الفهرس | Only 14 pages are availabe for public view |
Abstract This study focuses on the use of cellulose-based natural fibers, extracted from date palm midribs in the form of nano particles, as reinforcement to Epoxy resin. Date palm midribs were first roughly broken to lengths of ~ 10mm in macro scale and then were chemically treated by two methods (Alkali treatment which is called Treatment1 and the other alkali and acetylation treatment which is called Treatment2). Further the material was milled down to nano scale, using a self-designed and constructed planetary ball mill, resulting in particles sizes ranging between 10.86 to 21.36 nm for Alkali treated fibers, and between 30.63 to 63.93 nm for alkali and acetylation treated fibers. Nanocomposites were prepared using a casting technique by ultrasonic dispersion method, where compounds of varying compositions (0.5 up to 5 wt% nanofiber reinforcement), were treated using amino silane coupling agent, and finally specimen were poured into rubber molds of requested shape. Nanocomposites were oven-dried at 80oC for 2 hours. The mechanical performance of the composites was evaluated in terms of tensile, flexural and impact properties in addition to hardness. The results show that increasing palm midrib nano fibers content has significant effect on all mechanical properties as compared to the control sample. For the first treatment; the tensile strength has increased by an amount of 40% at 3% nano date palm midribs (NDPM) content, the tensile Young’s modulus has increased by an amount of 13.6% at 5% NDPM content. The bending strength has increased by an amount of 7.2% at 0.5% NDPM content, the flexural modulus has increased by an amount of 15.36% at 0.5% NDPM content. The impact strength has increased by an amount of 196% at 3% NDPM content, the Shore D hardness has increased by an amount of 8% at 1% NDPM content. Concerning the second treatment; the tensile strength has increased by an amount of 29.74% at 3% NDPM content, the tensile Young’s modulus has increased by an amount of 9.5% at 5% NDPM content. The bending strength has increased by an amount of 2.83% at 0.5% NDPM content, the flexural modulus has increased by an amount of 9.93% at 1% NDPM content. The impact strength has increased by an amount of 153% at 1% NDPM content, the Shore D hardness has increased by an amount of 8.1% at 1% NDPM content. The results show that the alkali treatment is more suitable and provides better enhancing in all mechanical properties than the alkali and acetylation treatment. |