PENGARUH KOMBINASI LAPISAN PAPAN PARTIKEL DARI LIMBAH PARTIKEL AREN (Arenga pinnata) DAN LIMBAH SERUTAN BAMBU (Dendrocalamus asper) DENGAN JUMLAH PEREKAT UREA FORMALDELHIDA TERHADAP SIFAT PAPAN PARTIKEL

ASEAN Journal of Systems Engineering Pub Date : 2013-07-31 DOI:10.22146/ajse.v1i1.2349

Muhammad Lutfi Sonjaya, I. Haryanto, Kusnanto

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引用次数: 1

Abstract

The need of wood for lumber industry in indonesia has got deficit over increasing population that make demand increase dramatically. One of effort that we could do is to find an alternative of wood like make particle board. Sugar palm waste and bamboo waste can be usde as board particle sources because it contains sellulose, hemisellulose and lignin as element of wood structure. The objective of this research is to find out the effect of urea formaldehyde addition and combination of layered particle from aren waste particle and bamboo waste shaving to the properties of particle board.Research methodology was completely randomized design with two factors. The first factor has three kind treatment were combination layered board particle with ratio face (sugar palm) : core (bamboo) : face (sugar palm) are 10%:80%:10%(K1), 20%:60%:20%(K2), 30%:40%:30%(K3). Second factor has three kind treatment were amount of adhesicve 5% (P1), 10%(P2) and 15%(P3). Parameter of property test were density, water absorption, thickness swelling, internal bonding, modulus of rupture and modulus of elasticity with using SNI 03-2105-2006.The research showed that particle layered composition factor affects significantly to internal bonding and modulus of elasticity but it doesn’t effect significantly to density, water absorption, thickness swelling and modulus of rupture. Meanwhile, adhesive factor affects significantly to all of property test. The best particle board made from combination layered arrangement 10% face : 80% core : 10% face (K1) with amount of adhesive 15% (P3). It has the best property as density 0,77 g/cm3, thickness swelling 22,84%, water arsoption 59,79%, internal bonding 3,56 kgf/cm2, modulus of rupture 182,48 kgf/cm2 and modulus of elasticity 16.352,9 kgf/cm2. Based on SNI 03-2105-2006, the properties test that had fullfilled were density, modulus of rupture and internal bonding but for water absorption, thickness swelling and modulus elasticity has not fullfill yet.

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印尼木材工业对木材的需求因人口增长而出现赤字，这使得需求急剧增加。我们可以做的一件事就是找到木材的替代品，比如做刨花板。糖棕榈废弃物和竹废弃物中含有纤维素、半纤维素和木质素等木结构成分，可作为板颗粒来源。本研究的目的是找出尿素甲醛的添加和竹材废料和竹材废料分层颗粒的组合对刨花板性能的影响。研究方法采用两因素完全随机设计。第一种因子有三种处理方式，分别为面(糖棕榈):芯(竹):面(糖棕榈)比例为10%:80%:10%(K1)、20%:60%:20%(K2)、30%:40%:30%(K3)组合层状板颗粒。第二因素有黏合剂用量5%(P1)、10%(P2)和15%(P3)三种处理。性能测试参数为密度、吸水率、厚度膨胀、内部粘结、断裂模量和弹性模量，使用SNI 03-2105-2006。研究表明，颗粒层状组成因子对内部粘结和弹性模量有显著影响，但对密度、吸水率、厚度膨胀和断裂模量影响不显著。同时，粘结因素对各项性能测试均有显著影响。组合层状排列的最佳刨花板为10%面:80%芯:10%面(K1)，胶粘剂用量15% (P3)。其最佳性能为:密度0.77 g/cm3，厚度膨胀22.84%，吸水率59.79%，内粘接3.56 kgf/cm2，断裂模量182、48 kgf/cm2，弹性模量16.352、9 kgf/cm2。基于SNI 03-2105-2006，已完成的性能测试有密度、断裂模量和内粘接，但吸水性、厚度膨胀和弹性模量尚未完成。

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ASEAN Journal of Systems Engineering

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