Dr. Faris M. Al-Oqla
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Dr. Faris M. Al-Oqla

Assistant Professor
The Hashemite University (HU), Jordan

Highest Degree
Ph.D. in Mechanical Engineering from Universiti Putra Malaysia, Malaysia

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Area of Interest:

Engineering
100%
Sustainable Construction
62%
Electromagnetics
90%
Material Engineering
75%
Mechanical Engineering
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Fares, O., F.M. AL-Oqla and M.T. Hayajneh, 2019. Dielectric relaxation of mediterranean lignocellulosic fibers for sustainable functional biomaterials. Mater. Chem. Phys., 229: 174-182.
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  2. Alaaeddin, M.H., S.M. Sapuan, M.Y.M. Zuhri, E.S. Zainudin and F.M. AL-Oqla, 2019. Photovoltaic applications: Status and manufacturing prospects. Renewable Sustainable Energy Rev., 102: 318-332.
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  3. AL-Oqla, F.M. and Y.A. El-Shekeil, 2019. Investigating and predicting the performance deteriorations and trends of polyurethane bio-composites for more realistic sustainable design possibilities. J. Cleaner Prod., 222: 865-870.
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  4. Alaaeddin, M.H., S.M. Sapuan, M.Z.M. Yusoff, E.S. Zainudin and F.M. AL-Oqla, 2018. Natural Fiber Composites as Functionally Graded Materials for Advanced Applications. In: Hierarchical Composite Materials: Materials, Manufacturing, Engineering, Kumar, Kaushik /Davim and J. Paulo (Eds.)., Boston: De Gruyter, Berlin, Germany, ISBN: 978-3-11-054510-4, pp: 73-89.
  5. Alaaeddin, M.H., S.M. Sapuan, M.Y.M. Zuhri, E.S. Zainudin and F.M. AL-Oqla, 2018. Properties and common industrial applications of Polyvinyl Fluoride (PVF) and Polyvinylidene Fluoride (PVDF). Mater. Sci. Eng., 409: 12-21.
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  6. AL-Oqla, F.M., S.M. Sapuan and O. Fares, 2018. Electrical-Based Applications of Natural Fiber Vinyl Polymer Composites. In: Natural Fibre Reinforced Vinyl Ester and Vinyl Polymer Composites, Sapuan, S.M., H. Ismail and E.S. Zainudin (Eds.)., Elsevier, USA, ISBN: 9780081021613, Pages: 392.
  7. AL-Oqla, F.M. and S.M. Sapuan, 2018. Natural Fiber Composites: Challenges and Opportunities. In: Kenaf: From Fibres to Composites, Sapuan, S.M., M.R. Ishak, J. Sahari and M.L. Sanyang (Eds.)., Taylor and Francis Group, CRC Press, Boca Raton, USA, ISBN 9781498753425, Pages: 231.
  8. AL-Oqla, F.M. and S.M. Sapuan, 2018. Investigating the inherent characteristic/performance deterioration interactions of natural fibers in bio-composites for better utilization of resources. J. Polym. Environ., 26: 1290-1296.
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  9. Rashida, B., Z. Leman, M. Jawaid, M.R. Ishak and F.M. AL-Oqla, 2017. Eco-Friendly Composites for Brake Pads From Agro Waste: A Review. In: Reference Module in Materials Science and Materials Engineering, AL-Oqla, F.M. (Eds.)., Elsevier, USA, pp: 1-21.
  10. Rababah, M.M., F.M. AL-Oqla, E.S. Zainudin, S.M. Sapuan and M.A. Khairul, 2017. Continuum damage analysis, experimental and simulation for investigating the fatigue life performance of 316L steel at high temperatures. Int. J. Mater. Struct. Integr., 11: 175-192.
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  11. Omari, M.A., F.M. AL-Oqla and A. Al-Ghraibah, 2017. Predicting the Potential of Biomass Based Composites for Sustainable Automotive Industry using a Decision making Model. In: Lignocellulosic Fibre and Biomass-based Composite Materials: Processing, Properties and Applications, Jawaid, M., P.M. Tahir and N. Saba (Eds.)., Woodhead publishing, Elsevier, USA, ISBN: 978-0-08-100959-8, pp: 27-43.
  12. Aridi, N.A.M., S.M. Sapuan, E.S. Zainudin and F.M. AL-Oqla, 2017. A review of rice husk bio-based composites. Curr. Org. Synth., 14: 263-271.
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  13. Almagableh, A., F.M. Al-Oqla and M.A. Omari, 2017. Predicting the effect of nano-structural parameters on the elastic properties of carbon nanotube-polymeric based composites. Int. J. Performability Eng., 13: 73-86.
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  14. Al-Oqla, F.M. and M.S. Salit, 2017. Material Selection of Natural Fiber Composites using the Analytical Hierarchy Process. In: Materials Selection for Natural Fiber Composites, Al-Oqla, F.M. and M.S. Salit (Eds.). Elsevier Science, New York, ISBN: 9780081022771, pp: 169-234.
  15. AL-Oqla, F.M., A.A. Omar and O. Fares, 2017. Evaluating sustainable energy harvesting systems for human implantable sensors. Int. J. Electron., 105: 504-517.
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  16. AL-Oqla, F.M., A. Almagableh and M.A. Omari, 2017. Design and Fabrication of Green Biocomposites. In: Green Biocomposites, Jawaid, M., M.S. Salit and O.Y. Alothman (Eds.)., Springer, USA, pp: 45-67.
  17. AL-Oqla, F.M., 2017. Investigating the mechanical performance deterioration of Mediterranean cellulosic cypress and pine/polyethylene composites. Cellul., 24: 2523-2530.
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  18. AL-Oqla, F.M. and M.S. Salit, 2017. Natural Fiber Composites. In: Materials Selection for Natural Fiber Composites, Al-Oqla, F.M. and M. Salit (Eds.)., Elsevier, USA., pp: 23-48.
  19. AL-Oqla, F.M. and M.S. Salit, 2017. Materials Selection. In: Materials Selection for Natural Fiber Composites, AL-Oqla, F.M. and M.S. Salit (Eds.)., Elsevier, USA, pp: 49-71.
  20. AL-Oqla, F.M. and M.S. Salit, 2017. Material Selection of Natural Fiber Composites using other Methods. In: Materials Selection for Natural Fiber Composites, AL-Oqla, F.M. and M.S. Salit (Eds.)., Woodhead Publishing, Elsevier, USA, ISBBN: 978-0-08-100958-1, Pages: 286.
  21. AL-Oqla, F.M. and M.S. Salit, 2017. Material Selection for Composites. In: Materials Selection for Natural Fiber Composites, AL-Oqla, F.M. and M.S. Salit (Eds.)., Elsevier, USA, ISBN: 978-0-08-100958-1, pp: 73-105.
  22. AL-Oqla, F.M. and M.S. Salit, 2017. Introduction to Natural Fibers. In: Materials Selection for Natural Fiber Composites, Al-Oqla, F.M. and M. Salit (Eds.)., Elsevier, USA, ISBN: 9780081022771, Pages: 286.
  23. AL-Oqla, F.M. and M.A. Omari, 2017. Sustainable Biocomposites: Challenges, Potential and Barriers for Development. In: Green Biocomposites: Manufacturing and Properties, Jawaid, M., S. Sapuan and O Alothman (Eds.)., Springer International Publishing (Verlag), cham, Switzerland, ISBN: 978-3-319-46610-1, pp: 13-29.
  24. AL-Oqla, F.M. and M. Salit, 2017. Materials Selection for Natural Fiber Composites. 1st Edn., Woodhead Publishing, Elsevier, USA, ISBN: 9780081009581, Pages: 286.
  25. AL-Oqla, F.M. and M. Rababah, 2017. Challenges in Design of Nanocellulose and its Composites for Different Applications. In: Cellulose-reinforced Nanofibre Composites: Production, Properties and Applications, Jawaid, M., S. Boufi and H.P.S.A. Khalil (Eds.)., Woodhead Publishing, Elsevier, USA, ISBN: 9780081009659, pp: 113-127.
  26. AL-Oqla, F.M. and M.S. Salit, 2017. Material selection of natural fiber composites. In: Materials Selection for Natural Fiber Composites, AL-Oqla, F.M. and M.S. Salit (Eds.)., Elsevier, USA, pp: 107-168.
  27. Sapuan, S.M., W. Haniffah, F.M. AL-Oqla, Y. Nukman, M.E. Hoque and M.L. Sanyang, 2016. Effects of reinforcing elements on the performance of laser transmission welding process in polymer composites: A systematic review. Int. J. Performability Eng., 12: 553-560.
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  28. Aridi, N.A.M., S.M. Sapuan, E.S. Zainudin and F.M. AL-Oqla, 2016. Mechanical and morphological properties of injection-molded rice husk polypropylene composites. Int. J. Polym. Anal. Charact., 21: 305-313.
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  29. Aridi, N.A.M., S.M. Sapuan, E.S. Zainudin and F.M. AL-Oqla, 2016. Investigating morphological and performance deterioration of injection-molded rice husk-polypropylene composites due to various liquid uptakes. Int. J. Polym. Anal. Charact., 21: 675-685.
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  30. Al-Oqla, F.M., S.M. Sapuan, M.R. Ishak and A.A. Nuraini, 2016. A decision-making model for selecting the most appropriate natural fiber-Polypropylene-based composites for automotive applications. J. Composite Mater., 50: 543-556.
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  31. AL-Oqla, F.M., S.M. Sapuan and M. Jawaid, 2016. Integrated mechanical-economic-environmental quality of performance for natural fibers for polymeric-based composite materials. J. Nat. Fibers, 13: 651-659.
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  32. Al-oqla, F.M., S.M. Sapuan, M.R. Ishak and A.A. Nuraini, 2015. Decision making model for optimal reinforcement condition of natural fiber composites. Fibers Polymers, 16: 153-163.
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  33. Al-Oqla, F.M., S.M. Sapuan, T. Anwer, M. Jawaid and M.E. Hoque, 2015. Natural fiber reinforced conductive polymer composites as functional materials: A review. Synthetic Metals, 206: 42-54.
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  34. Al-Oqla, F.M., S.M. Sapuan, M.R. Ishak and A.A. Nuraini, 2015. Predicting the potential of agro waste fibers for sustainable automotive industry using a decision making model. Comput. Elect. Agric., 113: 116-127.
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  35. Al-Oqla, F.M., S.M. Sapuan, M.R. Ishak and A.A. Nuraini, 2015. A model for evaluating and determining the most appropriate polymer matrix type for natural fiber composites. Int. J. Polymer Anal. Charact., 20: 191-205.
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  36. Al-Oqla, F.M., M.S. Salit, M.R. Ishak and N.A. Aziz, 2015. Selecting natural fibers for bio-based materials with conflicting criteria. Am. J. Applied Sci., 12: 64-71.
  37. Al-Oqla, F.M. and A.A. Omar, 2015. An expert-based model for selecting the most suitable substrate material type for antenna circuits. Int. J. Elect., 102: 1044-1055.
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  38. AL-Oqla, F.M. and S.M. Sapuan, 2015. Polymer selection approach for commonly and uncommonly used natural fibers under uncertainty environments. J. Miner., Metals Mater. Soc., 67: 2450-2463.
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  39. Al-Widyan, M.I. and F.M. Al-Oqla, 2014. Selecting the most appropriate corrective actions for energy saving in existing buildings A/C in hot arid regions. Build. Simul., 7: 537-545.
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  40. Al-Oqla, F.M., S.M. Sapuan, M.R. Ishak and A.A. Nuraini, 2014. A novel evaluation tool for enhancing the selection of natural fibers for polymeric composites based on fiber moisture content criterion. BioResources, 10: 299-312.
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  41. Al-Oqla, F.M., M.S. Sapuan, M.R. Ishak and N.A. Aziz, 2014. Combined multi-criteria evaluation stage technique as an agro waste evaluation indicator for polymeric composites: Date palm fibers as a case study. BioResources, 9: 4608-4621.
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  42. Al-Oqla, F.M. and S.M. Sapuan, 2014. Natural fiber reinforced polymer composites in industrial applications: Feasibility of date palm fibers for sustainable automotive industry. J. Cleaner Prod., 66: 347-354.
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  43. AL-Oqla, F.M., O.Y. Alothman, M. Jawaid, S.M. Sapuan and M.H. Es-Saheb, 2014. Processing and Properties of Date Palm Fibers and Its Composites. In: Biomass and Bioenergy, Hakeem, K., M. Jawaid and U. Rashid (Eds.)., Springer International Publishing, Cham, Switzerland, ISBN: 978-3-319-07641-6, Pages: 367.
  44. Sapuan, S.M., F.L. Pua, Y.A. El-Shekeil and F.M. Al-Oqla, 2013. Mechanical properties of soil buried kenaf fibre reinforced thermoplastic polyurethane composites. Mater. Design, 50: 467-470.
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  45. Al-Oqla, F.M. and A.A. Omar, 2012. A decision-making model for selecting the GSM mobile phone antenna in the design phase to increase over all performance. Prog. Electromagnetics Res. C, 25: 249-269.
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  46. Al-Widyan, M.I. and F.M. Al-Oqla, 2011. Utilization of supplementary energy sources for cooling in hot arid regions via decision-making model. Int. J. Eng. Res. Applic., 1: 1610-1622.
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  47. Dalalah, D., F. Al-Oqla and M. Hayajneh, 2010. Application of the Analytic Hierarchy Process (AHP) in multi-criteria analysis of the selection of cranes. Jordan J. Mech. Ind. Eng., 4: 567-578.
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  48. Dweiri, F. and F.M. Al-Oqla, 2006. Material selection using analytical hierarchy process. Int. J. Comput. Applic. Technol., 26: 182-189.
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  49. Hayajneh, M.T., S. Radaideh, F..M. AL-Oqla and F.A. Al-Omari, 2005. Reduction of pendulations in overhead cranes carrying massive loads on long cables using a cable reeling technique. Int. J. Eng. Simul., 6: 1-6.
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