Microstructure and dynamic mechanical analysis of extruded layered silicate PVC nanocomposites

Romero-Guzmán, María Eugenia; Romo-Uribe, Ángel; Ovalle-García, Erasmo; Olayo, Roberto; Cruz‐Ramos, C. A.

doi:10.1002/pat.1098

Cited by 39 publications

(42 citation statements)

References 49 publications

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“…The high‐resolution TEM micrograph of Figure C clearly shows that the intercalated nanoplatelets have separated about 6 nm but remained spatially correlated, thus giving rise to coherent X‐ray diffraction . Note that the neat nanoclay has a gallery spacing of 1.2 nm . Image analysis of the high‐resolution TEM micrographs enabled the quantification of the degree of intercalation and revealed a range of gallery spacing d 001 varying from 4.5 nm and as high as 10 nm, as shown in the histogram in Figure D.…”

Section: Resultsmentioning

confidence: 93%

“…The confinement in polymer nanocomposites is understood as (1) polymer chains constrained to layered silicates, (2) polymer chains inside nanopores or nanocylinders, or (3) inorganic nanoparticles and hybrids (ie, silica, alumina, and POSS) dispersed in a polymer matrix where polymer fractions would be located in highly confined regions between closely packed filler particles …”

Section: Introductionmentioning

confidence: 99%

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Polymers in 2D confinement: A nanoscale mechanism for thermo‐mechanical reinforcement

Romo-Uribe

2017

Polymers for Advanced Techs

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Acrylate-clay nanocomposites, a 2D confined system, exhibited unusual increase of thermo-mechanical properties. The nature of this reinforcement can be ascribed to chain dynamics modification and therefore investigated via dynamic mechanical analysis. Transmission electron microscopy and dynamic light scattering showed a strong nanoconfined regime, 2R h ≫ d 001 , where R h is the polymer's hydrodynamic radius and d 001 is the clay gallery spacing.The geometrical constraints to polymer dynamics led to significant enhancement of the thermo-mechanical properties. Adding only 1 wt% nanoclay, the glass transition temperature increased significantly, ΔT g = T g − T g,bulk~1 0°C, and the dynamic modulus E′ increased 10-fold.Analysis of dynamic mechanical spectra showed an increase of relaxation time τ, ie, polymer dynamics retardation. Furthermore, the mechanical damping tan δ was strongly attenuated evidencing the reduction of viscous dissipation. The activation energy E a of the α-transition increased as the confined macromolecules needed to overcome higher energy barriers to achieve configurational rearrangements. The considerable increase of mechanical modulus cannot be explained by polymer composite models, rather it was associated to a "nano-effect," scaling with the degree of confinement as E/E matrix~( 2R h /d 001 )n . This study paves the road for further understanding of polymer dynamics under 2D confinement and the reinforcement mechanism of thermo-mechanical properties. 1-3 Hybrid nanoparticles are also successful to produce nanocomposites with more robust physical properties and are also being used to produce smart, shape memory polymeric networks with tailored thermo-mechanical properties. 4,5The addition of nanoclays, ie, layered silicates, to glassy and semicrystalline polymers has produced nanocomposites with enhanced mechanical, thermal, and barrier properties. For recent reviews, see Paul and Robeson 3 and Ray and Okamoto. 6 It is noted however that polymers (glassy and semicrystalline) with nanoclay concentrations in excess of 10 wt% led to relatively modest enhancement of mechanical properties, and the degree of property enhancement varies broadly according to the type of nanoclay used and the surface treatment. Furthermore, the concentration of nanoclays used also varies greatly and higher concentrations (>10%) appear contrary to the assumption that rather small concentrations of nanofiller would enhance the physical properties. 2,3It is believed that the macromolecular nanoconfinement found in, for instance, intercalated morphologies of layered silicate nanocomposites would be responsible to a larger extent for the changes of thermomechanical properties. For instance, confinement has induced lowering or increasing of the glass transition temperature, T g , in glassy polymer nanocomposites. The reduction of T g in confined small molecule glassy materials was first documented by McKenna et al. 7 The confinement in polymer nanocomposites is understood as (1) polymer chains constrained to layere...

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Section: Resultsmentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Polymers in 2D confinement: A nanoscale mechanism for thermo‐mechanical reinforcement

Romo-Uribe

2017

Polymers for Advanced Techs

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“…Among other polymers, PVC is one of the major thermoplastics used today (worldwide production is thought to be 36 million tons per year) [9]. Due to its interesting properties, various PVC composites have been prepared by dispersing double hydroxides [10], CaCO 3 [11,12], metal oxides [12], multiwall carbon nanotubes [13], C-60 [14], polyaniline, a conducting polymer [15], and silica [16,17]. Soong et al have reported the feasibility of using copper nanoparticledispersed PVC nanocomposites toward environmental remediation techniques, such as antifungal and bacteriostatic applications [18].…”

Section: Introductonmentioning

confidence: 99%

Novel thermally stable poly(vinyl chloride) composites for sulfate removal

Nadagouda

Pressman

White

et al. 2011

Journal of Hazardous Materials

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“…A considerable amount of work has already been accomplished in the past few decades toward this target . Previously, fillers such as wood flour , clay , wood fibers , agricultural residues , cellulose whiskers , and calcium carbonate were employed to improve the thermal and mechanical stability of PVC. Recently, CNT have also been recognized as an appropriate filler material for PVC .…”

Section: Introductionmentioning

confidence: 99%

The effect of graphene nanosheets on the mechanical properties of polyvinylchloride

et al. 2014

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In this work, excellent improvement in mechanical properties was observed by incorporating graphene nanofillers in polyvinyl chloride via solution blending. About 63% increase in modulus and 19% increase in ultimate tensile strength were measured at 1.5 wt% nanofiller content while almost no drop in elongation at break was observed. POLYM. COMPOS., 37:1572–1576, 2016. © 2014 Society of Plastics Engineers

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Microstructure and dynamic mechanical analysis of extruded layered silicate PVC nanocomposites

Cited by 39 publications

References 49 publications

Polymers in 2D confinement: A nanoscale mechanism for thermo‐mechanical reinforcement

Polymers in 2D confinement: A nanoscale mechanism for thermo‐mechanical reinforcement

Novel thermally stable poly(vinyl chloride) composites for sulfate removal

The effect of graphene nanosheets on the mechanical properties of polyvinylchloride

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