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Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/8133

Title: The use of low linear density polyethylene in the production of LLDPE-sand-stone composites.
Authors: Quarcoo, Frederick
Issue Date: 10-Nov-2015
Abstract: The efficient management of plastic wastes is a great challenge for most developing countries. This study examined the effect of melt blending a waste low linear density polyethylene film popularly called “sachet water” into sand and granite and forming a composite of different ratios. The polymeric material was shredded and melted in an aluminium pot at a temperature range of 110 ºC - 120 ºC and added to granite and sand in ratios of 9 %, 12.5 %, 14 %, 25 % and 28. 5%. Studies involved determining the effect of sulphuric acid, water and sodium carbonate on the composite material. The mechanical properties determined were the compressive strength on the composite materials produced. The impact strength was also determined on the composite material. FTIR analyses were carried out on all the initial compounds used and the final composite product formed. The compressive strength of the composite block increased as the weight of the polymeric material was increased. As the ratios of the polymeric material was increased in the composite from 9 % to 25 %, the compressive strength of the polymeric composite increased for both 7 days and 28 days. The most compatible and suitable composite material produced was at 25 % loading of the polymeric material and at 28.5 % loading of the polymeric material the compressive strength reduced from the maximum peak. The composite material had maximum impact strength of 80.442J. The use of waste LLDPE films carries the advantage and cheap means of using it in lightweight construction works and is an alternative way to utilize plastic waste
Description: thesis submitted to the Department Of chemistry in partial fulfilment of the requirements for the award of Master Of Philosophy Degree (MPHIL) In Polymer Science and Technology, 2015
URI: http://hdl.handle.net/123456789/8133
Appears in Collections:College of Science

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