Poly(propylene) Nanocomposites Containing Various Carbon Nanostructures

Li, Yunfeng; Zhu, Jiahua; Wei, Suying; Ryu, Jongeun; Wang, Qiang; Sun, Luyi; Guo, Zhanhu

doi:10.1002/macp.201100364

Cited by 87 publications

(59 citation statements)

References 56 publications

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“…[ 30 ] Moreover, rheology can detect the presence of complex morphologies, such as a percolated structure associated to the formation of a 3D network of nanoparticles along the nanocomposite, [ 42,43 ] This network changes the behavior of the melt matrix at low shear rates and low frequencies from a liquid-like Newtonian fl uid to a solid-like Hooke fl uid. The dependence of viscoelastic parameters on the concentration of carbon-based fi ller has been widely studied in the literature for polymer composites with CNTs, [44][45][46][47][48][49][50][51][52][53][54][55][56][57][58] but little has been addressed in composites with other fi llers such as graphite, [59][60][61] and/or TrGO. [ 36,45,60,62,63 ] Isotactic poly(propylene) nanocomposites with CNTs have a rheological percolation at concentrations between 0.3 and ≈ 3 wt%, [ 45,49,51,[56][57][58] while iPP/TrGO composites require concentration above 5 wt% to achieve rheological percolation, [ 45 ] showing that the size and aspect ratio of the carbon-based fi ller affect the melt rheology of the composite.…”

Section: Effect Of Carbon-based Particles On the Mechanical Behavior mentioning

confidence: 99%

“…Melting temperature, T m , was determined in the second scan and the degree of crystallinity was calculated from enthalpy of fusion data obtained from the DSC curves (209 J g was used for 100% crystalline material). [ 40,45,64 ] Rheological measurements were run on an ARES-G2, TA-Instruments rheometer with 25 mm parallel plate geometry conducting an isothermal frequency sweep at 190 °C with ω = 0.01-100 rad s −1 . All measurements were conducted in the linear (mechanical response) regime, with deformation amplitude γ 0 = 3%, and under nitrogen atmosphere to avoid oxidative degradation.…”

Section: Characterizationsmentioning

confidence: 99%

“…For instance, a variation of less than 5% in both X c and T m , was found between iPP ( T m ≈ 161.3 °C and X c ≈ 53%) and iPP + 10 wt% of TrGO ( T m ≈ 163.1 °C and X c ≈ 53%), similarly as reported by Guo and coworkers. [ 44,45 ] Therefore, changes in Young's modulus are just explained by the presence of the carbon-based particles rather than by changes in crystallinity. Figure 2 b shows the decrease in elongation at break of the different composites as the concentration of carbonbased fi llers is increased, especially when CNTs, TrGO, or both together (hybrid composites) were used.…”

Section: Mechanical Tensile Propertiesmentioning

confidence: 99%

See 2 more Smart Citations

Effect of Carbon-Based Particles on the Mechanical Behavior of Isotactic Poly(propylene)s

Garzón

Wilhelm

Abbasi

et al. 2016

Macromol. Mater. Eng.

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Artículo de publicación ISIDifferent carbon-based fillers such as carbon nanotubes (CNTs), graphite, and thermally reduced graphene oxide (TrGO) are melt mixed with an isotactic poly(propylene) (iPP) and the mechanical properties of the resulting composites in the solid and melt state are analyzed. The Young's modulus of composites is increased around 25% relative to the neat iPP at concentrations above 10 wt% of CNTs or graphite whereas composites with TrGO are increased around 40% at similar concentrations. These results are compared with theoretical models showing that the filler agglomeration and surface area are key parameters. The rheological results of the composites under oscillatory shear conditions at the melt state show that the viscous raw polymer melt experiences a solid-like transition at a threshold concentration that strongly depends on the filler used. This transition appears at 10 wt% for CNTs, 8 wt% for TrGO, and 40 wt% for graphite. The viscosity of iPP/TrGO composites is further increased by adding CNTs particles, although the Young's modulus does not increase.Comisión Nacional de Investigación Científica y Tecnológica (CONICYT)-Chile project FODECYT 115013

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Section: Effect Of Carbon-based Particles On the Mechanical Behavior mentioning

confidence: 99%

Section: Characterizationsmentioning

confidence: 99%

Section: Mechanical Tensile Propertiesmentioning

confidence: 99%

See 1 more Smart Citation

Effect of Carbon-Based Particles on the Mechanical Behavior of Isotactic Poly(propylene)s

Garzón

Wilhelm

Abbasi

et al. 2016

Macromol. Mater. Eng.

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“…The dielectric behavior [9] can be analyzed based on Debye-equation (2). The Cole-Cole plot or Argand plot displays dielectric spectra as ε''(ω) versus ε''(ω) and can be helpful for representing the relaxations in polymers.…”

Section: Advanced Engineering Forum Vols 8-9 355mentioning

confidence: 99%

“…In order to remove this circumstance is to use absorbing materials with dielectric EMC performances for projecting and designing shielding systems and structures. Nanocomposite dielectric materials containing conductive inclusions assigned randomly, including carbon nanotubes, at lower or higher concentrations can be used for shielding electromagnetic waves at RF and microwave frequencies [2]. Nonetheless, the request to reduce the weight and the cost of these "safety" structures requires the replacement of metal by novel materials like conducting polymers and composites.…”

Section: Introductionmentioning

confidence: 99%

Dielectric and Electromagnetic Behavior of Conductive Nanocomposites Polymers: PP/MWCNT Investigations for EMI Applications

Ursache

Ciobanu

Scarlatache

et al. 2013

AEF

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Abstract. The paper highlights the most important dielectric features for some nanocomposites polymer matrix based on polypropylene (PP) with insertion of carbon nanotubes multi-walled (MWCNTs). The dielectric characteristics analyzed are the real permittivity and dielectric losses of the sample based on PP with 5% insertion of MWCNTs. The measurements are made in a range of frequency between 1 MHz to 3 GHz. The composite form was also analyzed through computer modeling and simulation and electromagnetic properties for EMC shielding applications are also considered. PP/MWCNTs composite with shielding effectiveness of 15-20 dB was investigated through modeling and simulation at about 5% MWCNTs filling. Shielding mechanism was estimated by calculating the total shielding effectiveness (SE) into absorption and reflection loss. PP/MWCNTs composite indicates a shielding mostly by absorption mechanism; therefore it also can be used in other microwave applications or like a radar absorbing material. The effect of MWCNTs affects the electrical conductivity of the nanocomposite. The proposed material shows some interesting electromagnetic compatibility (EMC) properties and promises better performance using different amounts of MWCNT's.

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Positive Temperature Coefficient (PTC) Evolution of Segregated Structural Conductive Polypropylene Nanocomposites with Visually Traceable Carbon Black Conductive Network

Zhao

Liu

et al. 2017

Adv Materials Inter

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Electrically conductive carbon black (CB)/polypropylene (PP) nanocomposites with a segregated structure are fabricated by localizing CB particles at the interfaces among the PP granules. Interesting double‐peak positive temperature coefficient (PTC) effect when exposed to temperature field is observed and ascribed to the breakage of unique segregated conductive network due to the volume expansion stemming from the crystal melting of interfacial PP and the bulk PP matrix. With extending thermal treatment time, the PTC intensity first increases and then decreases obviously. Long treatment time is required for the composites with high CB loadings to reach the PTC intensity maximum value. This phenomenon is attributed to the evolution of segregated microstructure during the thermal treatment, which is traced visually in situ through an optical microscope (OM). The diffusion due to the concentration gradient and the subsequent aggregation of CB particles lead to this behavior. A model based on the OM observation is proposed to reveal the origin of this novel resistivity‐temperature behavior.

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Poly(propylene) Nanocomposites Containing Various Carbon Nanostructures

Cited by 87 publications

References 56 publications

Effect of Carbon-Based Particles on the Mechanical Behavior of Isotactic Poly(propylene)s

Effect of Carbon-Based Particles on the Mechanical Behavior of Isotactic Poly(propylene)s

Dielectric and Electromagnetic Behavior of Conductive Nanocomposites Polymers: PP/MWCNT Investigations for EMI Applications

Positive Temperature Coefficient (PTC) Evolution of Segregated Structural Conductive Polypropylene Nanocomposites with Visually Traceable Carbon Black Conductive Network

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