Influence of Oxidation Degree of Graphene Oxide on the Shear Rheology of Poly(ethylene glycol) Suspensions

Soares, Yago Chamoun F.; Cargnin, Elyff; Naccache, Mônica F.; Andrade, Ricardo

doi:10.3390/fluids5020041

Cited by 16 publications

(7 citation statements)

References 46 publications

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“…Due to the hydrophilic feature of GO, [ 13 ] it presents higher chemical affinity with polar polymers. [ 17–21 ] Li et al [ 20 ] showed the influence of different oxidation degrees of GO on its structure and on the poly (vinyl alcohol)/graphene oxide (PVA/GO) composite properties. They observed that the higher the amount of oxidizing agent (KMnO 4 ) added to the synthesis of GO, the higher the oxidation degree of it.…”

Section: Introductionmentioning

confidence: 99%

Tailoring the graphene oxide chemical structure and morphology as a key to polypropylene nanocomposite performance

et al. 2021

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In this work, we designed and studied two synthetic routes, based on modified Hummers method, to obtain graphene oxide (GO), and investigated their influence on the performance of polypropylene (PP)/GO nanocomposites. The two synthetic routes differed in the application condition of the oxidizing agent, potassium permanganate (KMnO4), which was added either as a powder (GO‐P) or as a water solution (GO‐S). This apparently subtle synthetic change yielded GOs with different degrees of oxidation and particle sizes, where GO‐P presented a higher oxidation degree and smaller particles. The different GOs were then melt‐blended with PP and the correlation between their different chemical/morphological structures and the nanocomposites' thermomechanical/rheological properties were evaluated. The milder oxidation process suffered by GO‐S, and consequent less hydrophilic character, yielded a PP/GO‐S nanocomposite with improved performance as the consequence of a better matrix/filler chemical affinity, mainly in compositions with lower GO‐S contents. The thermal stability was increased by more than 10°C when 0.1 wt% GO‐S was inserted into PP. When compared to the composition with 0.1 wt% GO‐P, the increase was 13°C. Reinforcing effects were also observed in that sample (with 0.1 wt% GO‐S), which exhibited the highest storage modulus and complex viscosity. These results suggest that tailoring the GO's oxidation degree and morphology is a key point to obtain an ideal interfacial interaction between phases.

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Section: Introductionmentioning

confidence: 99%

Tailoring the graphene oxide chemical structure and morphology as a key to polypropylene nanocomposite performance

et al. 2021

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“…Hereσ [i] represents the decreasing order values ofσ for which a stable aligned solution is found. For the first value,σ = σ [1], we use the stable solution of a rigid undeformed body oriented at φ c as the initial guess, and for the second, and slightly reduced, valueσ [2], we use the final profile from the previous step as the initial guess. For the following steps, the last two profiles forσ [i − 1] andσ [i − 2] are used to approximate an initial guess of the profile for the givenσ [i].…”

Section: -6mentioning

confidence: 99%

Alignment of a flexible platelike particle in shear flow: Effect of surface slip and edges

2021

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Rigid platelike particles displaying interfacial slip can attain a constant orientation in a shear flow when the slip length is sufficiently large. But actual thin particles such as single-layer graphene are flexible and prone to bending deformations when exposed to shear stress. To study the effect of bending deformation on the dynamics of flexible platelike particles with large interfacial slip in a shear flow, we develop a two-dimensional (2D) fluid-structure interaction model. Our model is based on coupling the Euler-Bernoulli beam equation with a boundary integral method to solve the hydrodynamic stress at the particle surface. Emphasis is placed on resolving accurately the stress distribution at the edges of the particle. We find that (i) a stable alignment occurs even for relatively flexible particles and that (ii) edges effects on the shape of the plate are important for values of the length-to-thickness aspect ratio as large as 100. Our results are particularly relevant in view of recent research on the hydrodynamics of suspended flexible sheets made of 2D nanomaterials.

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“…In the particular case of 2D particle suspensions and molten composites, several works report either Newtonian or non-Newtonian flow behavior, thixotropicity, macroscale superlubricity, capability of forming particle network under shear flow, the presence of negative-to-positive normal stress first difference, and rheological responses similar to rod-like liquid crystal polymers as the main under-flow features [ 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 20 , 21 , 22 , 23 , 24 , 25 , 26 ]. Except for the work by Arapov and coworkers [ 22 ], the aforementioned studies have been carried out at a single temperature (room temperature in most cases) or within a small range of temperatures.…”

Section: Introductionmentioning

confidence: 99%

Rheology of Conductive High Reactivity Carbonaceous Material (HRCM)-Based Ink Suspensions: Dependence on Concentration and Temperature

et al. 2022

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The present case study reports a shear rheological characterization in the temperature domain of inks and pastes loaded with conductive High Reactivity Carbonaceous Material (HRCM) consisting mainly of few-layers graphene sheets. The combined effect of filler concentration and applied shear rate is investigated in terms of the shear viscosity response as a function of testing temperature. The non-Newtonian features of shear flow ramps at constant temperature are reported to depend on both the HRCM load and the testing temperature. Moreover, temperature ramps at a constant shear rate reveal a different viscosity–temperature dependence from what is observed in shear flow ramps while maintaining the same filler concentration. An apparent departure from the well-known Vogel–Fulcher–Tamman relationship as a function of the applied shear rate is also reported.

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Influence of Oxidation Degree of Graphene Oxide on the Shear Rheology of Poly(ethylene glycol) Suspensions

Cited by 16 publications

References 46 publications

Tailoring the graphene oxide chemical structure and morphology as a key to polypropylene nanocomposite performance

Tailoring the graphene oxide chemical structure and morphology as a key to polypropylene nanocomposite performance

Alignment of a flexible platelike particle in shear flow: Effect of surface slip and edges

Rheology of Conductive High Reactivity Carbonaceous Material (HRCM)-Based Ink Suspensions: Dependence on Concentration and Temperature

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