Experimental study of the processing parameters of polymer conductive semicrystalline polymer composites with carbon black

Ibarrola, Jose Manue Ayala; López, Susana Hernández; Vigueras-Santiago, Enrique; Alaniz-Pérez, Javier; Pérez-Valverde, Maritza Iveth

doi:10.1177/0892705713486136

Cited by 7 publications

(4 citation statements)

References 48 publications

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“…The resistance increase during return was determined due to the hybrid composite’s low filler content 35,36 (7 phr CB and 1 phr GE termed HNGE01) due to the excess rubber matrix. Even when the strain values for this material (HNGE01) went up to 5%, sometimes remarkably high resistance measurements were taken, and the material showed an insulator character.…”

Section: Resultsmentioning

confidence: 99%

Investigation of crack detection properties of elastomer-based nanocomposites under cyclic strain loading with graphene and carbon black interaction filler

Kasım

Boztoprak

Yazıcı

2022

Journal of Thermoplastic Composite Materials

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In this study, the synergistic effect created by adding Graphene (GE) nanoplatelets and carbon black (CB) fillers to the rubber matrix was used to determine the high stretchable sensor properties. GE and CB-filled rubber nanocomposite (HcN) strain sensors have been shown to detect and trace crack initiation and crack propagation of different sizes under cyclic loading. Tests were performed with four different crack sizes (0, 2.5, 5, and 10 mm) at five different strain levels (0%, 5%, 10%, 15%, and 20%) to determine the strain sensing performance of the specimens. The electrical response of HcNs under loading was measured with the four-point probe technique and recorded with a high-performance data acquisition system. The progression of external cracks created by scalpel on HcNs was examined by measuring electrical resistance changes caused by cyclic strain loading between 0% and 20%. The electrical response of 4 phr and 8 phr filled HcNs behaved qualitatively similar to each other, while 1 phr filled HcNs showed a significantly different response in terms of quality and quantity. In 4 phr GE-filled specimens, the resistance increase was changed steadily depending on the crack length, and unstable conditions occurred at 5 and 10 mm crack lengths at 1 and 8 phr GE filler ratios. The flexible and stretchable elastomer-based conductive strain sensing sensors, developed with the synergistic interaction of well-dispersed carbon-based fillers in the matrix, can detect and record damaged conditions caused by cyclic loading in many application areas.

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Section: Resultsmentioning

confidence: 99%

Investigation of crack detection properties of elastomer-based nanocomposites under cyclic strain loading with graphene and carbon black interaction filler

Kasım

Boztoprak

Yazıcı

2022

Journal of Thermoplastic Composite Materials

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“…They reported that it was possible to prepare a conductive material with a lower concentration of conductive particles (the critical concentration was calculated as 13.7 wt.% CB for LDPE and 4.9 wt.% CB for it-PP) by improving the processing conditions for composites. 21 Oil additives have long been utilized as a processing aid in the polymer sector due to their several benefits. They improve the dimensional stability of extruded materials, reduces molding filling time and curing cycle time, improves the ozone resistance of the rubber compound, minimizes plasticizer migration to the surface of rubber component, and have capability to regulate flow under mechanical pressure.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Role of formulation additives on the properties of thermoplastic polyether ester elastomer-based and carbon fabric-reinforced multilayer composites

Yasar

Çelebi

Bayram

2022

Journal of Thermoplastic Composite Materials

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In this study, multilayer carbon fabric-reinforced composites (CFRC) were manufactured by compression molding technique with the combination of carbon fabric and thermoplastic polyether ester elastomer (TPEE) composites. The TPEE-based polymer layers were prepared as binary, ternary, and quaternary composites using carbon black (CB) or N-(β-aminoethyl)-γ-aminopropyl-trimethoxysilane (AEAP) modified carbon black (mCB), ethylene-glycidyl methacrylate copolymer (EGMA) and/or paraffin oil. The effects of formulation additives on multilayer CFRC were investigated in terms of their mechanical, electrical resistivity, electrically stimulated shape memory properties and morphologies. Tensile modulus of neat TPEE included multilayer CFRC increased slightly with the addition of both mCB and oil to TPEE. The highest impact strength of 112.2 kJ/m2 was obtained for TPEE-mCB-EGMA-Oil containing CFRC multilayer composites, which was 30% higher than CFRC with neat TPEE. All modified and reinforced CFRC exhibited higher electrical conductivities than neat TPEE containing CFRC. Electrically triggered bending test showed that combination of TPEE, mCB, EGMA and oil together with carbon fabric in multilayer structure revealed 80% shape recovery ratio within less than 2 min.

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“…Most of the polymer composites are produced in liquid phase, in a melt stage, or in monomer or polymer dissolution. In both cases, a suspension is always formed and it has been studied that the resistivity control for melt polymer composites is also dependent on processing parameters such as mixing time, temperature, rotor speed, molding time, temperature, and pressure at molding [43][44][45][46][47][48][49]. For a composite obtained by in situ method that consists in making first a dispersion of carbon particles into the monomer and then a subsequent polymerization of that suspension, the optimization of the processing parameters is more difficult.…”

Section: Introductionmentioning

confidence: 99%

Relationship between Polymer Dielectric Constant and Percolation Threshold in Conductive Poly(styrene)‐Type Polymer and Carbon Black Composites

Martínez

López

Vigueras-Santiago

2015

Journal of Nanomaterials

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We study the effect of dielectric constant of some poly(styrene)-type polymer matrix on the percolation threshold in conductive polymer composites with carbon black (CB). We demonstrate that percolation threshold diminishes with an increment of the dielectric constant of polymer matrix. We chose polystyrene and other three polymers similar in structure and molecular weight but with different chemical nature. The corresponding dielectric constant and critical concentration,Xc, in volume fraction of carbon black, v/v CB, were the following: 4MePS(ε=2.43; Xc=0.058), PS(ε=2.60; Xc=0.054), 4BrPS(ε=2.82; Xc=0.051), and 4ClPS(ε=2.77; Xc=0.047). The correlation between both parameters confirms that the percolation threshold decreases while the dielectric constant increases. At microscopic level, this effect is attributed to an enhanced physical interaction of the CB particles with the asymmetric electric density produced by electronegative or inductive atoms/groups. Therefore, by controlling the chemical structure of the polymer matrix, the attraction forces between the polar groups on the carbon black surface particles with those of the polymer matrix can be improved, which in turn induces a better disaggregation and dispersion of those particles into the polymer matrix, allowing the percolation threshold reached at a lower filling fraction.

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Experimental study of the processing parameters of polymer conductive semicrystalline polymer composites with carbon black

Cited by 7 publications

References 48 publications

Investigation of crack detection properties of elastomer-based nanocomposites under cyclic strain loading with graphene and carbon black interaction filler

Investigation of crack detection properties of elastomer-based nanocomposites under cyclic strain loading with graphene and carbon black interaction filler

Role of formulation additives on the properties of thermoplastic polyether ester elastomer-based and carbon fabric-reinforced multilayer composites

Relationship between Polymer Dielectric Constant and Percolation Threshold in Conductive Poly(styrene)‐Type Polymer and Carbon Black Composites

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