Browsing by Author "Eldessouki Mohamed"
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- ItemAb-Initio and Density Functional Theory Simulation For Lactide Monomer(TANGER LTD, OSTRAVA, 2015-01-01) Acevedo Orlando; Gowayed Yasser; Eldessouki Mohamed
- ItemAdaptive Neuro-fuzzy System for Quantitative Evaluation of Woven Fabrics' Pilling Resistance(PERGAMON-ELSEVIER SCIENCE LTD, 2015-01-01) Eldessouki Mohamed; Hassan Mounir
- ItemAn Automated System for Fabric Faults Inspection(Noor Publishing, 2017-01-01) Eldeeb Hadir; Shady Ebraheem; Eldessouki Mohamed
- ItemChan-Vese Segmentation Model For Faster And Accurate Evaluation of Yarn Packing Density(SAGE PUBLICATIONS LTD, 2016-01-01) Eldessouki Mohamed; Eldessouki Mohamed; Ibrahim Sayed
- ItemChemosensing Polyacrylonitrile (PAN) Nano-Fibrous Membranes(2017-01-01) Eldessouki Mohamed; Vellora Thekkae Padil Vinod; Ibrahim Mayza Mohamed Hassan; Černík Miroslav
- ItemComputational simulation and validation of textiles for the high level sport performance: a new numerical methodological approach(Bulgarian Society of Biomechanics, 2016-01-01) Gardan N.; Lignon S.; Schneider A.; Sifaki-Pistolla D.; Eldessouki Mohamed; Taiar R.
- ItemComputed Tomography Application For investigating The Internal Structure Of Air-Jet Yarns(Slovak University of Technology in Bratislava, 2015-01-01) Eldessouki Mohamed; Ibrahim Sayed
- ItemComputed Tomography for Fibrous Materials(Technical University of Liberec, 2019-01-01) Eldessouki Mohamed; Abdelkader Mohamed
- ItemComputer vision and its application in detecting fabric defects(Woodhead Publishing, 2017-01-01) Eldessouki Mohamed
- ItemCORRELATION BETWEEN VISCOSE FIBERS&rsquo CHARACTERISTICS AND THEIR YARN PROPERTIES(Technical University of Liberec, 2019-01-01) Aboalasaad Abdelhamid Rajab Ramadan; Eldessouki Mohamed; Shady Ebraheem
- ItemDeep Learning Algorithms With an Application in Garments Quality Control(Saudi Council of Engineers, 2017-01-01) Eldessouki Mohamed
- ItemDynamic Properties of Air-jet Yarns Compared to Rotor Spinning(SAGE PUBLICATIONS LTD, 2015-01-01) Eldessouki Mohamed; Ibrahim Sayed; Farag Ramsis
- ItemEvaluation of Chemical and Physical Properties of Biodegradable Gum Arabic/PVA/Ag Nano fibrous Membranes as a Potential Wrapping Material(2020-01-01) Ibrahim Mayza Mohamed Hassan; Krejčík Michal; Havlíček Karel; Petrík Stanislav; Eldessouki Mohamed
- ItemEvaluation of fabric pilling as an end-use quality and a performance measure for the fabrics(Woodhead Publishing, 2017-01-01) Eldessouki Mohamed
- ItemGreen Electrospun Plasma Treated Membrane As a Potential Application For Food Packaging(2019-01-01) Ibrahim Mayza Mohamed Hassan; Krejčík Michal; Vellora Thekkae Padil Vinod; Eldessouki Mohamed; Černík MiroslavThe public concern about health and environmental issues led to adopting the concept of green technology for eco-sustainable society. Bioplastics and bio-nanocomposites are increasingly developed nowadays either from biomass sources such as polysaccharides, protein, cellulose, etc, or from marine and animals. The use of biodegradable, renewable and nontoxic materials reduces the harmful impact of carcinogenics, which becomes advantageous especially in food packaging applications. Electrospinning has a major contribution in this field as it opens doors to fabricate a nano-scale nonwoven fibres with high surface area and with superior physical and chemical properties that differ from the bulk materials and can be used in many applications. In this study, sliver nanoparticles (Nps) are synthesized by gum arabic (Ga) and the produced nanoparticles are used as a reinforcement of nanofiber membranes based on Ga. The membrane is cross-linked with heat treatment, and then with methane plasma treatment. The produced Ag Nps and nanofibers are characterized by CPS, DLS, UV-Vis, FTIR, and SEM. The mechanical properties are measured as well as swelling ratio, mass loss, and contact angle. An increase of water contact angle from 46° to 121° after plasma treatment.
- ItemGreen Electrospun Plasma Treated Membrane As a Potential Application For Food Packaging(Technical University of Liberec, 2019-01-01) Ibrahim Mayza Mohamed Hassan; Eldessouki Mohamed; Petrík Stanislav; Vellora Thekkae Padil Vinod; Černík Miroslav
- ItemMechanical Properties of Epoxy Nanocomposites(TANGER, LtD., Czech society for new materials and technologies, 2015-01-01) Eldessouki Mohamed; Shady Ebraheem; Gowayed Yasser
- ItemOn the Evaluation of the Yarn’s Packing Density(Technical University of Liberec, 2015-01-01) Eldessouki Mohamed; Ibrahim Sayed; Neckář Bohuslav
- ItemOptical Sensors Based on Structural Fibers(2018-01-01) Eldessouki Mohamed; Petrík Stanislav
- ItemRole of Additive Manufacturing In The Fourth Industrial Revolution(2019-01-01) Eldessouki MohamedAdditive manufacturing (AM) is a key enabling technology in the fourth industrial revolution. AM is capable of processing metals, plastics and ceramics in a flexible manufacturing process that starts from the 3D digital data of the product allowing a production of prototypes, user-customized parts and finished products. AM allows the production of complex-shaped products with combination of functions and/or replacing the assembly step for products with multiple components. In this work, we will briefly introduce the different technologies of AM with their used materials, applications, as well as their advantages and disadvantages. The impact of additive manufacturing on the market is analyzed in details, with a demonstration to the important market segments that are influenced by AM. The contribution of AM to industries such as the aerospace and the biomedical is prominent, where the Compound Annual Growth Rate (CAGR) for these industries is projected for the year 2025 to grow with 22.3 % and 15 %, respectively.