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Journal Publications

An Outstanding Research Fills in a Missing Tile!

PUBLICATIONS

  1. M. Shaat and H.S. Park (2022), "Chiral, nonreciprocal elasticity and activity", submitted to Journal of the Mechanics and Physics of Solids. [Under Review]

  2. M. Shaat and H.S. Park (2021), "Mechanical activity and odd elasticity of passive, 2D chiral metamaterials", arXiv:2106.11311v3.

  3. E. Ghavanloo and M. Shaat (2022), "General nonlocal Kelvin–Voigt viscoelasticity: application to wave propagation in viscoelastic media", Acta Mechanica, 233, 57–67.

  4. M. Shaat (2020), “Hybrid continuum-molecular modeling of fluid slip flow”, Physics of Fluids, 32, 122009 [Invited].

  5. M. Shaat (2020), “Nonreciprocal elasticity and the realization of static and dynamic nonreciprocity”, Scientific Reports, 10, 21676.

  6. M. Shaat, U. Javed, and S. Faroughi (2020), “Wettability and confinement size effects on stability of water conveying nanotubes”, Scientific Reports, 10, 17167.

  7. M. Shaat, E. Ghavanloo, S. A. Fazelzadeh (2020), “Review on nonlocal continuum mechanics: physics, material applicability, and mathematics”, Mechanics of Materials, 150, 103587.

  8. M. Shaat, M. A. Moubarez, M. O. Khan, M. A. Khan and A. Alzo’ubi (2020), “Metamaterials with giant and tailorablenonreciprocal elastic moduli”, Physical Reviews Applied, 14, 014005.

  9. M. Shaat, E. Ghavanloo and S. Emam (2020), “Micromorphic beam theory for beams with elongated microstructures”, Scientific Reports, 10, 7984.

  10. M. Shaat, S. Emam, S. Faroughi and U. Javed (2020), “On postbuckling mode distortion and inversion of nanostructures due to surface roughness”, International Journal of Solids and Structures, 195, 28-42.

  11. M. Shaat and A. Wagih (2020), “Hinged-3D metamaterials with giant and strain-independent Poisson’s ratios”, Scientific Reports, 10, 2228.

  12. M. Shaat, A. Fathy and A. Wagih (2020), “Correlation between grain boundary evolution and mechanical properties of ultrafine-grained metals”, Mechanics of Materials, 143, 103321.

  13. M. Shaat & Y. Zheng (2019), “Fluidity and phase transitions of water in hydrophobic and hydrophilic nanotubes”, Scientific Reports, 9, 5689.

  14. A. Wagih & M. Shaat, (2019), “The dependence of accumulative roll bonded copper mechanical properties on grain sub-division, stacking faults, and lattice strains”, Materials Science & Engineering A, 756, 190–197.

  15. A.R. El Dhaba & M. Shaat, (2019), “Modeling deformation of auxetic and non-auxetic polymer gels”, Applied Mathematical Modelling, 74, 320–336.

  16. M. Shaat, (2019), “Calibration of mass sensors for surface roughness of their micro-resonators”, Sensors and Actuators A, 296 (2019) 302–315.

  17. M. Shaat & A.R. El Dhaba, (2019), “On the equivalent shear modulus of composite metamaterials”, Composites Part B, 172, 506–515.

  18. M. Shaat, (2019), “Size-dependence of Young's modulus and Poisson's ratio: Effects of material dispersion”, Mechanics of Materials, 133, 111-119.

  19. M. Shaat, (2019), “Mode localization phenomenon of functionally graded nanobeams due to surface integrity”, International Journal of Mechanics and Materials in Design, 15, 245–270.

  20. M. Shaat & S. Faroughi, (2019), “Influence of long-range interatomic and interlayer interactions on dispersion of acoustic waves by multilayer graphene”, Physica E: Low-dimensional Systems and Nanostructures, 108, 74–82.

  21. M. Shaat, (2018), “A reduced micromorphic model for multiscale materials and its applications in wave propagation”, Composite Structures, accepted.

  22. M. Shaat, (2018), “Effects of processing force on performance of nano-resonators produced by magnetron sputtering deposition”, Physica E: Low-Dimensional Systems & Nanostructures, accepted.

  23. M. Shaat, (2018), “Effects of processing conditions on microstructure and mechanical properties of equal-channel-angular-pressed titanium”, Materials Science and Technology, doi.org/10.1080/02670836.

  24. M. Shaat, (2018), “Correction of local elasticity for nonlocal residuals: Application to Euler-Bernoulli beams”, Meccanica, doi.org/10.1007/s11012-018-0855-x.

  25. M. Shaat and S. Faroughi, (2018), “Influence of surface integrity on vibration characteristics of microbeams”, European Journal of Mechanics A/Solids, 71, 365–377

  26. S. Faroughi and M. Shaat, (2018), “Poisson’s ratio effects on the mechanics of auxetic nanobeams”, European Journal of Mechanics A/Solids, 70, 8-14.

  27. M. Shaat, (2018), “Effects of surface integrity on the mechanics of ultra-thin films”, International Journal of Solids and Structures, 136-137, 259-270.

  28. M. Shaat, (2018), “An iterative nonlocal residual constitutive model for nonlocal elasticity”, arXiv:1803.08646 [physics.app-ph].

  29. M. Shaat, (2018), “Influence of surface integrity on geometry and dynamics of functionally graded nanobeams”., arXiv:1803.04829 [physics.app-ph].

  30. M. Shaat, (2018), “Mode localization phenomenon in microbeams due to surface roughness”, arXiv:1803.02638 [physics.app-ph].

  31. M. Shaat, (2017), “Infeasibility of the nonlocal strain gradient theory for applied Physics”, arXiv:1711.09938 [physics.app-ph].

  32. M. Shaat, S. Faroughi, L. Abassi, (2017), “Paradoxes of differential nonlocal cantilever beams: Reasons and a novel solution”, arXiv:1802.01494.

  33. M. Shaat (2017), “Viscosity of water interfaces with hydrophobic nanopores: application to water flow in carbon nanotubes”, Langmuir, 33, 12814-12819.

  34. M. Shaat, B. Aidi, S.W. Case, and A. Abdelkef, (2017), “Predictions of the frequencies of bending-torsion coupled laminated composite plates with discontinuities: Novel analytical modeling and experimental validation”, Composite Structures, 180, 334-350.

  35. M. Shaat, “Reporting the fatigue life of 316L stainless steel locking compression plate implants: the role of the femoral and tibial biomechanics during the gait”, Journal of Biomechanical Engineering, 139(10), 104502. (Technical Brief)

  36. M. Shaat, (2017), “A general nonlocal theory and its approximations for slowly varying acoustic waves”, International Journal of Mechanical Sciences, 130, 52-63.

  37. B. Aidi, M. Shaat, A. Abdelkefi, and S. W.Case, (2017), “Free vibration analysis of cantilever open-hole composite plates” Meccanica, 2017, 1-18.

  38. M. Sari, M. Shaat, and A. Abdelkefi, (2017), “Frequency and mode veering phenomena of axially functionally graded non-uniform beams with nonlocal residuals”, Composite Structures, 163, 280-292.

  39. M. Shaat and A. Abdelkefi, (2017), “New insights on the applicability of Eringen’s nonlocal theory”, International Journal of Mechanical Sciences, 121, 67-75.

  40. M. Shaat and A. Abdelkefi, (2017), “Buckling characteristics of nanocrystalline nano-beams”, Journal of Mechanics & Materials in Design, DOI: 10.1007/s10999-016-9361-2.

  41. M. Shaat and A. Abdelkefi, (2017), “Material structure and size effects on the nonlinear dynamics of electrostatically-actuated nano-beams”. International Journal of Non-Linear Mechanics, 89, 25-42.

  42. M. A. Khorshidi, M. Shaat, A. Abdelkefi, M. Shariati, (2017), “Nonlocal modeling and buckling features of cracked nanobeams with von-Karman nonlinearity”. Applied Physics A, 123:62.

  43. M. Shaat and A. Abdelkefi, (2017), “Reporting the sensitivities and resolutions of CNT-based resonators for mass sensing”, Materials & Design, 114, 591–598.

  44. M. Shaat and A. Abdelkefi, (2016), “Reporting buckling strength and elastic properties of nanowires”, Journal of Applied Physics, 120, 235104.

  45. M. Shaat, M. A. Khorshidi, A. Abdelkefi, M. Shariati, (2016), “Modeling and vibration characteristics of cracked nano-beams made of nanocrystalline materials”. International Journal of Mechanical Sciences, 115-116, 574–585.

  46. H. R. Ali-Akbari, M. Shaat, A. Abdelkefi, (2016), “Bridged single-walled carbon nanotube-based atomic-scale mass sensors”. Applied Physics A, 122, 762.

  47. M. Shaat and A. Abdelkefi, (2016), “On a second-order rotation gradient theory for linear elastic continua”. International Journal of Engineering Science, 100, 74–98.

  48. M. Shaat and A. Abdelkefi, (2016), “Size dependent and micromechanical modeling of strain gradient based nanoparticle composite plates with surface elasticity”. European Journal of Mechanics A/Solids 58, 54-68.

  49. M. Shaat and A. Abdelkefi, (2016), “Modeling of mechanical resonators used for nanocrystalline materials characterization and disease diagnosis of HIVs”. Microsystem Technologies, 22(2), 305-318.

  50. M. Shaat and A. Abdelkefi, (2015), “Modeling the material structure and couple stress effects of nanocrystalline silicon beams for pull-in and bio-mass sensing applications”. International Journal of Mechanical Engineering, 101-102, 280–291.

  51. M. Shaat and A. Abdelkefi, (2015), “Pull-in instability of multi-phase nanocrystalline silicon beams under distributed electrostatic force”. International Journal of Engineering Science, 90, 58-75.

  52. M. Shaat, (2015), “Effects of grain size and microstructure rigid rotations on the bending behavior of nanocrystalline material beams”. International Journal of Mechanical Sciences, 94-95, 27-35.

  53. M. Shaat, (2015), “Iterative nonlocal elasticity for Kirchhoff plates”. International Journal of Mechanical Sciences, 90, 162–170.

  54. F. F. Mahmoud and M. Shaat, (2015), “A new Mindlin FG plate model incorporating microstructure and surface energy effects”. Structural Engineering and Mechanics, 53(1), 105-130.

  55. M. Shaat, (2015), “Physical and mathematical representations of couple stress effects on Micro/Nano solids”. International Journal of Applied Mechanics, 7 (1), 1550012.

  56. M. Shaat and S. A. Mohamed, (2014), “Nonlinear-electrostatic analysis of micro-actuated beams based on couple stress and surface elasticity theories”. International Journal of Mechanical Sciences, 84, 208–217.

  57. M. Shaat, F.F. Mahmoud, X.-L. Gao, A. F. Faheem, (2014), “Size-dependent bending analysis of Kirchhoff nano-plates based on a modified couple-stress theory including surface effects” International Journal of Mechanical Sciences, 79, 31-37.

  58. M. Shaat, F. F. Mahmoud, S. S. Alieldin, A. E. Alshorbagy, (2013), “Bending analysis of ultra-thin functionally graded Mindlin plates incorporating surface energy effects”, International Journal of Mechanical Sciences 75, 223–232.

  59. M. Shaat, F. F. Mahmoud, S. S. Alieldin, A. E. Alshorbagy, (2013), “Finite element analysis of functionally graded nano-scale films”, Finite Element in Analysis and Design 74, 41–52.

  60. M. Shaat, M. A. Eltaher, A. I. Gad, F. F. Mahmoud, (2013), “Nonlinear size-dependent finite element analysis of functionally graded elastic tiny-bodies”, International Journal of Mechanical Sciences, 77, 356–364.

  61. A. E. Alshorbagy, S. S. Alieldin, M. Shaat, F. F. Mahmoud, (2013), “Finite element analysis of the deformation of functionally graded plates under thermo-mechanical loads”, Mathematical Problems in Engineering, 2013, 1-13.

  62. M. Shaat, F. F. Mahmoud, A. E. Alshorbagy, S. S. Alieldin, E. I. Meletis, (2012), “Size-dependent analysis of functionally graded ultra-thin films”, Structural Engineering and Mechanics, 44 (4), 431-448.

  63. S. S. Alieldin, A. E. Alshorbagy, M. Shaat, (2011), “A first-order shear deformation finite element model for elastostatic analysis of laminated composite plates and the equivalent functionally graded plates”, Ain Shams Engineering Journal, 2, 53-62.

  1. M. Shaat (2020). “Topological Metamaterials with Nonreciprocal Elasticity”, International Mechanical Engineering Congress & Exposition (IMECE2020) – ASME – Virtual Conference (16-19 November, 2020). [Invited Talk]

  2. M. Shaat and A. Abdelkefi, (2017). “Buckling Analysis of Nano-Beams Made of Nanocrystalline Materials”. 58th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, Gaylord, Texas, USA, 9 - 13 Jan. 2017.

  3. M. Shaat and A. Abdelkefi, (2017). “On nonlinear dynamics of electrostatically actuated functionally graded nanobeams”. 58th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, Gaylord, Texas, USA, 9 - 13 Jan. 2017.

  4. Hichem Abdelmoula, M. Shaat and A. Abdelkefi, (2017). “Finite Element Modeling of Nanoindentation Test for Nanomaterials Accounting for Surface Effects Using UEL subroutine”. 58th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, Gaylord, Texas, USA, 9 - 13 January 2017.

  5. M. Shaat and A. Abdelkefi, (2016). “Grains size and rigid rotations effects on the dynamics and pull-in instability of electrostatically-actuated beams”. Accepted in the 57th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, San Diego, USA, 04-08 January, 2016.

  6. M. Shaat and A. Abdelkefi, “Modeling of strain gradient-based nanoparticle composite plates with surface elasticity”. 57th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, San Diego, USA, 04-08 January, 2016.

  7. B. Aidi, M. Shaat, A. Abdelkefi, and A. Case, “Natural-frequency reduction model of notched quasi-isotropic composites under tension-tension fatigue”. 57th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, San Diego, USA, 04-08 January, 2016.

  8. M. Shaat and A. Abdelkefi, (2015). “Accurate Modeling and Analysis of Mechanical Nano-resonators”, 5th International Conference on Nanotek & Expo, San Antonio, USA. (M. Shaat was the invited speaker)

  9. M. Shaat and A. Abdelkefi, (2015). “On the Mechanics of Nanomaterials in Micro-/Nano-scale Applications”, 5th International Conference on Nanotek & Expo, San Antonio, USA. (M. Shaat was the invited speaker)  

  10. M. Shaat, (2014). “Mechanics of Nanodevices and nanosenors”, 4th International Conference on Nanotek & Expo, San Francisco, USA. (Invited speaker)

Conference Publications
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B O S T O N  U N I V E R S I T Y 

© 2017 by Mohamed Shaat

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