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dc.contributor.advisor Aly, Mohamed Fawzy
dc.contributor.author Aboelsoud, Ahmed Mostafa
dc.date.accessioned 2018-09-09T12:47:26Z
dc.date.created Summer 2018 en_US
dc.date.issued 2018-09-09
dc.identifier.uri http://dar.aucegypt.edu/handle/10526/5483
dc.description.abstract Great attention was paid to develop new eco-friendly “green” materials with growing environmental awareness in recent years. Composites of environmental friendly reinforcements and resins that provide high performance at affordable costs are in continuous progress. In this work, completely biodegradable thermoplastic starch (TPS) based matrix was reinforced with Halloysite nanotubes (HNTs) and date palm fibers (DPFs) individually with different HNTs weight fractions (2.5 to 10 wt. %) in order to investigate their effect on composite mechanical properties. HNTs and DPFs were then combined to reinforce TPS- based matrix at the optimum fiber weight content. Thermoplastic starch (TPS) was obtained by blending native corn starch with glycerin and water. The plasticized starch was emulsified before being added to the previously bleached and NaOH-treated date palm fibers. The composites were preheated and then hot pressed at 5 MPa and 160oC for 30 minutes. FTIR spectra showed the increase in hydrogen bonds formation to all HNTs and DPFs composites. FE-SEM investigation showed strong adhesion at HNTs and fiber-matrix interface and good fibers wettability. Static tensile and flexural mechanical properties (stiffness and strength) of the composites appeared to markedly increased with the HNTs fraction increase until 7.5 and 5 wt. % for HNTs/TPS nanocomposites and HNTs/DPFs/TPS nanocomposites respectively. Also the composite stability was improved in thermal degradation, water uptake tests by the addition of HNTs and increasing its content. The results showed that composites mechanical properties improved by adding HNTs until certain wt. % content because above it the HNTs aggregate and adversely affect the mechanical properties. Such nanocomposites have competitive properties, qualifying these materials to be inexpensive and appropriate alternatives for various applications. en_US
dc.description.sponsorship I would like to thank Allah for helping me to accomplish this work. I would like to show my gratitude to my advisor Associate Prof. Dr. Mohammed Fawzy for his guidance and support because this thesis would not have been possible unless him. I also wish to express my appreciation to the foresight and guidance of Prof. Dr. Mahmoud Farag. I have to express my appreciation to Prof. Dr. Amal Esawi the Nanotechnology program director in American University in Cairo. In addition, I would like to thank Eng. Dina Foud for his advices and laboratory assistance. I am also grateful to Eng. Jilan Elhennawy the manager of Mechanical department laboratories in American University in Cairo (AUC) and showed an enthusiasm for cooperation. Lastly, I offer my regards and blessings to my family, friends and colleagues for their support. en_US
dc.format.extent 120 p. en_US
dc.format.medium monographs en_US
dc.language.iso en en_US
dc.rights Author retains all rights with regard to copyright. en
dc.subject Biodegradable composites en_US
dc.subject Halloysite nanotubes en_US
dc.subject Date palm fibers en_US
dc.subject reinforcing corn starch en_US
dc.subject.lcsh Thesis (M.S.)--American University in Cairo en_US
dc.title Characterization and effects of halloysite nanotubes and date palm fibers on thermoplastic starch based nanocomposites en_US
dc.type Text en_US
dc.subject.discipline Nanotechnology en_US
dc.rights.access This item is available en_US
dc.contributor.department American University in Cairo. Dept. of Mechanical Engineering en_US
dc.description.irb American University in Cairo Institutional Review Board approval is not necessary for this item, since the research is not concerned with living human beings or bodily tissue samples. en_US
dc.contributor.committeeMember Nasef, Ashraf
dc.contributor.committeeMember Hegazi, Hisham


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  • Theses and Dissertations [1787]
    This collection includes theses and dissertations authored by American University in Cairo graduate students.

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