Publications

Journal Publications

  1. Case, R.O. and Mahfuz, H., "Photoelastic Analysis of a Thin-Walled Compressor Housing", Experimental Mechanics, Vol. 28, No. 1, March 1988, pp. 98-104.
  2. Case, R.O. and Mahfuz, H., "Bolt Analysis by Combined Use of the Reflective and Transmission Polariscope", Experimental Techniques, May 1988, pp. 28-31.
  3. Mahfuz, H., Case, R.O. and Wong, Tin-Lup, "Mesh Generation within an Arbitrary Digitized Boundary for Solution of Elliptic Boundary Value Problems by Finite Difference Method", Computers in Engineering, Vol. 2, 1989, pp. 181-185.
  4. Mahfuz, H., Case, R.O. and Wong, Tin-Lup, "Hybrid Stress Analysis by Digitized Photoelastic Data and Numerical Methods", Experimental Mechanics, Vol. 30, No. 2, June 1990, pp. 190-194.
  5. Mahfuz, H., Case, R.O. and Wong, Tin-Lup, "Separation of the Principal Stresses by SOR Technique Over Arbitrary Boundaries", Experimental Mechanics, Vol. 30, No. 4, December 1990, pp. 319-326.
  6. Mahfuz, H., Wong, Tin-Lup and Case, R.O., "Photoelastic Data Acquisition by Digitizing Technique Over Arbitrary Boundaries", Experimental Techniques, May 1992, pp. 39-42.
  7. Mahfuz, H., Yu T. and Jeelani, S., "High Cycle Fatigue Characterization of Titanium 5Al-2.5Sn Alloy," Journal of Material Science, 28 (1993), 138-144.
  8. Salekeen, S., Haque, A., Copes, J.S., Mahfuz, H. and Jeelani, S., "Effect of Reinforcement Geometry on the Mechanical Properties of SiC/A1203 Composites and Prediction of Flexural Properties by Energy Method," Composites Engineering, Vol. 2, No. 4, pp. 239-247, 1992.
  9. Mahfuz, H., Ingram, C.I. and Jeelani, S., "Compressive Response of Thermoplastic Composites by Layered Shell Elements", Computers in Engineering, Vol. 2, 1992, pp. 95-101.
  10. Mahfuz, H., Partha, S.D., Jeelani, S., Baker, D.M. and Johnson, S., "Failure Mechanisms in Mission Cycled Carbon/Carbon Composites under Flexural Load at Room and Elevated Temperatures", Journal of Material Science, 28 (1993) 5880- 5886.
  11. Mahfuz, H., Partha, S.D., Jeelani, S., Baker, D.M. and Johnson, S., "Effect of Mission Cycling on the Fatigue Performance of SiC Coated Carbon-Carbon Composites", International Journal of Fatigue, Vol. 15, No. 4 (1993), pp. 283-291.
  12. Mahfuz, H., Partha, S.D., Xue, D., Krishnagopalan, J. and Jeelani, S., "A Combined Experimental and Finite Element Study to Predict the Failure Mechanisms in SiC Coated Carbon/Carbon Composites at Room and Elevated Temperatures Under Flexural Loading", Journal of Reinforced Plastics and Composites, Vol. 12, No. 7, July 1993, pp. 825-842.
  13. Mahfuz, H., Xue, D., Jeelani, S., Baker, D.M. and Johnson, S., "Response of SiC Coated Carbon-Carbon Composites at Room and Elevated Temperatures under Tensile Loading", Composite Science and Technology, 50 (1994) 411-422.
  14. Haque, A., Mahfuz, H., Ingram, C. and Jeelani, S., "Response of Thermoplastic and Thermosetting Composites under Compressive Loading- An Experimental and Finite Element Study", Composites Engineering, Vol. 4, No. 6, 1994, pp. 637-651.
  15. Mahfuz, H., Zadoo, D., Wilks, F., Maniruzzarman, M. and Jeelani, S., "Fracture and Flexural Characterization of SiCW/SiC Composites at Room and Elevated Temperatures", Journal of Materials Science, 1995, Vol. 30, pp. 2406-2411.
  16. Vaidya, U.K., Mahfuz, H. and S. Jeelani, "NDE of Structural and Functional Carbon- Carbon Composites after First Carbonization", Journal of Advanced Materials, Vol. 26, No. 2, pp. 41-47, 1995.
  17. Mahfuz, H., Maniruzzaman, M., Vaidya, U., and Jeelani, S., "Effects of Stress Ratio on the Fatigue Life of Carbon-Carbon Composites", Theoretical and Applied Fracture Mechanics, 24 (1995), 21-31.
  18. Mahfuz, H., Haque, A., Yu, D. and Jeelani, S., "Response of Resin Transfer Molded (RTM) Composites Under Reversed Cyclic Loading", Transaction of the ASME, Journal of Engineering Materials and Technology, Vol. 118, pp. 49-57, 1996.
  19. Vaidya, U.,Mahfuz, H. and Jeelani, S., "Nondestructive Characterization/Evaluation of Functional Sandwich and Hybrid Carbon-Carbon Composites", Journal of Reinforced Plastics and Composites, Vol. 15, October 1996, pp. 988- 1010.
  20. Vaidya, U., Dadzie, P., Haque, A., Mahfuz, H. and Jeelani, S., "NDE and Characterization of Microfibers Modified Textile Carbon/Phenolic and Carbon/Carbon Composites, Journal of Reinforced Plastics and Composites", Vol. 16, No. 11, 1997, pp. 968-1001.
  21. Mahfuz, H., Maniruzzaman, M., Vaidya, U. and Jeelani, S., "Response of SiCf /Si3N4 Composites Under Cyclic Loading - An Experimental and Statistical Analysis," Transaction of the ASME, Journal of Engineering Materials and Technology, Vol. 119, pp 186-193, April 1997.
  22. Mahfuz, H., Saha, M., Biggs, R. and Jeelani, S., "Damage Tolerance of Resin Infiltrated Composites After Low Velocity Impact - Experimental and Numerical Studies," Key Engineering Materials, Trans. Tech Publications, Switzerland, Vol. 141-143 (1998), pp. 209-234.
  23. Mahfuz, H., Mian, A.K.M., Vaidya, U., Brown, T. and Jeelani, S., "Finite Element Study of the Fiber-Matrix Interface Behavior of [0/90] Laminated Composites Under Tensile Loading," Journal of Materials Science, 33 (1998) 2965-2973.
  24. Vaidya, U.K., Kamath, M.V., Mahfuz, H. and Jeelani, S., "Low Velocity Impact Response of Resin Infusion molded foam Filled Honeycomb Sandwich Composites," Journal of Reinforced Plastics and Composites, Vol. 17, No. 9/1998, pp. 819-849.
  25. Haque, A., Rahman, M., Vaidya, U., Mahfuz, H. and Jeelani, S., "Tensile Behavior of Woven Ceramic Matrix Composites at Room and Elevated Temperature: An Experimental and Numerical Study," Key Engineering Materials, Vols. 164-165 (1999) pp. 341-344.
  26. Gama, B., Bogetti, T., Fink, B., Mahfuz, H., and Gillespie, J., “Modeling and Simulation of the Dynamic Behavior of EPDM Rubber under Stress Wave Loading,” Physics and Modern Topics in Mechanical and Electrical Engineering (ISBN: 960-8052-10-6), World Scientific and Engineering Society Press, pp. 137-144, 1999.
  27. Mahfuz, H., Zhu, Y, Haque, A., Vaidya, U, Jeelani, S, "Investigation of High Velocity Impact on Integral Armor Using Finite Element Method," International Journal of Impact Engineering, Vol. 24, No. 2 (2000), pp. 203-217.
  28. Mahfuz, H., Mamun, W., Haque, A., Vaidya, U. and Jeelani, S., "Stress Wave Propagation through Fiber and Matrix in a Cylindrical Composite Coupon," Physics and Modern Topics in Mechanical and Electrical Engineering (ISBN: 960-8052-10-6), World Scientific and Engineering Society Press, pp. 151-158, 1999.
  29. Mahfuz, H., Mamun, W., and Jeelani, S., "Effect of Core Density and Implanted Delamination in the High Strain Rate Response of Foam Core Sandwich Composites," Sandwich Construction 5, Volume 2, pp. 597-606, 2000.
  30. Mahfuz, H., Mamun, W., Haque, A., Vaidya, U. and Jeelani, S., "An Innovative Technique for Measuring the High Strain Rate Response of Sandwich Composites," Composite Structures, 50 (2000) 279-285.
  31. Mahfuz, H., Zaman K., Hisham, M., Foy, Costee, Haque, A. and Jeelani, "Fatigue Life Prediction of Thick-Section S2-Glass/Vinyl-Ester Composites under Flexural Loading," Transaction of ASME, Journal of Engineering Materials and Technology, Vol. 122, October 2000, pp. 402-408.
  32. Motuku, M., Janowski, G.M., Vaidya, U, Mahfuz, H and Jeelani, S., "Damage Evolution in Low-Velocity Impacted Unreinforced Vinyl Ester 411-350 and 411-C50 Resin Systems," Polymer Composites, No. 6, Vol. 21, December 2000, pp.878-899.
  33. Gama, B.A., Gillespie, J.W., Mahfuz, H., Bogetti, and Fink, B.K., “Effect of Non-Linear Material Behavior on the Through-Thickness Stress Wave Propagation in Multi-Layer Hybrid Lightweight Armor,” Advances in Computational Engineering & Sciences, Volume 1, pp. 157, 2000.
  34. Mahfuz, H., Mamun, W., Austin, L., Haque, A and Jeelani, S., "New Formulations for Hopkinson Bar Technique to Extract a Response of the Constituent Material in Composite Specimens," Journal of Materials: Design and Applications, Vol. 215, pp. 15-27, 2001.
  35. Mahfuz, H., Mamun, W. and Jeelani, S., "High Strain Rate Response of Sandwich Composites; Effect of Core Density and Core-Skin Debond," Journal of Advanced Materials, Vol. 34, No. 1, January 2002, pp. 22-26.
  36. Motuku, M, Janowski, G.M., Vaidya, U.K. Mahfuz, H. and Jeelani, S.,"Low Velocity Impact Characterization of Unreinforced Vinyl Ester 411-350 and 411-C50 Resin Systems," Polymer & Polymer Composites, Vol. 7, No. 6, 1999, pp. 383-407.
  37. U.K. Vaidya, M.V. Kamath, M.V. Hosur, Mahfuz, H. and S. Jeelani, "Manufacturing and Low Velocity Impact Response of Sandwich Composites With Hollow And Foam Filled Z-Pin Reinforced Core," Journal of Composites Technology and Research, JCTRER, Vol. 21, No.2, April 1999, pp. 84-97.
  38. Gama, B., Gillespie, J., Mahfuz, H., Bogetti, T., Fink, B and Jeelani, S.,"High Strain Rate Behavior of Plain-Weave S-2 Glass/Vinylester Composites," Journal of Composite Materials, Vol. 35, No. 13 (2001), pp. 1201-1228.
  39. Mahfuz, H., Gama, B., Das, P., Jeelani, S., Gillespie, J., and Fink, B., "Response of S2-Glass/Vinyl Ester Composites under High Strain Rate Loading - An Experimental and Finite Element Study," Journal of Advanced Materials, Vol. 35, No. 4 (2003) pp. 36-43.
  40. Kanny, K., Mahfuz, H., Thomas, T. and Jeelani, S.,"Dynamic Mechanical Analysis and Flexural Fatigue of PVC Foams," Composite Structures, 58 (2002) 175-183.
  41. Thomas, T., Mahfuz, H., Kanny, K. and Jeelani, S.,"Dynamic Compression of Cellular Cores: Temperature and Strain Rate Effects," Composite Structures, 58 (2002) 505-512.
  42. Kulkarni, N., Mahfuz, H., Jeelani, S. and Carlsson, L."Fatigue Crack Growth and Life Prediction of Foam Core Sandwich Composites under Flexural Loading," Composite Structures 59 (2003) 499-505.
  43. Chakravarty, U., Mahfuz, H., Saha, M. and Jeelani, S.,”Strain Rate Effects on Sandwich Core Materials: An Experimental and Analytical Investigation,” Acta Materialia, 51 (2003) 1469-1479.
  44. Kanny, K., Mahfuz, H., Thomas, T. and Jeelani, S., “Fatigue of Cross-linked and Linear PVC Foams under Shear Loading,” Journal of Reinforced Plastics and Composites, Vol. 23, No. 6, pp. 601-612, 2004.
  45. Thomas, T., Mahfuz, H., Kanny, K. and Jeelani, S., ”High Strain Rate Response of Cross-linked & Linear PVC Foams,” Journal of Reinforced Plastics and Composites, Vol. 23, No. 7, pp. 739-749, 2004.
  46. Kulkarni, N., Mahfuz, H. and Jeelani, S.,"Fatigue Failure Mechanism and Crack Growth in Foam Core Sandwich Composites under Flexural Loading," Journal of Reinforced Plastics and Composites, Volume 23, No. 1, pp. 83-94, 2004.
  47. Majumdar, P., Srinivasagupta, D., Mahfuz, H., Joseph, B., “Effect of Processing Conditions and Material Properties on the Debond Fracture Toughness of Foam-Core Sandwich Composites: Experimental Optimization,” Composites Part A: Applied Science and Manufacturing, 34 (2003) 1097-1104.
  48. Srinivasagupta, D., Joseph, B., Majumdar, P., Mahfuz, H., Thomas, M., Christensen, S., “Effect of Processing Conditions and Material Properties on the Debond Fracture Toughness of Foam-Core Sandwich Composites: Process Model Development,” Composites Part A: Applied Science and Manufacturing, 34 (2003) 1085-1095.
  49. Saha, M., Mahfuz, H., S. Jeelani, Joarder, C., Srinivasgupta, D., Joseph, B., Thomas, M., and Christensen, S.,”Manufacturing and Tensile Characteristics of Integral Sandwich Tee Joints,” Journal of Advanced Materials, Vol. 37, No. 1, 2005, pp. 53-60.
  50. Thomas, T., Mahfuz, H., Kanny, K., and Jeelani, S.,”Dynamic Compression of Sandwich Composites at sub-ambient Temperatures,” Journal of Composite Materials, Vol. 38, No. 8, pp. 641-654, 2004.
  51. Kanny, K.,, Mahfuz, H., Thomas, T., and Jeelani, S, “Static and Dynamic Characterization of Polymer Foams under Shear Loads," Journal of Composite Materials, Vol. 38, No. 8, pp. 629-640, 2004.
  52. Mahfuz, H., Rangari, V., Islam, M., and Jeelani, S., ”Fabrication, Synthesis and Mechanical Characterization of Nanoparticles Infused Polyurethane Foams,” Composites Part A: Applied Science and Manufacturing, Vol. 35, No. 4, pp. 453-460, 2004.
  53. Mahfuz, H., Islam, M., Rangari, V., Saha, M. and Jeelani, S., “Response of Sandwich Composites with Nanophased Cores under Flexural Loading,” Composites Part B: 35 (2004) 543-550.
  54. Chisholm, N., Mahfuz, H., Rangari, V., Ashfaq, A. and Jeelani, S., “Fabrication and Mechanical Characterization of Carbon/Epoxy Nanocomposites,” Composite Structures 67 (2005) 115-124.
  55. Mahfuz, H., Adnan, A., Rangari, V., and Jeelani, S, ”Carbon Nanoparticles/Whiskers Reinforced Composites and their Tensile Response,” Composites Part A: Applied Science and Manufacturing, Vol. 35 (2004) 519-527.
  56. Mahfuz, H., Majumdar, P., Saha, M. and Jeelani, S., “Integral Manufacturing of Composite Skin-Stringer Assembly and their Stability Analyses,” Applied Composite Materials, 11 (3): 155-171, 2004.
  57. Mahfuz, H., Adnan, A., Rangari, V., and Jeelani, S, ”Manufacturing and Characterization of Carbon Nanotube/Polyethylene Composites,” International Journal of Nanoscience, Vol. 4, No. 1 (2005) 1-18.
  58. Zhou, Y., Mahfuz, H., and Jeelani, S., ”Numerical Simulation for High Strain Rate Failure Process of Unidirectional SiCf/Al Composites,” International Journal of Damage Mechanics, Vol. 14 (4), 321-341 (2005).
  59. Mahfuz, H., Islam, S., Saha, M., Carlsson, L., and Jeelani, S., “Buckling of Sandwich Composites; Effects of Core-Skin Debonding and Core Density,” Applied Composite Materials (2005) 12: 73-91.
  60. Rodgers, R., Mahfuz, H., Rangari, V., Chisholm, N., and Jeelani, S., ”Infusion of Nanoparticle into SC-15 Epoxy; an Investigation of Thermal and Mechanical Response,” Macromolecular Materials & Engineering, 2005, 290, 423-429.
  61. Mahfuz, H., Uddin, M.F., Rangari, V.K., Saha, M.C., Zainuddin, S. and Jeelani, S., “High Strain Rate Response of Sandwich Composites with Nanophased Cores,” Applied Composite Materials, (2005) 12: 193-211.
  62. Mahfuz, H., Baseer, M.A., Rangari, V.K. and Jeelani, S., “Fabrication, Characterization and Mechanical Properties of Nanophased Carbon Prepreg Laminates,” SAMPE Journal, Vol. 41, No. 2, pp. 40-48, 2005.
  63. Zhou, Y., Rangari, V., Mahfuz, H., Jeelani, S. and Mallick, P.K., “Experimental Study on Thermal and Mechanical Behavior of Polypropylene, Talc-filled Polypropylene and Polypropylene Nanocomposites,” Materials Science and Engineering: A 402 (2005) 109-117.
  64. Kanny, K., Mahfuz, H., Thomas, T., and Jeelani, S., “Temperature Effects on the Fatigue Behavior of Foam Core Sandwich Structures,” Polymer and Polymer Composites, V 12, n 7, 2004, pp. 551-559.
  65. Saha, M., Mahfuz, H., Chakravarty, U., and Jeelani, S., “Effect of Density, Microstructure, and Strain Rate on Compression Behavior of Polymer Foams,” Journal of Materials Science and Engineering A 406 (2005) 328-336.
  66. Kanny, K., Mahfuz, H., “Flexural Fatigue Characteristics of Sandwich Structures at Different Loading Frequencies,” Composite Structures 67 (2005) 403-410.
  67. Salekeen, S., Nana, J., Mahfuz, H. and Jeelani, S., “Mechanical Property Degradation of a Nicalon Fiber Reinforced Ceramic matrix Composite under Thermal Shock Loading,” Accepted for publication, Composite Structures, September 2005.
  68. Mahfuz, H., Adnan, A., Rangari, V.K., Hasan, M.M., Jeelani, S., Wright, W.J. and DeTeresa, S.J., “Enhancement of Strength and Stiffness of Nylon 6 Filaments through Carbon Nanotubes Reinforcements,” Applied Physics Letters, 88, 083119 (2006).
  69. Mahfuz, H., Thomas, T., Rangari, V. And Jeelani, S., “On the Dynamic Response of Sandwich Composites and their Core Materials,” Composites Science and Technology, 66 (2006) 2465-2472.
  70. Zhou, Y., Baseer, M., Mahfuz, H., and Jeelani, S., “Monte Carlo Simulation on Tensile Failure Process of Unidirectional Carbon Fiber Reinforced Nanophased Epoxy,” Materials Science and Engineering A, Vol. 420, issues 1-2, 2006, pp. 63-71.
  71. Zhou, Y., Baseer, M., Mahfuz, H., and Jeelani, S., “Statistical Analysis on the Fatigue Strength Distribution of T700 Carbon Fiber,” Composite Science and Technology, Vol. 66 No. 13, 2006, pp. 2100-2106.
  72. Hasan, M., Zhou, Y., Mahfuz, H. and Jeelani, S., “Effect of SiO2 Nanoparticle on Thermal and Tensile Behavior of Nylon-6,” Materials Science and Engineering: A, Vol. 429, Issues 1-2, 2006, pp. 181-188.
  73. Rangari, V., Hassan, T., Zhou, Y., Mahfuz, H., Jeelani, and Prorok, B., “Cloisite Clay-Infused Phenolic Foam Nanocomposites,” Journal of Applied Polymer Science, Vol. 103, 308-314 (2007).
  74. Mahfuz, H., Zainuddin, S., Parker, M., Sadi, T., Rangari, V., and Jeelani, S., ”Enhancement of Strength and Stiffness of Epoxy-Based Composites using Nanoparticle Infusion and High Magnetic Fields,” Materials Letter 61 (2007) 2535-2539.
  75. Mahfuz, H., Hasan, M., Rangari, V., and Jeelani, S. ”Reinforcement of Nylon 6 Filaments with SiO2 Nanoparticles and Comparison of Young’s Modulus with Theoretical Bounds,” Macromolecular Materials & Engineering 2007, 292, 437-444.
  76. Ayorinde, E., Gibson, R., Kulkarni, S., Deng, F., Mahfuz, H., Islam, S., Jeelani, S.,”Reliable low-cost NDE of Composite Marine Sandwich Structures,” Composites: Part B, 39 (2008) 226-241.
  77. Adnan, A., Sun, C.T., and Mahfuz, H., “A molecular Dynamics Simulation Study to Investigate the Effect of Filler Size on Elastic Properties of Polymer Nanocomposites,” Composites Science and Technology 67 (2007) 348-356.
  78. Theotokoglou, E.E., Hortis. D., Carlsson, L.A. and Mahfuz, H., “Numerical Study of Fractured Sandwich Composites under Flexural Loading,” Journal of Sandwich Structures and Materials 2008; 10; 75.
  79. Mahfuz, H., Hasan, M., Dhanak, V., Beamson, G., Stewart, J., Rangari, V., Wei, X., Khabashesku, V. and Jeelani, S., “Reinforcement of Nylon 6 with Functionalized Silica Nanoparticles for Enhanced Tensile Strength and Modulus, Nanotechnology,” 19 (2008) 445702 (7pp).
  80. Mahfuz, H., Zainuddin, S., Parker, M.R., Al-Saadi, T., Rangari, V.K. and Jeelani, S., “Reinforcement of SC-15 Epoxy with CNT/CNF under High Magnetic Field – An Investigation of Mechanical and Thermal Response,” Journal of Materials Science, DOI: 10.1007/s10853-008-3161-5, 2008.
  81. Mahfuz, H., Clements, F., Rangari, V., Dhanak, V. and Beamson, G., “Enhanced Stab Resistance with Functionalized Silica Nanoparticles,” Journal of Applied Physics 105, 064307 (2009).
  82. Rangari, V., Shaik, M.Y., Mahfuz, H., and Jeelani, S., “Fabrication and Characterization of High Strength Nylo-6/Si3N4 Polymer Nanocomposites Fibers,” Materials Science and Engineering A 500 (2009) 92-97.
  83. Uddin, M.F., Mahfuz, H., Zainuddin, S. and Jeelani, S., “Improving Ballistic Performance of Polyurethane Foam by Nanoparticle Reinforcement,” Journal of Nanotechnology, Volume 2009, Article ID 794740, 8 pages, DOI: 10.1155/2009/794740.
  84. Stewart, J., Mahfuz, H., and Carlsson, L., “Enhancing Mechanical and Fracture Properties of Sandwich Composites using Nanoparticle Reinforcement,” Journal of Materials Science (2010) 45:3490-3496, DOI: 10.1007/s 10853-010-4380-0.
  85. Zainuddin, S., Mahfuz, H., and Jeelani, S., “Enhancing Fatigue Performance of Sandwich Composites with Nanophased Core,” Journal of Nanomaterials, Volume 2010, Article ID 712731, 8 pages, DOI: 10.1155/2010/712731.
  86. Khan, M.R., Mahfuz, H., Leventouri, Th., Rangari, V.K. and Kyriacou, A., “Enhancing Toughness of LDPE Filaments through Infusion of MWCNTs and UHMWPE,” Polymer Engineering Science, 2010, DOI 10.1002/pen.21873.
  87. Kumar, D.D., Thomas, P.V., and Mahfuz, H., “An Overview of Carbon Nanotubes,” Journal of Materials Education, Vol. 32 (3-4): 153-162, 2010.
  88. Malkina, O., Mahfuz, H., Sorge, K.D., and Rangari, V.K., “Anisotropic Physical Properties of SC-15 Epoxy Reinforced with Magnetic Nanofillers under Uniform Magnetic Field,” Journal of Materials Science, (2011), 46:3982-3988, DOI 10.1007/s10853-011-5325.
  89. Mahfuz, H., Khan, M.R. and Leventouri, Th., “Investigation of MWCNT Reinforcement on the Strain Hardening Behavior of Ultra High Molecular Weight Polyethylene (UHMWPE),” Journal of Nanotechnology (2011), DOI:10.1155/2011/637395.
  90. Mahfuz, H., Powell, F., Granata, R., Hosur, M., and Khan, M, “Coating of Carbon Fiber with Polyhedral Oligomeric Silsesquioxane (POSS) to Enhance Mechanical Properties and Durability of Carbon/Vinylester Composites,” Materials 2011, 4, 1619-1631; doi:10.3390/ma4091619.
  91. Khan, M.R., Mahfuz, H. and Leventouri, T. “Effect of Strain Hardening on the Elastic Properties and Normalized Velocity of Hybrid UHMWPE-Nylon-6-SWCNT Nanocomposites Fiber,” Journal of Materials Research, Vol. 27, No 20, 2012, pp. 2657-2667.
  92. Ma, S., and Mahfuz, H, “Finite Element Simulation of Composite Ship Structures with Fluid Structure Interaction,” Ocean Engineering 52 (2012) 52-59.
  93. Khan, M.R., Mahfuz, H., Leventouri, T., and Adnan, A., “Elastic Properties of UHMWPE-SWCNT Nanocomposites Fiber: An Experimental, Theoretical and Molecular Dynamics Evaluation,” Journal of Materials Engineering and Performance, January 2013, DOI: 10.1007/s11665-013-0471-9.
  94. Malkina, O., Mahfuz, H., Sorge, K., Rondinone, A., Chen, J., More, K., Reeves, K., Rangari, V.K., “Magnetic Alignment of SWCNTs Decorated with Fe2O3 to Enhance Mechanical Properties of SC-15 Epoxy,” AIP Advances 3, 042104 (2013).
  95. Zhou, F., Mahfuz, H., Alsenas, G.M., Hanson, H.P., “Static and Fatigue Analysis of Composite Turbine Blades under Random Ocean Current Loading,” Marine Technology Society Journal (MTSJ), March/April 2013, Vol. 47 (2), pp. 59-69.
  96. Khan, M.R., Mahfuz, H., and Adnan, A., “A study of Mechanical Behavior and Morphology of Carbon Nanotube Reinforced UHMWPE/Nylon-6 Hybrid Polymer Nanocomposites Fiber,” Fibers and Polymers, 2014, Vol. 15, No. 7, 1484-1492.
  97. Sabet, S.M., Mahfuz, H., Hashemi, J., Nezakat, M., and Szpunar, J.A., “Effects of Sonication Energy on the Dispersion of Carbon nanotubes in a Vinyl Ester matrix and Associated Thermo-Mechanical Properties,” Journal of Materials Science (2015) 50:4729-4740, DOI 10, 1007/s 10853-015-9024-y.
  98. Khan, M.R., Absar, S., Mahfuz, H., Edwards, K., ”Morphological Characteristics of Solution Spun Nanocomposite Fibers Synthesized from UHMPE, Nylon-6 and Carbon Nanotubes Compatibilized with Polyethylene-graft-Maleic Anhydride,” Polymer Science, 2015, Vol. 57, N0. 6, pp.863-873.
  99. Khanal, S.P., Mahfuz, H., Rondinone, A.J., and Leventouri, Th., “Imrovement of the Fracture Toughness of Hydroxyapatite (Hap) by Incorporation of Carboxyl Functionalized Single-Walled Carbon nanotubes (cfsWCNTs) and Nylon,” Materials Science and Engineering C 60 (2016) 204-210.
  100. Sabet, S.M., Mahfuz, H., Hashemi, J., Terentis, A.C., “A Facile Approach to the Synthesis of Multi-Walled Carbon Nanotube-Polyhedral Oligomeric Silsesquioxane (POSS) Nanohybrids,” Materials Letters 68 (2016) 9-12.
  101. Suzuki, T., Mahfuz, H., and Canino, M., “Resource Characterization and Statistical Modeling of Ocean Current at the Gulf Stream,” Marine Technology Society Journal (MTSJ), Vol. 51, No.1, 2017, pp. 52-63.
  102. Hulsey, S., Absar, S., Nahida, Q., Sabet, S., Mahfuz, H., and Khan, M, “Synthesis and Characterization of UHMWPE Nanocomposite Fibers Containing Carbon Nanotubes Coated With a PVP Surfactant Layer,” Polymer Composites, 2017, DOI 10.1002/pc.24444.