Effect of PANI on Thermal, Mechanical and Electromagnetic Properties of HDPE/LLDPE/PANI Composites

Faria, Patrick Valadão de; Backes, Eduardo Henrique; Montagna, Larissa Stieven; Pinto, Simone de Souza; Pessan, Luiz Antônio; Rezende, Mirabel Cerqueira; Passador, Fábio Roberto

doi:10.1590/1980-5373-mr-2017-0419

Cited by 3 publications

(4 citation statements)

References 32 publications

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“…Recently, the research work showed that the incorporation of compatiblizer, that is, maleic anhydride-grafted HDPE in the HDPE/LLDPE/PANI blend enhanced the homogeneity and the dispersion of PANI in compounds as well as the interaction between matrix and PANI, thereby increasing the stiffness of the compounds which in turn to the decrement in electric permittivity. 22 If the miscibility between the PANI and the polymeric matrix is well-controlled, this mixture has potential technological applications such as sensor and electronic devices. 22 In this study, a new and easy approach of processing the PANI with the conventional polymers was developed.…”

Section: Introductionmentioning

confidence: 99%

“…22 If the miscibility between the PANI and the polymeric matrix is well-controlled, this mixture has potential technological applications such as sensor and electronic devices. 22 In this study, a new and easy approach of processing the PANI with the conventional polymers was developed. The LNR was used as a carrier and compatibilizer in NR/LLDPE/PANI in order to improve the compound miscibility.…”

Section: Introductionmentioning

confidence: 99%

“…reported the increase in mechanical and conductivity properties of PE/PANI blends when the hydrogen bonding was formed between the PANI and the added compatibilizer (‐OH and ‐COOH functionalized PE). Recently, the research work showed that the incorporation of compatiblizer, that is, maleic anhydride‐grafted HDPE in the HDPE/LLDPE/PANI blend enhanced the homogeneity and the dispersion of PANI in compounds as well as the interaction between matrix and PANI, thereby increasing the stiffness of the compounds which in turn to the decrement in electric permittivity . If the miscibility between the PANI and the polymeric matrix is well‐controlled, this mixture has potential technological applications such as sensor and electronic devices …”

Section: Introductionmentioning

confidence: 99%

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Effect of conductive polyaniline in thermoplastic natural rubber blends on the mechanical, thermal stability, and electrical conductivity properties

Zailan

Chen

Shahdan

et al. 2019

J of Applied Polymer Sci

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This research was conducted to fabricate thermoplastic natural rubber/polyaniline (TPNR/PANI) blends via melt blending method using an internal mixer and followed by compression molding. The effects of PANI contents between 1 and 5 wt % PANI in the TPNR blends on the mechanical properties, thermal stability, electrical conductivity (impedance), and morphology observation were investigated. The TPNR/3 wt % PANI sample exhibited the highest tensile strength (3.7 MPa), elongation at break (583%), flexural strength (1.8 MPa), flexural modulus (37.0 MPa), and impact strength (7.1 kJ m −2 ). From the aspect of thermal properties, it was found that with the addition of PANI, the thermal stability of the TPNR/PANI increased. Comparing to nonconductive TPNR sample, the incorporation of PANI promoted the electrical conductivity characteristic to PANI-filled TPNR blends which showing a magnitude order of 10 −9 S cm −1 . Scanning electron microscopy micrograph revealed the good distribution of PANI at the optimum content (3 wt % PANI) in the TPNR blends and the good interaction between TPNR and PANI. It can be concluded that the TPNR blends incorporated with a low loading of PANI could be a newly good conductive material.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effect of conductive polyaniline in thermoplastic natural rubber blends on the mechanical, thermal stability, and electrical conductivity properties

Zailan

Chen

Shahdan

et al. 2019

J of Applied Polymer Sci

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“…During the immersion process in undoped PANI, the fabric turned a blue color (Figure 1B). This blue-colored PANI portrays the deprotonated state (emeraldine base), which is considered a non-conductive state [29][30][31]. Meanwhile, as shown in Figure 1C, immersion in PANI doped with pTSA produced green fabric.…”

Section: Fabrication Of Pani Fabricsmentioning

confidence: 99%

Antibacterial Performance of Protonated Polyaniline-Integrated Polyester Fabrics

et al. 2022

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During the last few years, there has been an increase in public awareness of antimicrobial fabrics, as well as an increase in commercial opportunities for their use in pharmaceutical and medical settings. The present study reports on the optimized fabrication of protonated polyaniline (PANI)-integrated polyester (PES) fabric. Para-toluene sulfonic acid (pTSA) was used to protonate the PANI fabric and thus grant it antibacterial performance. The results of a 1,1-diphenyl-2-picrylhydrazyl (DPPH) scavenging assay showed high antioxidant activity of protonated PANI fabric at a scavenging efficiency of 84.83%. Moreover, the findings revealed remarkably sensitive antibacterial performance of PANI-integrated fabric against the following Gram-positive bacteria: methicillin-resistant Staphylococcus aureus (MRSA), S. epidermidis, and S. aureus; and also against the following Gram-negative bacteria: P. aeruginosa, E. coli, and S. typhi. Attenuated total reflectance–Fourier transform infrared (ATR–FTIR) spectroscopy and energy dispersive X–ray fluorescence (EDXRF) were used to determine the changes in the structural and elemental compositions of PANI fabric upon treatment with bacterial strains. Electrochemical impedance spectroscopy (EIS) revealed that the electrical conductivity value of protonated PANI fabric decreased by one (1) order of magnitude against P. aeruginosa and S. aureus, from 3.35 ± 7.81 × 10−3 S cm−1 to 6.11 ± 7.81 × 10−4 S cm−1 and 4.63 ± 7.81 × 10−4 S cm−1, respectively. Scanning electron microscopy (SEM) analysis showed the disruption of bacterial membranes and their structures when exposed to protonated PANI fabric; meanwhile, thermogravimetric analysis (TGA) demonstrated that the fabric retained its thermal stability characteristics. These findings open up potential for the use of antimicrobial fabrics in the pharmaceutical and medical sectors.

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Conducting Low-Density Polyethylene/Polyaniline Blends for Antistatic Applications

Nur Ozkan,

Sirin,

Dogan

2024

Conductivity and Thermoplastic Elastomer Properties of Polypropylene Materials

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Intrinsically conducting polymers (ICPs) are utilized in numerous industrial sectors. ICPs’ electrostatic charge dissipative (ESD) properties are one of their most crucial application characteristics, particularly in electronics. Therefore, in this study, the mechanical, morphological, thermal, and ESD properties of low-density poly(ethylene) (LDPE) and polyaniline (PANI) blends were discussed. Blends were prepared by loading 0.5, 1.0, and 3 wt% of PANI into the LDPE matrix by solution blending method. Then, FT-IR, DSC, TGA, DMA, SEM, and X-RD techniques were used to analyze the interaction between PANI and LDPE. The thermal durability of polyethylene did not change with the addition of PANI. The addition of PANI to the LDPE matrix resulted in a melting temperature drop of about 1°C. However, the degree of LDPE crystallinity dramatically reduced as the amount of PANI in the blends increased. Additionally, the conductivity of the PANI/LDPE blends was determined to be in the range of 10−6–10−9 S cm−1. The antistatic decay curves showed that all blends can be used as ESD material at 3 kV corona voltage. Moreover, it has been seen that the LDPE blend, which is doped with 3% PANI by weight, can be used as negative and positive polarizable ESD material between −3 and 6 kV corona voltages.

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Effect of PANI on Thermal, Mechanical and Electromagnetic Properties of HDPE/LLDPE/PANI Composites

Cited by 3 publications

References 32 publications

Effect of conductive polyaniline in thermoplastic natural rubber blends on the mechanical, thermal stability, and electrical conductivity properties

Effect of conductive polyaniline in thermoplastic natural rubber blends on the mechanical, thermal stability, and electrical conductivity properties

Antibacterial Performance of Protonated Polyaniline-Integrated Polyester Fabrics

Conducting Low-Density Polyethylene/Polyaniline Blends for Antistatic Applications

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