Hybrid Adhesive Made from Citric Acid and Sucrose for Particleboard Composed of Sengon (Paraserianthes falcataria (L.) Nielsen) Veener By-Products and Sorghum Stalk

Kurnia Wiji Prasetiyo, Dede Hermawan, Firman Muliana, Sudarmanto Sudarmanto, Narto Narto, Yusuf Sudo Hadi, Subyakto Subyakto

Abstract

Particleboard is a product of wood technology engineering made of wood particles and other lignocellulosic materials which are bonded with synthetic adhesives. As an information, utilization of natural adhesive for particleboard is still limited. This study aimed to determine the influence of hybrid adhesive made from citric acid and sucrose for particleboard properties composed of Sengon veener by-products and sorghum stalk. The hybrid adhesive content used was 15% of citric acid and 25% of sucrose that calculated from the dry weight of particles. The mixture ratio of hybrid adhesive for both citric acid and sucrose were 100:0, 75:25, 50:50, 25:75, and 0:100 (% w/w). The manufacture of particleboard was set on target density of 0.8 g/cm3 under a press temperature of 200o C for 10 minutes. Mostly, the properties of particleboard were shown to be affected by the adhesive content and composition ratio between citric acid and sucrose and met the Japan Industrial Standard A 5908:2003. The value of modulus of elasticity, modulus of rupture, internal bond, and screw holding were ranged about 1.21-3.49 GPa, 12.77-20.24 MPa, 0.18-0.90 MPa and 167.71-321.27 N. Particleboard with 15% of citric acid content and the mixture ratio both citric acid and sucrose of 50:50 has the best physical and mechanical properties and met the requirement of Japan Industrial Standard A 5908:2003.

Keywords

adhesive content; hybrid adhesive; mixture ratio; Sengon veneer by-products; sorghum stalk

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References

Ariyani, M. S. 2009. Kualitas papan partikel dari sabut kelapa (Cocos nucifera L.) [skripsi]. Bogor (ID): Institut Pertanian Bogor.

Astari, L., Prasetiyo, K. W., Suryanegara, L. 2018. Properties of particleboard made from wood waste with various size. IOP Conference Series: Earth and Environmental Science. 166: 17-23.

Bowyer, J. L., Shmulsky, R., Haygreen, J. G. 2007. Forest Products and Wood Science, 5th ed. America (US): Blackwell Publishing.

Cahyana, B. T. 2014. Papan partikel dari campuran limbah rotan dan penyulingan kulit kayu gemor (Alseodaphne spp). Jurnal Riset Industri Hasil Hutan. 6 (1): 41-49.

Ferdosian, F., Pan, Z., Gao, G., Zhao, B. 2017. Bio-based adhesives and evaluation for wood composites application. Polymers. 9 (2): 2-29.

Fransiskus, H., Hartono, R., Sucipto, T. 2015. Kualitas papan partikel dari campuran sabut kelapa dan partikel mahoni dengan berbagai variasi kadar perekat fenol formaldehida. Journal of Peronema Forestry Science. 4 (2): 53-61.

Ghaffar, S. H, Fan, M. 2014. Lignin in straw and its applications as an adhesive. International Journal of Adhesion and Adhesives. 48: 92–101.

Gambhir, M. L., Jamwal, N. 2014. Building and Construction Material: Testing and Quality Control. India (IN): McGraw Hill.

Haygreen, J. G., Bowyer, J. L. 1996. Hasil Hutan Dan Ilmu Kayu Suatu Pengantar. Yogyakarta (ID): Universitas Gajah Mada Press.

Hemmila, V., Adamopoulos, S., Karlsson, O., Kumar, A. 2017. Development of sustainable bio-adhesives for engineered wood panels – A Review. RSC Advances. 7: 38604–38630.

Jatmiko, A. 2006. Kualitas papan partikel pada berbagai kadar perekat likuida tandan kosong kelapa sawit [skripsi]. Medan (ID): Universitas Sumatra Utara.

Khosravi, S., Nordqvist, P., Khabbaz, F., Johansson, M. 2011. Protein-based adhesives for particleboards – effect of application process. Industrial Crops and Products. 34: 1509–1515.

JIS, 2003. Japanese Industrial Standard. 2003. Japanese Standards Association: Particleboards. Tokyo.

Kusumah, S. S., Arinana, A., Hadi, Y. S., Guswenrivo, I., Yoshimura, T., Umemura, K., Tanaka, S., Kanayama, K. 2017. Utilization of sweet sorghum bagasse and citric acid in the manufacturing of particleboard. III: influence of adding sucrose on the properties of particleboard. BioResources. 12(4): 7498-7514

Liao, R., Xu, J., Umemura, K. 2016. Low density sugarcane bagasse particleboard bonded with citric acid and sucrose: effect of board density and additive content. BioResources. 11(1): 2174-2185.

Maloney, T. M. 1993. Modern Particleboard And Dry-Process Fiberboard Manufacturing. San Franscisco (US): Miller Freeman.

Mardhatillah, S. 2018. Karakteristik papan partikel dari campuran sengon dengan batang sorgum menggunakan perekat asam sitrat [skripsi]. Bogor (ID): Institut Pertanian Bogor.

Marwanto, Maulana, S., Maulana, M. I., Wistara, N. J., Nikmatin, S., Febrianto, F. 2018. Peningkatan sifat papan partikel sengon dengan perlakuan perendaman air. Jurnal Ilmu dan Teknologi Kayu Tropis. 16(2): 151-159.

Navarrete, P., Kebbi, Z., Michenot, F., Lemonon, J., Rogaume, C., Masson, E., Rogaume, Y., Pizzi, A. 2013. Formaldehyde and VOCs emissions from bio-particleboards. Journal of Adhesion Science and Technology. 27(7): 748-762.

Patel, A. K., Michaud, P., Petit, E., de Baynast, H., Gre’diac, M., Mathias, J. D. 2012. Development of a Chitosan-Based Adhesive. Application to Wood Bonding. Journal of Applied Polymer Science. 127(6): 5014-5021.

Prasetiyo, K. W., Octaviana, L., Astari, L., Syamani, F. A., Subyakto and Achmadi, S. S. 2018. Physical-mechanical properties and bonding mechanism of corn stalks particleboard with citric acid adhesive. J. Ilmu Teknol. Kayu Tropis. 16 (2): 132-141.

Prasetiyo, K. W., Zalukhu, L., Astari, L., Sudarmanto, Akbar, F., Hermawan, D. 2020. The potential of using agricultural waste: corn husk for particleboard raw material The 7th JASTIP Symposium 2019 at the IOP Conference Series: Earth and Environmental Sciences (EES).

Privas, E., Navard, P. 2013. Preparation, processing and properties of lignosulfonate–flax composite boards. Carbohydrate Polymers. 93: 300-306.

Salem, M. Z. M., Bohm, M. 2013. Understanding of formaldehyde emissions from solid wood: An overview. BioResources. 8(3): 4775–4790.

Santoso, M., Widyorini, R., Prayitno, T. A., Sulistyo, J. 2016. Kualitas papan partikel dari pelepah nipah dengan perekat asam sitrat dan sukrosa. Jurnal Ilmu Kehutanan. 10 (2): 129-136.

Sarigiannis, D. A., Karakitsios, S. P., Gotti, A., Liakos, I. L., Katsoyiannis, A. 2011. Exposure to major volatile organic compounds and carbonyls in European indoor environments and associated health risk. Environment International. 37: 743–765.

Sutiawan, J. 2018. Papan partikel dari campuran limbah vinir sengon dengan batang sorgum menggunakan perekat berbasis formaldehida [skripsi]. Bogor (ID): Institut Pertanian Bogor.

Sutiawan, J., Hermawan, D., Kusumah, S.S., Widyaningrum, B.A., Sukara, E. 2020. Pemanfaatan maltodextrin singkong untuk perekat ramah lingkungan dalam pembuatan papan partikel dari bagas sorgum. Jurnal Sylva Lestari. 8(2): 144-154.

Umemura, K., Sugihara, O., Kawai, S. 2013. Investigation of a new natural adhesive composed of citric acid and sucrose for particleboard. Journal of Wood Science. 59: 203-208.

Umemura, K., Sugihara, O., Kawai, S. 2015. Investigation of new natural adhesive composed of citric acid and sucrose for particleboard II: effect of board density and pressing temperature. Journal of Wood Science. 61(1): 40-44.

Wang, Q., Wu, N., Li, X., Wang, H., Lei, H., Du, G., Wu, Z., Liu, S. 2018. Improving the performance of Eucalyptus wood particleboard panels with low free formaldehyde emission urea-formaldehyde resin using pectinase enzyme pretreatment. BioResources. 13 (2): 2996-3004.

Walker, J. C. F. 2006. Primary Wood Processing, Principles, and Practice. New Zealand: Springer.

Widyorini, R., Nugraha, P. A. 2015. Sifat fisis dan mekanis papan partikel sengon dengan perekat asam sitrat-sukrosa. Jurnal Ilmu Teknologi Kayu Tropis. 13(2): 175-184.

Wiwit, Setyawati, D., Yani, A, Nurhaida. 2019. Sifat fisik mekanik papan partikel dari ampas sagu (Metroxylon sp) berdasarkan ukuran partikel dan perbandingan asam sitrat-sukrosa. Jurnal Hutan Lestari. 7 (1): 220-228.

Zhang, J., Song, F., Tao, J., Zhang, Z., Shi, S. Q. 2018. Research progress on formaldehyde emission of wood-based panel. International Journal of Polymer Science. 2018: 9349721.

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