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Effect of resin content and pressing temperature on banana pseudo-stem particle boards properties using full factorial design

Abstract: The volume of global gross banana exports reached a record of 117.9 million tonnes in 2015 (FAOFAO - FOOD and AGRICULTURE ORGANIZATION. 2017. Banana facts and figures. Retrieved March 20, 2018, from http://www.fao.org/economic/est/est-commodities/bananas/bananafacts/en/#.WrFseKhuZPZ
http://www.fao.org/economic/est/est-comm...
2017), which agro-industrial wastes derived as the pseudo-stem, rachis and leaves do not have an industrial application instead they are discarded. This research study applies full factorial design and response surface methodology to determine the effect of pressing temperature and resin content on density (D), moisture (M), water absorption (WA), water swelling (WS), module of rupture (MOR), module of elasticity (MOE) and formaldehyde content (FC) of particle board made of banana pseudo-stem. A 22 factorial design was performed, factors considered were resin and temperature. The low level of resin was 15% in the coarse fiber (CF) and 35% in fine fiber (FF); high level as 25% CF and 45% FF. Temperature levels were 150ºC and 170ºC respectively. The boards met all quality parameters except ones with low resin content that didn’t meet WS parameter. Furthermore, resin affected positively on WA, FC and MOE, and decreased D, WS and MOR values. Meanwhile, temperature affected negatively on D, WS, and increased FC, WA, MOE, MOR properties; none of the factors affected M response. Process conditions were optimized to 162.61°C and 43.15% FF, 23.97% CF.

Key words
fiber board; Musa paradisiaca; optimization; pseudo-stem; waste


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