Abstract
This paper summarizes a review of the viscosimetric, viscoelastic and rheological properties of polymers and hybrid nanocomposite polymers. Hybrid nanocomposites can be combined from natural fibers or synthetic fibers and/or both. The hybrid nanocomposite polymer offers the designer the opportunity to achieve the required characteristics to a considerable extent controlled by the choice of appropriate fibers or fillers and the polymer architecture. The rheological behavior of hybrid nanocomposite depends on fiber content, fiber length, fiber orientation, fiber-to-matrix bonding, fiber configuration and filler, respectively. Further, rheological properties of hybrid nanocomposite polymers by introducing various charges were examined discussed.
Highlights
Hybrid nanocomposite polymers are more developed than traditional fiber-reinforced nanocomposite polymers [1, 2]
Polymeric nanocomposites reinforcing by various loads such as silica covered by argent nanowires, silica covered by carbon nanotube, multi-walled carbon nanotube, silicone rubber and boron nitride nanosheets presented an excellent rheological and thermal properties [13, 14, 15, 16, 17]
El Gouri et al [19] studied the viscosimetric behavior as a function of temperature of different epoxy prepolymers such as diglycidyl ether of bisphenol A (DGEBA), diglycidyl ether of diphenylsulfone (DGEDDS), diglycidyl ether of diphenyl (DGEDP), tetraglycidyl methylene dianiline (TGMDA), tetraglycidyl ethylene dianiline (TGEDA) and tetraglycidyl 4-amino benzene sulfonamide (TGABSA) (Figure 2) [19]
Summary
Hybrid nanocomposite polymers are more developed than traditional fiber-reinforced nanocomposite polymers [1, 2]. Polymeric nanocomposites reinforcing by various loads such as silica covered by argent nanowires, silica covered by carbon nanotube, multi-walled carbon nanotube, silicone rubber and boron nitride nanosheets presented an excellent rheological and thermal properties [13, 14, 15, 16, 17]. The objective of this present work is to conduct a careful review on viscosimetric, viscoelastic and rheological behaviors of polymers and hybrid nanocomposite polymers
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