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Publications

Patents 
 

  1. Willens, K., Muzinich, B., Kavlicoglu, B., and Gordaninejad, F.,"Wearable Multi-Directional Blast Sensor," Patent #: 12,000,747, 2024.

  2. Willens, K., Muzinich, B., Kavlicoglu, B., and Gordaninejad, F., “Wearable Underwater and In-Air Blast Sensor,” Patent #: 11,668,614, 2023.  

  3. Wallis, B., "An Advanced Forward Closure System," Patent #: 8,950,308, 2015

  4. Kavlicoglu, B., Liu, Y., Sahin, H. and Wallis, B., “Soft Magnetorheological Mounts for Shock and Vibration Isolation,” US patent 8,820,492, 2014.

  5. Fuchs, A., Gordaninejad, F., Gecol, H., Hu, B., Kavlicoglu, B., Sutrisno, J., “Nanostructured Magnetorheological Polymer Fluids and Gels,” US patent 8,241,517 B2, 2012.

  6. Fuchs, A., Gordaninejad, F., Gecol, H., Hu, B., Kavlicoglu, B., Sutrisno, J., “Nanostructured Magnetorheological Fluids and Gels,” US patent 7,883,636, 2011

  7. Gordaninejad, F. and Whiteley, J. L., “Method and Apparatus for Measuring Pressure Drop of Magneto-Rheological Suspensions in Microchannels, “Micro Magneto-Rheological Fluid Valves,” US patent No. 7,698,930 B2, 2010.

  8. Murphy, W. J., Welniak, L. A., Evrensel, C, Fuchs, A. and Gordaninejad, F., “Magnetorheological Fluids and Therapeutic Uses Thereof, “ US Patent 2010/0063346 A1, 2010. 

  9. Gordaninejad, F., Wang, X., Hitchcock, G., Bangrakulur, K. K., and Kavlicoglu, B, “Controllable Magneto-Rheological Fluid Devices for Motion-Damping,” U.S. Patent No. 7364022, 2008.

  10. Hitchcock, G. and Gordaninejad, F., “Controllable Compressible Fluid Damper,” U.S. Patent No. 7,422,092, 2008.

  11. Fuchs, A., Gordaninejad, F., Blattman, D., and Hamann, G, “Magnetorheological Polymer Gels,” Canadian Patent No. 2,400,563, 2008

  12. Kavlicoglu, B., Hu, B., Gecol, H., Gordaninejad, F., Fuchs, A., “Nanostructured Magnetorheological Fluids and Gels, US Patent No. 7297290, 2007

  13. Fuchs, A., Gordaninejad, F., Hitchcock, G., and Elkins, J. Zhang, Q., “Tunable Magneto-Rheological Elastomers and Processes for Their Manufacture,” U.S. patent No. 7,261,834, 2007.

  14. Hitchcock, G., Gordaninejad, F., Fuchs, A., “Controllable Magneto-Rheological Elastomer Vibration Isolator,” US Patent No. 7,086,507, 2006.

  15. Gordaninejad, F., Fuchs, A., Wang, X., Hitchcock, G. H., and Xin, M., "Magneto-Rheological Fluid Encased In Flexible Materials for Vibration Control," U.S. Patent No. 6,971,491, 2005.

  16. Hitchcock, G. and Gordaninejad, F., “Magneteorheological Fluid Device,” U.S. Patent No. 6,823,895, 2004.

  17. Fuchs, A., Gordaninejad, F., Blattman, D., and Hamann, G., “Magneto-Rheological Polymeric Gels,” U.S. Patent No. 6,527,972 B1, 2003.

  18. Gordaninejad, F. and Ericksen, E. O., “Controllable Magneto-Rheological Fluid Damper,” U.S. Patent No. 6,510,929 B1, 2003.

  19. Gordaninejad, F. and Kelso, S. P., “Magneto-Rheological Fluid Device,” U.S. Patent No. 6,471,018 B1, 2002.

  20. Gordaninejad, F. and Breese, D. G., “Magneto-Rheological Fluid Dampers,” U.S. Patent No. 6,019,201, 2000

Volumes and Book Chapters
​ ​

  1. Behrooz, M. and Gordaninejad, F., “Magnetorheological Elastomer-Based Systems for Vibration Control,” Ed. Seung-Bok Choi, Nova Science, ISBN: 978-1-63485-208-1, 2016.

  2. Kavlicoglu, B., Gordaninejad, F., and Wang, X., “Surface Effect on Flow of Magnetorheological Fluids: Featuring Modified Mason Number,” RSC Smart Materials No. 6, Magnetorheology: Advances and Applications (Chapter 5), Ed. by N. Wereley, The Royal Society of Chemistry Publishing, Cambridge, United Kingdom, pp. 96-143, 2013.

  3. Wang, X., and Gordaninejad, F., “Magnetorheological Materials and their Applications: A Review,” Intelligent Materials (Chapter 14), the Royal Society of Chemistry, Edited by M. Shahinpoor and H.-J. Schneider, Royal Society of Chemistry Publishing, Cambridge, United Kingdom, pp. 339-385, 2007.

  4. Proceedings of the 10th International Conference on Electrorheological (ER) Fluids and Magnetorheological (MR) Suspensions, Ed. by: F. Gordaninejad, O. A. Graeve, A. Fuchs, and D. York, Published by World Scientific, November, 2007.

  5. Proceedings of the 3rd International Conference on Advanced Smart Materials and Smart Structures Technology, Ed. by: F. Gordaninejad, O. A. Graeve, B. F. Spencer and D. York, Published by Techno Press, August, 2007.

  6. "How Concept Becomes Reality," Proceedings of the 36th International SAMPE Conference, Books 1 & 2, Edited by: J. Stinson, R. Adsit and F. Gordaninejad, Published by SAMPE, April, 1991.

 

Publications 

 

  1. Kavlicoglu, B., Willens, K., Muzinich, B., Rosa, C., Levy, M., Mar, D., and Gordaninejad, F., "An Advanced Controllable Electromechanical Lateral Support System," Naval Engineers Journal, No. 133-2, pp.1-7, June 2021.

  2. Kavlicoglu, B., Liu, Y., Wallis, B., Sahin, H., McKee, M., and Gordaninejad, F., "Two-way controllable magnetorheological elastomer mount for shock and vibration mitigation," Smart Materials and Structures. 29., 2020, doi.org/10.1088/1361-665X/ab4223 

  3. Cesmeci, S., Gordaninejad, F., Ryan, K. L. and Eltahawy, W., “Design of a Fail-Safe Magnetorheological-Based System for Three-Dimensional Earthquake Isolation of Structures,” Mechatronics, 64, 102296, 2019. doi.org/10.1016/j.mechatronics.2019.102296

  4. Eltahawy, W., Ryan, K. L., Cesmeci, S. and Gordaninejad, F., “Displacement/Velocity‐Based Control of a Liquid Spring—MR Damper for Vertical Isolation,” Journal of Structural Control and Health Monitoring, 1-18, 2019. doi.org/10.1002/stc.2363.

  5. Maus, N. and Gordaninejad, F., “A Bi-Directional, Liquid-Spring-Magnetorheological-Fluid-Damper System,” Frontier in Materials, Volume 6, Article 6, P. 11, February 2019. doi: 10.3389/fmats.2019.00006

  6. Yarra, S., Gordaninejad, F., Behrooz, M. and Pekcan, G., “Performance of Natural Rubber and Silicone-Based Magnetorheological Elastomers under Large-Strain Combined Axial and Shear Loading,“ Journal of Intelligent Material Systems and Structures, Vol. 30, No. 2, pp.228-242, 2019. Doi: 10.1177/1045389X18808393

  7. Cesmeci, S., Gordaninejad, F., Ryan, K. L. and Eltahawy, W., “A Liquid Spring–Magnetorheological Damper System under Combined Axial and Shear Loading for Three-Dimensional Seismic Isolation of Structures,” Journal of Intelligent Material Systems and Structures, Vol. 29, No. 18, pp. 3517-353, 2018. Doi: 10.1177/1045389X18783090

  8. Eltahawy, W., Ryan, K. L., Cesmeci, S. and Gordaninejad, F., “Parameters Affecting Dynamics of Three-Dimensional Seismic Isolation,” Journal of Earthquake Engineering, 1-28, 2018. DOI: 10.1080/13632469.2018.1537902

  9. Yarra, S., Gordaninejad, F., Behrooz, M., Pekcan, G., Itani, A. M. and Publicover, N., “Performance of a Large-Scale Magnetorheological Elastomer–Based Vibration Isolator for Highway Bridges,” Journal of Intelligent Material Systems and Structures, Vol. 29, No. 20, pp. 3890-3901, 2018.

  10. McKee, M., Gordaninejad, F., and Wang, X., “Effects of Temperature on Performance of Compressible Magnetorheological Fluid Suspension Systems, “Journal of Intelligent Material Systems and Structures, Vol. 29, No. 1, pp. 41-51, 2018.

  11. Bayat, A. and Gordaninejad, F., “Characteristic Volume Element for Randomly Particulate Magnetoactive Composites,” ASME Journal of Engineering Materials and Technology, Vol. 140, No. 1, pp. 011003-10, 2018. Doi: 10.1115/1.4037023

  12. Johnson, N., Gordaninejad, F. and Wang, X., “Dynamic Behavior of Thick Magnetorheological Elastomers,” Journal of Intelligent Material Systems and Structures, Vol. 29, No. 2, pp. 183-193, 2018. Doi: 10.1177/1045389X17721035

  13. McKee, M. and Gordaninejad, F., “Reciprocating Shaft Seals for High-Temperature and High-Pressure Applications: A Review,” ASME Journal of Tribology, Vol. 140, No 3, pp. 032202-1-6. doi: 10.1115/1.4038354, May, 2018.

  14. Wallis, B., McKee, M., Kavlicoglu, B., Liu, Y. and Sahin, H., “Reusable Forward Closure System,”  Naval Engineers Journal, Vol. 130, Number 3, pp. 145-152(8), 2018.

  15. Bayat, A. and Gordaninejad, F., “Characteristic Volume Element for Randomly Particulate Magnetoactive Composites,” ASME Journal of Engineering Materials and Technology, doi:10.1115/1.4037023, 2017.

  16. Johnson, N., Gordaninejad, F., Wang, X., “Dynamic Behavior of Thick Magnetorheological Elastomers,” Journal of Intelligent Material Systems and Structures, doi.org/10.1177/1045389X17721035, 2017.

  17. McKee, M., Gordaninejad, F., Wang, X., “Effects of Temperature on Performance of a Compressible Magnetorheological Fluid Suspension Systems,” Journal of Intelligent Material Systems and Structures, accepted, DOI: 10.1177/1045389X17705203, 2017.

  18. Bayat, A., Maus, N., and Gordaninejad, F., “Modeling of a Three-Dimensional Single-Phase Direct Methanol Fuel Cell,” ASME Journal of Electrochemical Energy Conversion and Storage, Vol. 14, doi:10.1115/1.4035902, 2017, 2017.

  19. Cantera, A., Behrooz, M., Gibson, Ron, and Gordaninejad, F.,” Modeling of Magneto-Mechanical Response of Magnetorheological Elastomers (MRE) and MRE-Based Systems: A Review,” Smart Materials and Structures, Vol. 26, No. 2, 023001, doi:10.1088/1361-665X/aa549c, 2017.

  20. Zheng, L., Behrooz, M., and Gordaninejad, F., “A Bioinspired Adaptive Spider Web,” Journal of Bioinspired and Biomimic, Vol. 12, No. 1, doi:10.1088/1748-3190/12/1/016012, 2017.

  21. Leng, D., Wang, X., Sun, L. and Gordaninejad, F., “Shock attenuation mechanisms of magnetorheological elastomers absorbers: A theoretical analysis,” Journal of Composite Materials, doi: 10.1177/0021998316649252, 2016.

  22. Behrooz, M. and Gordaninejad, F., “Three-Dimensional Study of a Flexible Micro-Fluid Transport System Utilizing Magnetorheological Elastomer,” Smart Materials and Structures, Vol. 25, doi:10.1088/0964-1726/25/9/095012, 2016.

  23. Behrooz, M., and Gordaninejad, F., “A Flexible Micro-Fluid Transport System Featuring Magnetorheological Elastomer,” Smart Materials and Structures, Vol. 25, No. 2, p. 025011, 2016.

  24. Bayat, F. and Gordaninejad, F., “Switching Band-Gaps of a Phononic Crystal Slab by Surface instability,” Journal of Smart Materials and Structures, 24, 075009, doi:10.1088/0964-1726/24/7/075009 0964-1726/, 2015.

  25. Bayat, A. and Gordaninejad, F., “A New Computational Method for Homogenized Tangent Moduli of a Soft Magneto-Active Composite,” Journal of Smart Materials and Structures, 24, 0750102015, doi:10.1088/0964-1726/24/7/0750100964-1726/, 2015.

  26. Bayat, A. and Gordaninejad, F., “Dynamic response of a tunable phononic crystal under applied mechanical and magnetic loadings,” Journal of Smart Materials and Structures, 24 065027, doi:10.1088/0964-1726/24/6/065027, 2015.

  27. Behrooz, M., Sutrisno, J., Zheng, L., Fuchs, A., Gordaninejad, F., "Behavior of Magnetorheological Elastomers with Coated Particles," Journal of Smart Materials and Structures, Vol. 24, 0350262015, doi:10.1088/0964-1726/24/3/035026, 2015.

  28. Leng, D., Sun, L., Gordaninejad, F., Bayat, A. and Lin, Y., "Dynamic Performance of Magnetic-Sensitive Elastomers under Impact Loads," Journal of Smart Materials and Structures, Vol. 24, 045023. doi:10.1088/0964-1726/24/4/045023, 2015.

  29. Bayat, A., and Gordaninejad, F., “Band-Gap of a Soft Magnetorheological Phononic Crystal.” ASME Journal of Vibrations and Acoustics, Vol. 137, 011013, 2014.

  30. Ghafoorianfar, N., Wang, X., and Gordaninejad, F., “Magnetic and Mechanical Sensing of Magnetorheological Elastomers through Electrical Resistivity Behavior,” Smart Materials and Structures, No. 23, 055010 (8pp), 2014. doi:10.1088/0964-1726/23/4/055010.

  31. Behrooz, M., Wang, X., and Gordaninejad, F., “Modeling of a New Magnetorheological Elastomer Isolator,” Smart Materials and Structures, No. 23, 045013 (7pp), 2014. doi:10.1088/0964-1726/23/4/045013.

  32. Behrooz, M., Wang, X., and Gordaninejad, F., “Performance of a New Magnetorheological Elastomer Isolation System,” Smart Materials and Structures, No. 23, 045014 (7pp), 2014. doi:10.1088/0964-1726/23/4/045014.

  33. Kavlicoglu, B., Gordaninejad, F., and Wang, X., “Study of a Magnetorheological Grease Clutch,” Smart Materials and Structures, DOI:10.1088/0964-1726/22/12/125030, 2013.

  34. Raja, P., Wang, X., and Gordaninejad, F., “A High-Force Controllable MR Fluid Damper-Liquid Spring Suspension System,” Smart Materials and Structures, Vol. 23, No. 1 015021 DOI:10.1088/0964-1726/23/1/015021, 2013.

  35. Potnuru, M. R., Wang, X., Mantripragada, S., and Gordaninejad, F., “A Compressible Magneto-Rheological Fluid Damper – Liquid Spring System,” International Journal of Vehicle Design, Vol. 63, Nos. 2/3, pp. 256-274, 2013.

  36. Sahin, H., Wang, X., and Gordaninejad, F., “Magneto-Rheological Fluid Flow through Complex Valve Geometries,” International Journal of Vehicle Design, Vol. 63, Nos. 2/3, pp. 241-255, 2013.

  37. Pramudya I, Sutrisno J, Fuchs A, Kavlicoglu B, Sahin H, and Gordaninejad F, “Compressible Magnetorheological Fluid using Composite Polyurethane-Microspheres,” Macromolecular Materials and Engineering, DOI = 10.1002/mame.201200156, 2012.

  38. Sutrisno, J., Fuchs, A., Sahin, H. and Gordaninejad, F., “Surface Coated Iron Particles via Atom Transfer Radical Polymerization (ATRP) for Thermal–Oxidatively Stable High Viscosity Magnetorheological Fluid (HVMRF),” Journal of Applied Polymer Science, DOI: 10.1002/APP.38199, 2012.

  39. Gordaninejad, F., Wang, X., and Mysore, P., “Behavior of Thick Magnetorheological Elastomer,” Journal of Intelligent Material Systems and Structures, Vol. 23, Issue 9, pp. 428 – 434, 2012.

  40. Sahin, H., Wang, X., and Gordaninejad, F., “Response Time of Magnetorheological fluids and Magnetorheological Valves under Various Flow Conditions,” Journal of Intelligent Material Systems and Structures, Vol. 23, Issue 9, pp. 349 – 357, 2012.

  41. Sun, L., Gibson, R. F., and Gordaninejad, F., “MultiScale Analysis of Stiffness and Fracture of Nanoparticle-Reinforced Composites Using Micromechanics and Global–Local Finite Element Models,” Engineering Fracture Mechanics, Vol. 78, pp. 2645–2662, 2011.

  42. Kavlicoglu, B., Gordaninejad, F. and Wang, X., "A Unified Approach for Flow Analysis of Magnetorheological Fluids," ASME Journal of Applied Mechanics, Vol. 78, Issue 4, 041008, 2011.

  43. York, D., Wang, X. and Faramarz Gordaninejad, "A New Magnetorheological Mount for Vibration Control," ASME Journal of Vibration and Acoustics, Vol. 133, Issue 3, 031003, 2011.

  44. Whiteley, J., Gordaninejad, F. and Wang, X., “Study of Magneto-Rheological Fluid Flow in Microchannels,” ASME Journal of Applied Mechanics, Vol. 77, 041011-1, July, 2010.

  45. Aydar, G., Wang, X., and Gordaninejad, F., “A Novel Two-Way Controllable Magnetorheological Fluid Damper,” Smart Materials and Structures, Vol.19, No.6, 065024, 2010.

  46. Fuchs, A., Sutrisno, J., Gordaninejad, F., Caglar, M., Liu, Y., “Surface Polymerization of Iron Particles for Magnetorheological Elastomers (MREs),” Journal of Applied Polymer Science, Vol. 117, Issue 2, pp. 934–942, July, 2010.

  47. Gordaninejad, F., Wang, X., Hitchcock, G., Bangrakulur, K., Ruan, S., and Siino, M., “A Modular High-Force Seismic Magneto-Rheological Fluid Damper,” ASCE Journal of Structural Engineering, pp. 135-143, February, 2010.

  48. Fuchs, A., Rashid, A., Liu, Y., Kavlicoglu, B., Sahin, H., Gordaninejad. F., “Compressible Magnetorheological Fluids,” Journal of Applied Polymer Science, Vol. 115, issue 6, pp. 3348 – 3356, March, 2010.

  49. Saiidi, M., Reinhardt, E., and Gordaninejad, F., “New Earthquake-Resistant Concrete Frame with Fiber-Reinforced Plastic Fabrics and Shifted Plastic Hinges,” Journal of Mechanics of Materials and Structures, Vol 4, No. 5, PP. 927-940, 2009.

  50. Sahin, H., Wang, X. and Gordaninejad, F., “Temperature Dependence of Magneto-Rheological Materials,” Journal of Intelligent Material Systems and Structures, Vol. 20, pp. 2215-2222, 2009.

  51. Sun, L., Gibson, R. F., Gordaninejad, F., and Suhr, J., “Energy Absorption Capability of Nanocomposites: A Review,” Composites Science and Technology, Vol. 69, issue 14, pp. 2392-2409, 2009.

  52. Sinha, K., Graeve, O. A., Kavlicoglu, B., Liu, Y., and Gordaninejad, F., “Comparative Study of a Scalable Process and Thermal Behavior of Iron and Copper Nanofluids,” Journal of Applied Physics, Vol. 106, 064307, 2009.

  53. Wang, X., Gordaninejad, F., Caglar, M., Liu, Y., Sutrisno, J., and Fuchs, A., “Sensing Behavior of Magneto-Rheological Elastomers,” ASME Journal of Mechanical Design, Vol. 131, pp.24-29, Sept., 2009.

  54. Wang, X. and Gordaninejad, F., “A New Magnetorheological Fluid-Elastomer Mount: Phenomenological Modeling and Experimental Study,” Journal of Smart Materials and Structures, Vol. 8, pp. 091004-1 – 091004-6, Sept., 2009.

  55. Kavlicoglu, B. M., Gordaninejad, F., Evrensel, C., Liu, Y., Kavlicoglu, N. C., and Alan Fuchs, “Heating of a High-Torque Magneto-Rheological Fluid Limited Slip Differential Clutch,” Journal of Intelligent Material Systems and Structures, Vol. 19, pp. 235-241, 2008.

  56. Dogruer, U., Gordaninejad, F., Evrensel, C., “A New Magneto-Rheological Fluid Damper for High-Mobility Multi-Purpose Wheeled Vehicle (HMMWV),” Journal of Intelligent Material Systems and Structures, Vol. 19, No. 6, pp. 641-650, 2008.

  57. Hitchcock, G., Wang, X., and Gordaninejad, F., “A New By-Pass Magneto-Rheological Fluid Damper,” ASME Journal of Vibration and Acoustics Vol. 129, pp. 641-647, October, 2007.

  58. Wang, X. and Gordaninejad, F., “Flow Analysis and Modeling of Field-Controllable, Electro- and Magneto-Rheological Fluid Dampers,” ASME Journal of Applied Mechanics, Vol. 74, pp. 13-22, January, 2007.

  59. York, D., Wang, X. and Gordaninejad, F., “A New Magnetorheological Fluid-Elastomer (MRF-E) Vibration Isolator,” Journal of Intelligent Material Systems and Structures, Vol. 18, No. 12, pp. 1221-1225, 2007.

  60. Aydar, G., Evrensel, C., Gordaninejad, F., and Fuchs, A., “A Low-Force Magneto- Rheological (MR) Fluid Damper: Design, Fabrication and Characterization,” Journal of Intelligent Material Systems and Structures, Vol. 18, No. 12, pp. 1155-1160, 2007.

  61. Sahin, H., Gordaninejad, F., Wang, X., Liu, Y., Evrensel, C., Fuchs, A., “A Fail-Safe Magneto-Rheological Fluid Damper for Heavy Vehicles,” Journal of Intelligent Material Systems and Structures, Vol. 18, No. 12, pp. 1161-1167, 2007.

  62. Fuchs, A., Hu, B., Gordaninejad, F., and Evrensel, C., “Nano-Structured and Surface Polymerized Magnetorheological Fluid,” International Journal of Modern Physics B, Vol. 21, Numbers 28 and 29, pp. 4819-4824, 2007.

  63. Mantripragaada, S., Wang, X., Gordaninejad, F., Hu, B., Fuchs, A., “Rheological Properties of Novel Magento-Rheological Fluids,” International Journal of Modern Physics B, Vol. 21, Numbers 28 and 29, pp. 4849-4857, 2007.

  64. Fuchs, A. Zhang, Q., Elkins, J. Gordaninejad, F., and Evrensel, C., “Development and Characterization of Magnetorheological Elastomers,” Journal of Applied Polymer Science, Vol. 105, No. 5, pp. 2497-2308, 2007.

  65. Kavlicoglu, N. C., Kavlicoglu, B. M., Liu, Y., Evrensel, C., Fuchs, A., Korol, G. and Gordaninejad, F., “Response Time and Performance of a High-Torque Magneto-Rheological Fluid Limited Slip Differential Clutch,” Smart Materials and Structures, Vol. 16, pp. 149-159, Jan. 2007.

  66. Wang, X. and Gordaninejad, F., “Study of Magnetorheological Fluids at High Shear Rates,” Rheologica Acta, Vol. 45, No., pp. 899-908, 2006.

  67. Hu, B., Fuchs, A., Sahin, H., Gordaninejad, F., and Evrensel, C., “Atom Transfer Radical Polymerized MR Fluids,” Polymer, Vol. 47, No. 22, pp. 7653-7663, 2006.

  68. Hu, B., Fuchs, A., Sahin, H., Gordaninejad, F., and Evrensel, C., “Supramolecular Magnetorheological Polymer Gels,” Journal of Applied Polymer Science, Vol. 100, No. 3, pp.2464-2479, 2006.

  69. Kavlicoglu, B. M., Gordaninejad, F., Evrensel, C., Fuchs, A., and Korol, G., “A Semi-Active Magnetorheological Fluid Limited Slip Differential Clutch,” ASME Journal of Vibration and Acoustics, Vol. 128, No. 5, pp. 604-610, 2006.

  70. Kavlicoglu, B. M., Gordaninejad, F., Saiidi, M. and Jiang, Y., "Behavior of a Graphite/Epoxy-Concrete Bridge Girder," Composites B: Engineering, Volume 37, Issues 2-3, pp. 171-181, 2006.

  71. Liu, Y., Gordaninejad, F., Evrensel, C., Wang, X. and Hitchcock, G., “A Comparative Study on Vibration Control of a Scaled Bridge Using Fail-Safe MR Fluid Dampers,” ASCE Journal of Structural Engineering, Vol. 131, No. 5, pp. 743-751, 2005.

  72. Gordaninejad, F., Kavlicoglu, B. M., Wang. X., “Friction Factor of Magneto-Rheological Fluid Flow in Grooved Channels,” International Journal of Modern Physics B 19 (7-9): Part 1 Sp. Issue SI, pp. 1297-1303, 2005.

  73. Fuchs, A., Hu, B., Gordaninejad, F., and Evrensel, C.A., "Synthesis and Characterization of Magnetorheological Polyimide Gels", Journal of Applied Polymer Science, Vol. 98, Issue 6, pp. 2402-2413, 2005.

  74. Engin, T., Evrensel, C.A., and Gordaninejad, F., “Numerical Simulation of Laminar Flow of Water-Based Magneto-Rheological Fluids in Microtubes with Wall Roughness Effect”, International Communication in Heat and Mass Transfer, Vol. 32, pp. 1016-1025, 2005.

  75. Yang, S., Li, S., Wang, X., Gordaninejad, F., and Hitchcock,G., “A Hysteresis Model for Magneto-Rheological Damper,” International Journal of Nonlinear Sciences and Numerical Simulation, Vol. 5, No. 2, pp. 139-144, 2005.

  76. Ghomshei, M. M., Tabandeh, N., Ghazavi, A., Gordaninejad, F., “Nonlinear Transient Response of a Thick Composite Beam with Shape Memory Alloy Layers,” Composites B: Engineering, Vo.36, Issue 1, pp. 9-24, 2005.

  77. Engin, T., Dogruer, U., Evrensel, C., Heavin, S. and Gordaninejad, F., “Effect of Wall Roughness on Laminar Flow of Bingham Plastic Fluids Through Microtubes,” ASME Journal of Fluid Engineering, Vol. 26, pp. 880-883, 2004.

  78. Fuchs, A., Xin, M., Gordaninejad, F., Wang, X., Hitchcock, G., Gecol, H., Evrensel, C., and Korol, G., "Development and Characterization of Hydrocarbon Polyol Polyurethane and Silicone Magnetorheological Polymeric Gels," Journal of Applied Polymer Science, Vol. 92, issue 2, pp. 1176-1182, 2004.

  79. Saiidi, M., Martinovic, F., McElhaney, B., Sanders, D., and Gordaninejad, F., "Assessment of Steel and FRP Jackets for Seismic Retrofit of RC Columns with Structural Flares," ASCE Journal of Structural Engineering, Vol. 130, No, 4, pp. 609-617, April 2004.

  80. Kavlicoglu, B. M., Saiidi, M., and Gordaninejad, F., “Fatigue response of new graphite/epoxy-concrete girder,” ASCE Journal of Composites for Construction, Vol. 7, No. 1, pp. 50-57, 2003.

  81. Dougruoz, M. B., Wang, E. L., Gordaninejad, F., and Stipanovic, A. J., “Heat Transfer from Fail-Safe Magneto-Rheological Fluid Dampers,” Journal of Intelligent Material System and Structures, Vol. 14, No. 2, 2003.

  82. Breese, D. G., and Gordaninejad, F., “Semi-Active, Fail-Safe Magneto-Rheological Fluid Dampers for Mountain Bicycles,” International Journal of Vehicle Design, Vol. 33, Nos. 1/2/3/, pp. 128-138, 2003.

  83. Ericksen, E. O. and Gordaninejad, F., “A Magneto-Rheological Fluid Shock Absorber for an Off-Road Motorcycle,” International Journal of Vehicle Design, Vol. 33, Nos. 1/2/3/, pp. 138-152, 2003.

  84. Wang, X., and Gordaninejad, F., “Lyapunov-Based Control of a Bridge Using Magneto-Rheological Fluid Dampers,” Journal of Intelligent Material Systems and Structures, Vol.13, NO.7/8, pp.415-419, 2002.

  85. Gordaninejad, F., Saiidi, M., Hansen, B. C., Ericksen, E. O., and Chang, F-K, “Magneto-Rheological Fluid Dampers for Control of Bridges,” Journal of Intelligent Material Systems and Structures, Vol. 13, No. 2-3, pp.167-180, 2002.

  86. Wilson, J. W., Fuchs, A., Gordaninejad, F., “Development and Characterization of Magnetorheological Polymer Gels,” Journal of Applied Polymer Science, Vol. 84, No. 14, pp. 2733-2742, 2002.

  87. Gordaninejad, F. and Wu, W., “A Two-Dimensional Shape Memory Alloy/Elastomer Actuator,” International Journal of Solid and Structures, Vol. 38, pp. 3393-3409, 2001.

  88. Ghomshie, M., Tabandeh, N., Ghazavi, A., and Gordaninejad, F., “A Three-Dimensional Shape Memory Alloy/Elastomer Actuator,” Composites, Part B: Engineering, Vol. 32B, No. 5, 2001, pp. 441-449, 2001.

  89. Gordaninejad, F. and Kelso, S. P., “Fail-Safe Magneto-Rheological Fluid Dampers for Off-Highway, High-Payload Vehicles,” Journal of Intelligent Material Systems and Structures, Vol. 11, No. 5, pp. 395-406, 2000.

  90. Gordaninejad, F., and Breese, D. G., “Heating of Magnetorheological Fluid Dampers,” Journal of Intelligent Materials, Systems and Structures, Vol. 10, No. 8, Pp. 634-645, 1999.

  91. Wang, X., and Gordaninejad, F., “Flow Analysis of Field-Controllable, Electro- and Magneto-Rheological Fluids Using Herschel-Bulkley Model,” Journal of Intelligent Materials, Systems and Structures, Vol. 10, No. 8, Pp. 601-608, 1999.

  92. Marksmeier, T. M., Gordaninejad, F., Wang, E., and Stipanovic, A., “Design and Performance of an Electro-Rheological Grease (ERG) Shock Absorber,” Journal of Modern Physics B, Vol. 13, Nos. 14, 15 &16, pp. 2135-2142, 1999.

  93. Marksmeier, T. M., Wang, E., Gordaninejad, F., and Stipanovic, A., “Theoretical and Experimental Studies of an Electro-Rheological Grease Shock Absorber,” Journal of Intelligent Materials, Systems and Structures, Vol. 9, No. 9 pp. 693-703, 1998.

  94. Gordaninejad, F. and Bindu, R., “A Scale Study on Electro-Rheological Fluid Dampers,” Journal of Structural Control, Vol. 4, No.2, pp. 5-17, 1997.

  95. Gordaninejad, F., Ray, A., and Wang, H., "Control of Forced Vibration Using Multi-Electrode Electro-Rheological Fluid Dampers," ASME Journal of Vibration and Acoustics, Vol. 119, pp. 527-531, 1997.

  96. Wu, W., Gordaninejad, F., and Wirtz, R. A., "Modeling and Analysis of a Shape Memory Alloy-Elastomer Composite Actuator," Journal of Intelligent Materials, Systems and Structures, Vol. 7, No. 4, pp. 441-447, 1996.

  97. Gordaninejad, F. and Bindu, R., “The Effect of Scale Factor on the Performance of Electro-Rheological Fluid Dampers,” International Journal of Modern Physics B, Vol. 10, Nos. 23 & 24, pp. 3133-3141, 1996.

  98. Gordaninejad, F., Hanson, R. D., Quattrone, R., Robertshaw, H. H., Rogers, C. A., Shinozuka, M., Shoureshi, R., Smith, A., (a NSF Committee), “Rebuilding and Enhancing the Nation’s Infrastructure: A Role for Intelligent Material Systems and Structures,” Journal of Intelligent Materials, Systems and Structures, Vol. 6, pp. 4-12, 1995.

  99. Wirtz, R. A., Gordaninejad, F., and Wu, W., "Free Response of a Thermally Driven Composite Actuator," Journal of Intelligent Materials, Systems and Structures, Vol. 6, No. 3, pp. 364-379, 1995.

  100. Ghazavi, A. and Gordaninejad, F., "A Comparison Between the Control of a Flexible Robot Arm Constructed from Advanced Composite Materials Versus Aluminum," Computers and Structures, Vol. 54, No. 4, pp. 621-632, 1995.

  101. Wu, W., Gordaninejad, F., and Wirtz, R. A., "A Shape Memory Alloy-Elastomer Composite Actuator,” ASME Paper No. 95-WA/HT- 28, 1995.

  102. Saiidi, M., Gordaninejad, F., and Wahbe, N., "Behavior of Graphite/Epoxy Concrete Composite Beams," ASCE Journal of Engineering Mechanics, Vol. 120, No. 10, pp. 2958-2976, 1994.

  103. Gordaninejad, F., Vaidyaraman, S., "Active and Passive Control of a Revolute-Prismatic, Flexible, Composite-Materials Robot Arm," Computers and Structures, Vol. 53, No. 4, pp. 867-875, 1994.

  104. Ghazavi, A., Gordaninejad, F. and N. G. Chalhoub, "Dynamic Analysis of Composite-Material Flexible Robot Arm," Computers and Structures, Vol. 49, No. 2, pp. 315-327, 1993.

  105. Gordaninejad, F., Saiidi, M., and Wahbe, N., "Behavior of Adhesively Bonded Concrete-Graphite/Epoxy Composite Bridge Girders," Journal of Advanced Materials, Vol. 25, No. 2, pp. 46-53, 1993.

  106. Gordaninejad, F., "Enhancement of Thermal Conductivities in Polymeric Fiber Reinforced Composite Materials," ASME Journal of Materials and Technology, Vol. 114, pp. 416-421, 1992.

  107. Gordaninejad, F., Chalhoub, N. G., Ghazavi, A. and Lin, Q., "Nonlinear Deformation of a Shear-Deformable Laminated Composite-Material Robot Arm," ASME Journal of Mechanical Design, Vol. 114, pp. 96-102, 1992.

  108. Chalhoub, N. G., Gordaninejad, F., Lin, Q., Ghazavi, A., “Dynamic Modeling of a Laminated Composite- Material Flexible Robot Arm Made of Short Beams,” International Journal of Robotics Research October, Vol. 10, No. 5, PP. 560-569, 1991.

  109. Gordaninejad, F., Azhdari, A., Chalhoub, N. G., "Nonlinear Dynamic Modeling of a Flexible Revolute-Prismatic Composite-Material Arm," ASME Journal of Vibration and Acoustics, Vol. 113, pp. 461-468, 1991.

  110. Azhdari, A., Chalhoub, N. G. and Gordaninejad, F., "Dynamic Modeling of a Flexible Revolute-Prismatic Composite-Material Robot Arm," International Journal of Nonlinear Dynamics, Vol. 2, pp. 171-186, 1991.

  111. Gordaninejad, F., "Bending of Thick Angle-Ply Bimodular Composite Plates," AIAA Journal, Vol. 28, No. 11, pp. 2005-2008, 1990.

  112. Gordaninejad, F. and Bert, C. W., "A New Theory for Bending of Thick Sandwich Beams," International Journal of Mechanical Sciences, Vol. 31, No. 11/12, pp. 925-934, 1989.

  113. Ghazavi, A. and Gordaninejad, F., "Nonlinear Bending of Thick Bimodular Composite Beams," Composite Science and Technology, Vol. 36, pp. 289-298, 1989.

  114. Gordaninejad, F., "Nonlinear Bending of Anisotropic Bimodular Composite-Material Plates," Computers and Structures, Vol. 33, No. 3, pp. 615-620, 1989.

  115. Gordaninejad, F., "Effect of Shear Deformation on Bending of Bimodular Composite-Material Plates," Composite Structures, Vol. 12, No. 3, pp. 161-170, 1989.

  116. Gordaninejad, F. and Ghazavi, A., "Effect of Shear Deformation on Bending of Laminated Composite Beams," ASME Journal of Pressure Vessel and Piping Technology, Vol. 111, pp. 159-164, 1989.

  117. Gordaninejad, F., "A Finite-Element Model for the Analysis of Thick, Anisotropic, Bimodular, Fibrous-Composite Plates," Computers and Structures, Vol. 31, No. 6, pp. 907-912, 1989.

  118. Bert, C. W., and Gordaninejad, F., "Vibration of Timoshenko Beams Made of Multimodular Materials," ASME Journal of Vibration, Acoustics, Stress and Reliability in Design, Vol. 107, pp. 98-105, 1985.

  119. Gordaninejad, F. and Francis, J. E., "A Finite Difference Solution to Transient Combined Conductive and Radiative Heat Transfer in an Annular Medium,” ASME Journal of Heat Transfer, Vol. 106, pp. 888-891, 1984.

  120. Bert, C.W., and Gordaninejad, F., "Deflection of Thick Multimodular Beams," International Journal for Numerical Methods in Engineering, Vol. 20, pp. 479-503, 1984.

  121. Rebello, C. A., Bert, C. W., and Gordaninejad, F., "Vibration of Bimodular Sandwich Beams with Thick Facings: A New Theory and Experimental Results,” Journal of Sound and Vibration, Vol. 90, No. 3, pp. 381-397, 1983.

  122. Bert, C.W., and Gordaninejad, F., "Transverse Shear Effects in Bimodular Composite Laminates," Journal of Composite Materials, Vol. 17, No. 4, pp. 282-298, 1983.

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