Optimization of tensile properties of epoxy aluminum particulate composites using regression models

Agrawal, 2014, Experimental Investigation of Micro-sized Aluminium Oxide Reinforced Epoxy Composites for Microelectronic Applications, Procedia Mater. Sci., 5, 517, 10.1016/j.mspro.2014.07.295 Agunsoye, 2017, Experimental Investigation and Theoretical Prediction on Tensile Properties of Particulate Reinforced Polymeric Composites, J. King Saud Univ. – Eng. Sci. Agunsoye, 2016, Assessment of mechanical and wear properties of epoxy based hybrid composites, Adv. Prod. Eng. Manage., 11, 5 Agunsoye, 2014, The Development and Characterisation of Aluminium Dross-Epoxy Resin Composite Materials, J. Mater. Sci. Res., 3 America's Plastic Maker, 2016. Plastic Car and Bumper Systems. America: America's Plastic Maker, pp. 1–2. Atuanya, 2014, Experimental study of the thermal and wear properties of recycled polyethylene/breadfruit seed hull ash particulate composites, Mater. Des., 53, 65, 10.1016/j.matdes.2013.06.057 Baghat, 2013, Effects of graphite fillers on mechanical behaviour of epoxy composites, Int. J. Emerging Technol. Adv. Eng., 3, 427 Balamurugan, A.G., 2009. Automotive Bumper and Energy Absorber. Bello, 2017, Potential of Carbonised Coconut Shell as a Ball-Milling Interface for Synthesis of Aluminium (1xxx) Nanoparticles, Ann. Faculty Eng., 15, 149 Bello, S.A., Agunsoye, J.O., Adebisi, J.A., Kolawole, F.O., Raji, N.K., Hassan, S.B., 2018. Quasi Crystal Al (1xxx)/Carbonised Coconut Shell Nanoparticles: Synthesis and Characterisation. MRS Advances, Published by Cambridge Core, Firstview, pp. 1–13. doi:10.1557/adv.2018.369. Bello, 2017, Effects of Aluminium Particles on Mechanical and Morphological Properties of Epoxy Nanocomposites, Acta Periodica Technological, 48, 25, 10.2298/APT1748025B Bello, 2015, Epoxy Resin Based Composites, Mechanical and Tribological Properties: A Review, Tribol. Ind., 37, 500 Berger, D.E., 2008. Introduction to Multiple Regression Claremont Graduate University, pp. 1–13. Brussels, 2016, 1 Carroll, J.A., Barrow, A.H., B, J., Robinson, B., 2014. Client Project Report CPR1825 Pedestrian Legform Test Area Assessment Final Report. Europe: Transport Research Laboratory, European Commission, DG Enterprise 121/PP/2011/FC, pp. 1–106. Cheon, 1995, Development of the composite bumper beam for passenger cars, Compos. Struct., 32, 491, 10.1016/0263-8223(95)00078-X Davoodi, 2010, Mechanical properties of hybrid kenaf/glass reinforced epoxy composite for passenger car bumper beam, Mater. Des., 31, 4927, 10.1016/j.matdes.2010.05.021 Fredriksson, 2010, Priorities of pedestrian protection– A real-life study of severe injuries and car sources, Accid. Anal. Prev., 42, 1672, 10.1016/j.aap.2010.04.006 Gerard, K., 2014. High Performance Plastics Used in the Automotive Industry: CRAFTECH BLOG, pp. 1-6. Jafar, 2011, Study of AC Electrical Properties of Aluminium-Epoxy Composites, J. Al-Nahrain Univ., 14, 77, 10.22401/JNUS.14.3.11 Jamaludin, 2014, Performance and Thermal Analysis of Aluminium Oxide Filled Epoxy Composite as TIM for LEDs, Mater. Sci. Res. India, 11, 35, 10.13005/msri/110105 Jeffery, 1989 Jianwen, 2006, A Novel Aluminum-Filled Composite Dielectric for Embedded Passive Applications, IEEE Tarans. Adv. Packaging, 29, 295, 10.1109/TADVP.2006.874701 Kim, 2012, Enhancement of mechanical properties of aluminium/epoxy composites with silane functionalization of aluminium powder, Compos. B Eng., 43, 1743, 10.1016/j.compositesb.2011.12.010 Li, 2016, Enhancing the mechanical properties of epoxy resin by addition of an amino-terminated hyperbranched polymer grown on glass fiber, J. Mater. Sci., 51, 1829, 10.1007/s10853-015-9488-9 Lucas, F.M.d.S., Andreas, Ö., Robert, A., 2011. Handbook of Adhesion Technology. Springer-Verlag Berlin Heidelberg. MatWeb Material Property Data, 2010. Azdel Plus C401-B01 40% Chopped Fiber Mat/PP Resin Matrix. 2010, from http://www.matweb.com/search/datasheet.aspx?MatGUID=c9cea89b3274415d892ea6af98f39647 Mazahery, 2014, Searching for the superior solution to the population-based optimization problem: Processing of the wear resistant commercial AA6061 AMCs, Int. J. Damage Mech., 23, 899, 10.1177/1056789513518951 Mittemeijer, 2011 Pallant, 2005 Pargi, 2015, Recycled-copper-filled epoxy composites: the effect of mixed particle size, Int. J. Mech. Mater. Eng., 10, 3, 10.1186/s40712-015-0030-2 Perez, 2004 Peters, S.T., 1998. Handbook of Composites (S. T. Peter Ed. 2nd ed.). England: Springer Science+Business Media Donlrecht. Pokropivny, 2007 Shabani, 2014, Refined microstructure of compo cast nanocomposites: the performance of combined neuro-computing, fuzzy logic and particle swarm techniques, Neural Comput. Appl., 26, 899, 10.1007/s00521-014-1724-8 Shamsipour, 2016, Optimization of the EMS process parameters in compocasting of high-wear-resistant Al-nano-TiC composites, Appl. Phys. A, 122, 10.1007/s00339-016-9840-1 Srivastava, 2015, Mechanical Behaviour of Copper and Aluminium Particles Reinforced Epoxy Resin Composites, Am. J. Mater. Sci., 5, 84 Technology and Innovation, n,d. Challenges in composites. Aircraft Technol. 116, 52–56. Tofigh, 2014, Application of the combined neuro-computing, fuzzy logic and swarm intelligence for optimization of compocast nanocomposites, J. Compos. Mater., 49, 1653, 10.1177/0021998314538871 Vasconcelos, 2005, Impact fracture study of epoxy-based composites with aluminium particles and milled fibres, J. Mater. Process. Technol., 170, 277, 10.1016/j.jmatprotec.2005.05.006 Wiel, J.W.V.d., 2012. Future of Automotive Design & Materials Trends and Developments in Design and Materials. Automatic Technology Centre, acemr.eu William, 2007