Improving Impact Strength in FSW of Polymeric Nanocomposites Using Stepwise Tool Design

References

• Nandan, R.; DebRoy, T.; Bhadeshia, H.K.D.H. Recent advances in friction-stir welding–process, weldment structure and properties. Progress in Materials Science 2008, 53 (6), 980–1023.
   Web of Science ®Google Scholar
• Verma, J.; Taiwade, R.V.; Reddy, C.; Khatirkar, R.K. Effect of Friction Stir Welding Process Parameters on Mg-AZ31B/Al-AA6061 Joints. Materials and Manufacturing Processes 2017. doi:10.1080/10426914.2017.1291957
   Google Scholar
• Rajesh, S.; Badheka, V. Influence of heat input/multiple passes and post weld heat treatment on strength/electrochemical characteristics of friction stir weld joint. Materials and Manufacturing Processes 2017. doi:10.1080/10426914.2017.1279310
   Google Scholar
• Gibson, B.T.; Lammlein, D.H.; Prater, T.J.; Longhurst, W.R.; Cox, C.D.; Ballun, M.C.; Dharmaraj, K.J.; Cook, G.E.; Strauss, A.M. Friction stir welding: Process, automation, and control. Journal of Manufacturing Processes 2014, 16 (1), 56–73.
   Web of Science ®Google Scholar
• Mishra, R.S.; Ma, Z.Y. Friction stir welding and processing. Materials Science and Engineering: R: Reports 2005, 50 (1), 1–78.
   Web of Science ®Google Scholar
• Aydin, M. Effects of welding parameters and pre-heating on the friction stir welding of UHMW-polyethylene. Polymer-Plastics Technology and Engineering 2010, 49 (6), 595–601.
   Web of Science ®Google Scholar
• Mostafapour, A.; Azarsa, E. A study on the role of processing parameters in joining polyethylene sheets via heat assisted friction stir welding: investigating microstructure, tensile and flexural properties. International Journal of Physical Sciences 2012, 7 (4), 647–654.
   Google Scholar
• Bagheri, A.; Azdast, T.; Doniavi, A. An experimental study on mechanical properties of friction stir welded ABS sheets. Materials & Design 2013, 43, 402–409.
   Web of Science ®Google Scholar
• Mendes, N.; Loureiro, A.; Martins, C.; Neto, P.; Pires, J.N. Effect of friction stir welding parameters on morphology and strength of acrylonitrile butadiene styrene plate welds. Materials & Design 2014, 58, 457–464.
   Web of Science ®Google Scholar
• Cano, M.; Khan, U.; Sainsbury, T.; O’Neill, A.; Wang, Z.; McGovern, I.T.; Maser, W.K.; Benito, A.M.; Coleman, J.N. Improving the mechanical properties of graphene oxide based materials by covalent attachment of polymer chains. Carbon 2013, 52, 363–371.
   Web of Science ®Google Scholar
• Eungkee Lee, R.; Hasanzadeh, R.; Azdast, T. A multi-criteria decision analysis on injection moulding of polymeric microcellular nanocomposite foams containing multi-walled carbon nanotubes. Plastics, Rubber and Composites 2017, 46 (4), 155–162.
   Web of Science ®Google Scholar
• Rashahmadi, S.; Hasanzadeh, R.; Mosalman, S. Improving of mechanical properties of poly methyl methacrylate nanocomposites for dentistry applications reinforced with different nanoparticles. Polymer-Plastics Technology and Engineering 2017. doi:10.1080/03602559.2017.1289402
   Web of Science ®Google Scholar
• Arrakhiz, F.Z.; El Achaby, M.; Malha, M.; Bensalah, M.O.; Fassi-Fehri, O.; Bouhfid, R.; Benmoussa, K.; Qaiss, A. Mechanical and thermal properties of natural fibers reinforced polymer composites: Doum/low density polyethylene. Materials & Design 2013, 43, 200–205.
   Web of Science ®Google Scholar
• Saba, N.; Paridah, M.T.; Jawaid, M. Mechanical properties of kenaf fibre reinforced polymer composite: A review. Construction and Building Materials 2015, 76, 87–96.
   Web of Science ®Google Scholar
• Payganeh, G.H.; Arab, N.M.; Asl, Y.D.; Ghasemi, F.A.; Boroujeni, M.S. Effects of friction stir welding process parameters on appearance and strength of polypropylene composite welds. International Journal of Physical Sciences 2011, 6 (19), 4595–4601.
   Google Scholar
• Gao, J.; Li, C.; Shilpakar, U.; Shen, Y. Improvements of mechanical properties in dissimilar joints of HDPE and ABS via carbon nanotubes during friction stir welding process. Materials & Design 2015, 86, 289–296.
   Web of Science ®Google Scholar
• Doniavi, A.; Babazadeh, S.; Azdast, T.; Hasanzadeh, R. An investigation on the mechanical properties of friction stir welded polycarbonate/aluminium oxide nanocomposite sheets. Journal of Elastomers and Plastics 2016. doi:10.1177/0095244316674352
   Web of Science ®Google Scholar
• Mason, R.L.; Gunst, R.F.; Hess, J.L. Statistical design and analysis of experiments: With applications to engineering and science; John Wiley & Sons Press: Hoboken, NJ, 2003, 760 pp.
   Google Scholar
• Ilzarbe, L.; Álvarez, M.J.; Viles, E.; Tanco, M. Practical applications of design of experiments in the field of engineering: A bibliographical review. Quality and Reliability Engineering International 2008, 24 (4), 417–428.
   Web of Science ®Google Scholar
• Dixit, A.; Kumar, K. Optimization of mechanical properties of silica gel reinforced aluminium MMC by using Taguchi method. Materials Today: Proceedings 2015, 2 (4), 2359–2366.
   Google Scholar
• Armağan, M.; Arici, A.A. Cutting performance of glass-vinyl ester composite by abrasive water Jet. Materials and Manufacturing Processes 2016. doi:10.1080/10426914.2016.1269919
   Google Scholar
• Bovas, B.C.; Karunamoorthy, L.; Chuan, F.B. Effect of extrusion process melt temperature on polyurethane catheter surfaces. Materials and Manufacturing Processes 2017. doi:10.1080/10426914.2017.1292036
   Google Scholar