Perluasan Kinerja Akustik Limbah Kayu Batang Kelapa Sawit Termodifikasi Bahan Formaldehida
DOI:
https://doi.org/10.26418/positron.v12i2.55963Keywords:
formalization, impregnation, melamine-formaldehyde, resonant absorberAbstract
Chemical modifications for waste oil palm trunks had carried out as acoustic material. This modification was conducted in two stages. Firstly, formalization with formaldehyde solution and secondly is impregnation with melamine-formaldehyde resin. Formalization was conducted in alkaline condition (pH 10) for 3 days and 5 days. Impregnation was carried out under pressure 3 bar and 5 bar and held for an hour. For completed these modification, the samples was cured at 120oC for 10 minutes and then dried at (103 ±2)oC to reached moisture content of less than 6%. This modification has changed the chemical structure and the morphology of wood, as shown by the FTIR and SEM results. The samples became denser, stronger and more rigid. Furthermore, the mechanical and physical properties of modified wood are also increasing. The absorption coefficient decreases with increasing formalization time and impregnation pressure. Based on trend of absorption coefficient, BKS wood can be applicated as resonant absorber with work class from A to class B and D.
References
Kinerja, L. dan Perindustrian, K. tahun 2015 Kementerian Perindustrian. (2016).
Directorate General of Plantation , Oil Palm Area by Province in Indonesiapp.2020, 2019.
Tanah 340 Ribu Hektare Ditanami Sawit, Ini Hasilnya | Tagar.
Lamaming, J. , Hashim, R. , Leh, C. P. , Sulaiman, O. , Sugimoto, T. , dan Nasir, M. , Isolation and characterization of cellulose nanocrystals from parenchyma and vascular bundle of oil palm trunk (Elaeis guineensis), Carbohydrate Polymers, 134pp.534–540, 2015.
Khalil, H. P. S. A. , Amouzgar, P. , Jawaid, M. , Abdullah, C. K. , Issam, A. M. , Zainudin, E. S. , Paridah, M. T. , dan Hassan, A. , Physical and thermal properties of microwave-dried wood lumber impregnated with phenol formaldehyde resin, Journal of Composite Materials, 47(28), pp.3565–3571, 2013.
Dungani, R. , Jawaid, M. , Khalil, H. P. S. A. , Jasni , Aprilia, S. , Hakeem, K. R. , Hartati, S. , dan Islam, M. N. , A review on quality enhancement of oil palm trunk waste by resin impregnation: Future materials, BioResources, 8(2), pp.3136–3156, 2013.
Salim, N. , Hashim, R. , Sulaiman, O. , Ibrahim, M. , Nasir, M. , Sato, M. , Sugimoto, T. , dan Hiziroglu, S. , Improved performance of compressed oil palm trunk prepared from modified pre-steaming technique, Journal of the Indian Academy of Wood Science, 13(1), pp.1–7, 2016.
Manik, T. N. , Nuki, S. A. , Fauziyah, N. A. , dan Zainuri, M. , Structure, Dynamic-Mechanical and Acoustic Properties of Oil Palm Trunk Modified by Melamine Formaldehyde, Journal of Renewable Material, 2021.
Manik, T. N. , Mashuri , dan Darminto , Study on formalization of oil palm trunk modified by melamine formaldehyde, Materials Science Forum, 966 MSFpp.151–156, 2019.
Kerdtongmee, P. , Saleh, A. , Eadkhong, T. , dan Danworaphong, S. , Investigating Sound Absorption of Oil Palm Trunk Panels Using One-microphone Impedance Tube, BioResources, 11(4), pp.8409–8418, 2016.
Kalaivani, R. , Ewe, L. S. , Chua, Y. L. , dan Ibrahim, Z. , The Effects of Different Thickness of Oil Palm Trunk (OPT) Fiberboard on Acoustic Properties, American Journal of Environmental Engineering and Science, 29(5), pp.1105–1108, 2017.
Kalaivani, R. , Ewe, L. S. , Zaroog, O. S. , Woon, H. S. , dan Ibrahim, Z. , Acoustic properties of natural fiber of oil palm trunk, International Journal of ADVANCED AND APPLIED SCIENCES, 5(6), pp.88–92, 2018.
Smardzewski, J. , Batko, W. , Kamisiński, T. , Flach, A. , Pilch, A. , Dziurka, D. , Mirski, R. , Roszyk, E. , dan Majewski, A. , Experimental study of wood acoustic absorption characteristics, Holzforschung, 68(4), pp.467–476, 2014.
Brémaud, I. , Acoustical properties of wood in string instruments soundboards and tuned idiophones: Biological and cultural diversity, The Journal of the Acoustical Society of America, 131(1), pp.807–818, 2012.
Goken, J. , Fayed, S. , Schafer, H. , dan Enzenauer, J. , A study on the correlation between wood moisture and the damping behaviour of the tonewood spruce, Acta Physica Polonica A, 133(5), pp.1241–1260, 2018.
Sarasini, F. ,Mechanical and Thermal Properties of Less Common Natural Fibres and Their Composites, 2018.
Wegst, U. G. K. , Wood for sound, American Journal of Botany, 93(10), pp.1439–1448, 2006.
Deka, M. dan Saikia, C. N. , Chemical modification of wood with thermosetting resin: Effect on dimensional stability and strength property, Bioresource Technology, 73(2), pp.179–181, 2000.
Ormondroyd, G. A. ,Adhesives for wood composites,Elsevier Ltd., 2015.
Gindl, W., Hansmann, C., Gierlinger, N., Schwanninger, M., Hinterstoisser, B., dan Jeronimidis, G. Using a water-soluble melamine-formaldehyde resin to improve the hardness of Norway spruce wood. Journal of Applied Polymer Science. , 93(4) , 1900–1907. (2004).
W Gindl F Zargar Yaghubi R Wimmer 2003 Impregnation of Softwood Cell Walls with Melamine Formaldehyde Resin Bioresource Technology 87 2003 325 330.pdf.
Dungani, R. , Abdul Khalil, H. P. S. , Islam, M. N. , Sumardi, I. , Aditiawati, P. , dan Hadiyane, A. , Soil burial degradation of Oil Palm Shell (OPS) nanofiller and Phenol Formaldehyde (PF) resin-impregnated Oil Palm Trunk Lumber (OPTL): Dimensional stability and mechanical properties, Journal of Biobased Materials and Bioenergy, 10(4), pp.258–264, 2016.
Badan Standardisasi Nasional , Papan partikel, Standar Nasional Indonesia (Papan Serat), pp.1–23, 2006.
[JIS] Japanese Industrial Standard ,Particleboard (JIS A 5908),Japanese Standard Association, 1994.
Chieng, B. W. , Lee, S. H. , Ibrahim, N. A. , Then, Y. Y. , dan Loo, Y. Y. , Isolation and characterization of cellulose nanocrystals from oil palm mesocarp fiber, Polymers, 9(8), pp.1–11, 2017.
Hill, C. A. S. ,Wood Modification: Chemical, Thermal and Other Processes, 2006.
Horikawa, Y. , Hirano, S. , Mihashi, A. , Kobayashi, Y. , Zhai, S. , dan Sugiyama, J. , Prediction of Lignin Contents from Infrared Spectroscopy: Chemical Digestion and Lignin/Biomass Ratios of Cryptomeria japonica, Applied Biochemistry and Biotechnology, 188(4), pp.1066–1076, 2019.
Merline, D. J. , Vukusic, S. , dan Abdala, A. A. , Melamine formaldehyde: Curing studies and reaction mechanism, Polymer Journal, 45(4), pp.413–419, 2013.
Yano, H. dan Kajita, H. , Chemical Treatment of Wood for Musical Instruments, The Journal of the Acoustical Society of America 96(6), pp.3380–3391, 2014.
Damanik, R. I. M. , Kekuatan Kayupp.1–7, 2005.
Jawaid, M., Tahhir P.M , Lignocellulosic Fibre and Biomass-Based Composite Materials, Processing, Properties and Aplication, Woodhead Publishing Elsevier, pp. 15, 2017
Rowell, R. M., Akitsu H., Norimoto, M., Morooka,T., Effect Of Humidity On Vibrational Properties, Wood Science and Technology, 25(3), pp.250–260, 1993.
YANO, H. , NORIMOTO, M. , dan ROWELL, R. , Stabilization of acoustical properties of wooden musical instruments by acetylation, Wood and fiber science, 25(4), pp.395–403, 1993.
Cox, T. J.; D’Antonio, P.; dan Schroeder, M. ,Acoustic Absorbers and Diffusers, Theory, design and application, Taylor and Prancis, pp.225-255, 2005.
ISO 11654 ,Acoustical Sound Absorbers for Use in Buildings-Rating of Sound Absorption, 1997.
Downloads
Published
Issue
Section
License
Authors who publish with this journal agree to the following terms:
- Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
- Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.
- Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).

This work is licensed under a Creative Commons Attribution 4.0 International License.