahi, S. and Kochubabu, M. (2011) Oil palm fiber (OPF) and its composites: A review. Industrial Crops and Products, 33, 7–22. doi:10.1016/j.indcrop.2010.09.009
  • Snoeck, D., Smetryns, P. A. and Belie, N. D. (2015) Improved multiple cracking and autogenous healing in cementitious materials by means of chemically-treated natural fibers. Biosystem Engineering, 139, 87–99. doi: 10.1016/j.biosystemseng.2015.08.007
  • Srivaro, S., Matan, N. and Lam, F. (2019) Performance of cross laminated timber made of oil palm trunk waste for building construction: A pilot study. European Journal of Wood and Wood Products, 77, 353–365. doi:10.1007/s00107-019-01403-0
  • Sudin, R. and Swamy, N. (2006) Bamboo and wood fibre cement composites for sustainable infrastructure regeneration. Journal of Materials Science, 41, 6917–6924.
  • Suh, J. S., Hermawan, D. and Kawai, S. (2000) Manufacture of cement-bonded particleboards from Korean pine and larch by curing of supercritical CO2 fluid. Mokchae Konghak, 28(4), 41–50.
  • Sulaiman, O., Salim, N., Hashim, R., Yusof, L. H. M., Razak, W., Yunus, N. Y. M., Hashim, W. S. and Azmy, M. H. (2009) Evaluation on the suitability of some adhesives for laminated veneer lumber from oil palm trunks. Materials and Design, 30, 3572–3580. doi:10.1016/j.matdes.2009.02.027
  • Sun, R. C., Fang, J. M. and Tomkinson, J. (1999) Fractional isolation and structural characterization of lignins from oil palm trunk and empty fruit bunch fibers. Journal of Wood Chemistry and Technology, 19, 335–356. doi:10.1080/02773819909349616
  • TAAPI T9 m-54. Hollocelulose in wood. Technical Association of the Pulp and Paper Industry, Atalanta, GA.
  • TAPPI T203 cm-99. Alpha-, beta- and gamma-cellulose in pulp. Technical Association of the Pulp and Paper Industry, Atalanta, GA.
  • TAPPI T222 om-02. Acid-insoluble lignin in wood and pulp. Technical Association of the Pulp and Paper Industry, Atalanta, GA.
  • TAPPI 204 cm-97. Solvent extractives of wood and pulp. Technical Association of the Pulp and Paper Industry, Atalanta, GA.
  • Varas, M. J., De Buergo, M. A. and Fort, R. (2005) Natural cement as the precursor of Portland cement: Methodology for its identification. Cement Concrete Research, 35, 2055–2065. doi:10.1016/j.cemconres.2004.10.045
  • Wei, Y. M., Zhou, Y. G. and Tomita, B. (2000) Study of hydration behaviour of wood cement-based composite II: Effect of chemical additives on the hydration characteristics and strengths of wood-cement composites. Journal of Wood Science, 46, 444–451.
  • Ylmén, R., Jäglid, U., Steenari, B. M. and Panas, I. (2009) Early hydration and setting of Portland cement monitored by IR, SEM and vicat techniques. Cement Concrete Research, 39, 433–439. doi:10.1016/j.cemconres.2009.01.017

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