Experimental Analysis of Adhesive Joint Strength and Moisture Level of Pineapple Leaf Fiber (PALF) from Different Location within a Stem

Authors

  • Dessy Syapoetri Sriwijaya University Indonesia
  • amin rejo
  • rizky tirta adhiguna
  • harsyamsi Wahab

DOI:

https://doi.org/10.22135/sje.2019.4.3.157-164

Abstract

The utilization of pineapple leaf fiber (PALF) as textile fiber material will have a very important meaning that is in terms of utilization of agro-waste. Pineapple leaf fiber (PALF) has different characteristics due to pineapple leaf’s position. Utilization of PALF from base of the plant stem is more appropriate to be used as textile fiber material. PALF categorized as staple fiber (short fiber) which needs to have a connecting process. The connecting process is usually carried out by dead knotted.The research objective was to know the effect of the location of pineapple leaves and various adhesive materials to characteristics of pineapple fibers. The research was conducted on September 2018 until March 2019 at Department of Agricultural Technology Sriwijaya University and Center for Textiles in Bandung, West Java Province. The research used Factorial Completely Randomized Design (RALF) with two treatment factors of the pineapple fibers location in the stem consisting of three levels namely the upper part (A1), the middle (A2) and the bottom (A3) and the type of adhesive consisting of two levels, polyvinyl alcohol (B1) and polyester resin (B2). This research consisted three parameters of moisture content (%), tensile strength / bundle (gf), and tensile strength (gf). The result of this research showed that the difference of location of fibers in pineapple leaves affect the moisture content (%), tensile strength / bundle (gf), and tensile strength (gf). The combination of interaction location of pineapple fibers on leaves and the type of adhesive significantly affected the moisture content (%) of MC and MR, tensile strength / bundle (gf) of Fmax and Emax. The best treatment was found on the treatment combination of lower fiber treatment and polyester adhesive (A3B2), namely MC 3.18%, MR value in A3B2 treatment of 3.28%. The best treatment of tensile strength / bundle is in the A3B2 treatment of 1779.8 gf for the value of F max and the E max value found in the treatment A3B2 which is 4.79%.

Keywords:

pineapple, fiber, moisture content, tensile strength, bundle, strands

Author Biography

  • Dessy Syapoetri, Sriwijaya University
    Undergraduate Student of Agricultural Technology Department

References

Izwan, S., Sapuan, S, M. 2018. Mechanical Properties (Impact Strength) of Pineapple Leaf Fibre Reinforced Polypropylene Composites with Variation of Fibre Loading and Treatment Process. 2018. Material Science: Advanced Composite Materials. 2 (4): 1-16. http://dx.doi.org/10.18063/msacm.v2i4.841.

Ningrum, L, Y., Amiadji,. Musriyadi, T, B., Jadmiko, E. 2017. The Potency of Pineapple Leaf Fiber As An Alternative Composite Material To Substitution Fiberglass In The Hull Manufacture. Marine Technology For Sustainable Development. SENTA (2017): 144-156.

Panyasart, K., Chaiyut, N., Amornsakchai, T., Santawitee, O. 2014. Effect of Surface Treatment on The Properties of Pineapple Leaf Fibers Reinforced Polymide 6 Composite. Energy Procedia 56 (2014): 406-413.

Asim, M., Abdan, K., Jawaid, M., Nasir, M., Dashtizadeh, Z., Ishak, M, R., Hoque, M, E. 2015. A Review on Pineapple Leaves Fibre and Its Composite. International Journal of Polymer Science. Article ID 950567 (2015) 1-16 pp. http://dx.doi.org/10.1155/2015/950567.

Rejo, A., Adhiguna, R, T., Rajagukguk, D, G. 2018. Study of Natural Dyes and Pineapple Leaf Fibres Growing Locations within Plant Stems on Dyeing Intensity. 1st SRICOENV. E3S Web of Conferences 68, 01030 (2018): 1-55. https://doi.org/10.1051/c3sconf/20186801030.

Sitompul, H., 2016. Perancangan Pabrik Polivinil Alkohol dari Polivinil Asetat dan Metanol Kapasitas 40.000 Ton/Tahun. Skripsi. Universitas Lampung.

Sugiyanto., 2016. Pengaruh Jenis Adhesive pada Sambungan Komposit Serat Nanas terhadap Kekuatan Geser dengan Matrik Polyester. Jurnal AUTOINDO Politeknik Indonusa Surakarta. 1(3): 16 – 22.

Wijana, S., Dewi, I, A., Setyowati, E, D, P. 2016. Aplikasi Pewarna Batik pada Tenun dari Serat Daun Nanas (Kajian Proporsi Jenis Benang dan Jenis Pewarna). IndustriaL Jurnal Teknologi dan Manajemen Agroindustri. 5(1): 30-38.

Goswami, B, C., Anandjiwala, R, D., Hall, D, M. 2004. Textile Sizing. Marcel Dekker, Inc. New York. ISBN: 0-8247-5053-5.

Widihastuti dan Bestari, A. G., 2009. Pemanfaatan Serat Daun Suji (Pleomele Angustiofila) Sebagai Bahan Baku Alternatif Tekstil. Ringkasan laporan Hasil Penelitian. Universitas Negeri Yogyakarta.

Andini, A. P., Rohana, A. dan Panggabean, S., 2017. Uji Karakteristik Fisik Benang Pakan Berbahan Dasar Serat Alami Tanaman Lidah Mertua (Senseviera cylindrica). Jurnal Rekaya Pangan dan Pertanian. 5(4): 841-847.

Mastura, V., 2019. Karakteristik Serat Daun Nanas (Annas Comosus L.Merr) dengan Pewarna Sintetis Pada Berbagai Letak Daun. Skripsi (Tidak Dipublikasikan). Fakultas Pertanian Universitas Sriwijaya.

Setyawan, P. D., Sari, N. H. Dan Putra, D. G. P., 2012. Pengaruh Orientasi dan Fraksi Volume Serat Daun Nanas (Ananas comosus) terhadap Kekuatan Tarik Komposit Polyester Tak Jenuh (UP). Jurnal Teknik Mesin. 2 (1).

Hidayat, P., 2008. Teknologi Pemanfaatan Serat Daun Nanas sebagai Alternatif Bahan Baku Tekstil. Jurnal Teknoin. 13(2): 31 – 35.

Piluharto, B., Sjaifullah, A., Rahmawati, I. dan Nurharianto, E., 2017. Membran Blend Kitosan/Polivinil Alkohol (PVA): Pengaruh Komposisi Material Blend, pH, dan Konsentrasi bahan Pengikat Silang. Jurnal Kimia Riset. 2(2): 77 – 85.

Sari, V. A. P., Boesono, H. dan Setiyanto, I., 2017. Analisis Pengaruh Media Perendaman Benang PA Multifilamen D21 Terhadap Kekuatan Putus (Breaking Strength) dan Kemuluran (Elongation) dengan Metode SNI ISO 1805:2010. Journal of Fisheries Resources Utilization Management and Technology. 6(4): 168 – 174.

Rejo, A., 2008. Rancang Bangun dan Uji Teknis Alat Penyambung Serat Nenas dengan Sistem Pemanas. Jurnal Agribisnis dan Industri Pertanian. 7(1): 74-79.

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Published

12/31/2019

Issue

Vol. 4 No. 3 (2019): AGROTECHNOLOGY AND SOCIOECONOMICAL WELFARE

Section

Articles

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