Dimensional stability is a significant problem in particleboard. This study aims to analyze the effect of immersing particles in an acid solution on particleboard’s physical and mechanical properties made of kemenyan (Styrax sumatrana) wood and belangke (Gigantochloa pruriens) bamboo. The particles were immersed in each acid solution for 24 h, and then dried to reach 9% water content. The particleboard was made with a 25x25 cm2 with a target thickness and density of 1 cm and 0.70 g/cm3, respectively. After being made into sheets, the next step is hot pressing using a hot press machine that has set the temperature, time, and pressure at 160 °C, 5 min, and 30 kg/cm2, respectively. The results showed that immersion in the acid solution can stabilize the dimensions of the resulting particleboard but does not reduce the strength of the board. Several board properties have met the standards, such as density, thickness swelling, modulus of rupture, and internal bond.
With rapid industrial development, the water pollution due to industrial wastewater discharge also increases. Wastewater containing heavy metals such as Lead (Pb(II)) has been one of the serious global issues. It is because lead has a high level of toxicity and very harmful to the environment as well as human body even at low level of concentration. One of the emerging methods for removal of Pb(II) from aqueous solution is called biosorption. It is adsorption process using biomass-based adsorbent or can be called biosorbent. One of biomass material that can be used for the biosorbent for removal of Pb(II) is Kapok wood sawdust. In this study, biosorbent based Kapok sawdust has been successfully prepared. The effects of pH and contact time on the adsorption performance of the biosorbent have been studied. The adsorption tests were carried out with variations in pH 4, 5, 6, and 7 and with variations in contact time of 30, 60, and 90 minutes. The amout of Pb(II) adsorbed was analyzed using Atomic Absorption Spectroscopy (AAS). The adsorption test results showed that the equilibrium contact time required for the biosorbent to absorb Pb(II) was 60 minutes, while the pH optimum was achieved at pH = 7. Furthermore, from the adsorption test results, it has also been concluded that the optimum adsorption capacity (qe) 4.83 mg/g and removal percentage (96.6%) was achieved by Adsorbent A (i.e. Kapok sawdust biosorbent activated with 0.2 M HNO3).
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