M
Marwan Al-Haik
Researcher at Embry-Riddle Aeronautical University, Daytona Beach
Publications - 112
Citations - 3110
Marwan Al-Haik is an academic researcher from Embry-Riddle Aeronautical University, Daytona Beach. The author has contributed to research in topics: Carbon nanotube & Epoxy. The author has an hindex of 24, co-authored 108 publications receiving 2779 citations. Previous affiliations of Marwan Al-Haik include Embry–Riddle Aeronautical University & Virginia Tech.
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Nanocharacterization of creep behavior of multiwall carbon nanotubes/epoxy nanocomposite
TL;DR: In this paper, high temperature instrumented indentation testing was used to evaluate the mechanical properties of multiwall carbon nanotubes/epoxy nanocomposite system and the results showed quantifiable differences between the MWCNTs and epoxy specimens.
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Prediction of nonlinear viscoelastic behavior of polymeric composites using an artificial neural network
TL;DR: In this paper, a nonlinear viscoelastic constitutive model is developed, and its material parameters are determined by fitting it to creep test data, and an alternative model based on an artificial neural network (ANN) is developed to predict the stress relaxation of the polymer matrix composite.
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Hybrid carbon fiber/carbon nanotube composites for structural damping applications.
Mehran Tehrani,Masoud Safdari,Ayoub Yari Boroujeni,Z Razavi,Scott W. Case,Klaus Hermann Dahmen,Hamid Garmestani,Marwan Al-Haik +7 more
TL;DR: The results indicated that the energy dissipation in the GSD-grown MWCNTs composite can be primarily attributed to the frictional sliding at the nanotube/epoxy interface and to a lesser extent to the stiff thermal shielding SiO2 film on the fiber/matrix interface.
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Hybrid carbon nanotube–carbon fiber composites with improved in-plane mechanical properties
TL;DR: In this paper, carbon nanotubes (CNTs) were grown on carbon fibers to enhance the in-plane and out-of-plane properties of fiber reinforced polymer composites (FRPs).
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Role of polyethylene glycol integrity in specific receptor targeting of carbon nanotubes to cancer cells.
TL;DR: It is demonstrated that dispersion of single walled carbon nanotubes by ultrasonication with phospholipid-polyethylene glycol (PL-PEG) fragments it, thus interfering with its ability to block nonspecific uptake by cells, but unfragmented PL-P EG promoted specific cellular uptake of targeted SWNTs to two distinct classes of receptors expressed by cancer cells.