An investigation on mechanical, electrical, and rheological characteristics of ultra‐high molecular weight (UHMW)‐EPDM/PP blends‐based conductive thermoplastic vulcanizates (CTPVs)

Bhattacharya, Asit Baran; Parathodika, Arshad Rahman; Ganguly, Debabrata; Naskar, Kinsuk

doi:10.1002/pen.26092

Cited by 4 publications

(7 citation statements)

References 55 publications

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“…As a vital component of every wheel, tire consumption is anticipated to increase in the coming years, which will hasten the development of waste tire stockpiles 2 . According to a report by the European Tire & Rubber Manufacturers Association (ETRMA), the globe needs to dispose of some 800 million worn tires and the value is supposed to grow by about 2% each year 3 . The need to implement appropriate legislation and regulations for the proper disposal of tire stockpiles has been driven by the inevitable circumstances that have led to the creation of End‐of‐Life Tires (ELTs).…”

Section: Introductionmentioning

confidence: 99%

Effects of tire‐derived pyrolytic carbon black and pyrolytic heavy oil on the curing and mechanical properties of styrene‐butadiene rubber composites

Paul

Rahaman²,

Ghosh

et al. 2023

Polymer Engineering & Sci

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To investigate the potential effect of the pyrolytic carbon black (CBp) and pyrolytic heavy oil (HO), we incorporated them into styrene‐butadiene rubber (SBR) as reinforcing filler and plasticizing agent, respectively. Since the industrial N330 CB's specific surface area and other specifications adhere to the CBp standard, it has been selected as a benchmark. To test HO's applicability, conventional (AO) was substituted with it. We experimented with the N330 and CBp in the 1/1 variant. We examined the impacts on the cure behavior, physical characteristics such as density and hardness, mechanical properties, abrasion resistance, dynamic mechanical performance, and thermal properties of the filled SBR composites. According to field emission (FESEM) and transmission electron microscopy (TEM) micrographs, the increased tensile and tear strength is due to N330 black's superior dispersion over CBp in the rubber matrix. Better dispersion in N330 type CB is also justified by lower tan δmax from the dynamic mechanical analysis (DMA) study. Utilizing HO changes the curing conditions since it comprises more sulfur, which accelerates the formation of sulfur–sulfur cross‐links. Increased tensile and tear strengths, as well as improved dispersion in the rubber matrix, have been seen with the combined use of N330 and CBp. Meanwhile, HO could function well in place of commercially available AOs.Highlights The impact of scrap tires on human health and the environment is explored. Recovered carbon black (CB) from waste tire mixed with styrene‐butadiene rubber in various ratios. Pyrolytic oil is also incorporated to check its reusability in tire formulation. Similar cure characteristics and mechanical strength were found in the composites. Replacement of the conventional CB is proposed with recovered black.

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Section: Introductionmentioning

confidence: 99%

Effects of tire‐derived pyrolytic carbon black and pyrolytic heavy oil on the curing and mechanical properties of styrene‐butadiene rubber composites

Paul

Rahaman²,

Ghosh

et al. 2023

Polymer Engineering & Sci

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“…As a result of ascending usage of TPVs in different applications, realizing their mechanical behavior becomes more substantial and challenging. [1][2][3][4][5][6][7][8][9] The addition of nanofillers into PP/EPDM composite can enhance the properties such as modulus, strength and stiffness. In addition to mechanical properties, an enhancement in preferable characteristics like barrier, thermal, flame retardancy and electrical properties is achieved.…”

Section: Introductionmentioning

confidence: 99%

“…In recent years, thermoplastic vulcanizes (TPVs) blends of polypropylene (PP) and ethylene propylene diene monomer (EPDM) have always been as one of the most extensively used in industrial applications such as building, industrial market, automobile and aviation industry due to superior mechanical properties, high fracture toughness behavior, simple processability and low cost. As a result of ascending usage of TPVs in different applications, realizing their mechanical behavior becomes more substantial and challenging 1–9 . The addition of nanofillers into PP/EPDM composite can enhance the properties such as modulus, strength and stiffness.…”

Section: Introductionmentioning

confidence: 99%

Effects of graphene network formation and its correlation with microstructure and mechanical properties in dynamically vulcanized PP/EPDM composites reinforced with few‐layer graphene

Haghnegahdar

2023

J of Applied Polymer Sci

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In this study, the effects of graphene network formation on stress–strain behavior and different mechanical properties in PP/EPDM nanocomposites were investigated. TEM observation clarified that up to the optimum content of nanoparticles, the efficient networks of graphene formed which heightened the nanocomposites tolerance against different mechanical loads. The efficiency of graphene networks in arresting crack along with the mechanisms through which they dissipate energy were extensively examined. SEM observations from the fracture surface of impact test indicated that as a result of these networks, the cracks perpendicular to the load directions were formed which efficiently assisted the nanocomposite in dissipating energy and/or hindering further development of cracks and the premature failure in PP/EPDM samples. The stress–strain behavior of resultant nanocomposites was also studied by Arruda–Boyce hyperelastic model which can predict the behavior of nanocomposites with a high degree of accuracy that is rooted in the increased interaction between graphene and polymer matrix by graphene network formation. Exceeding the optimum content, the agglomerations form and results in deviation of experimental results with the model predictions. The findings of this model also substantiated the efficiency of graphene networks in developing a load‐resistant the microstructure of PP/EPDM nanocomposites.

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“…Among them, all-organic dielectric polymer composites obtained by using organic polymers as fillers is a very effective and promising strategy. [19][20][21] There are two advantages by using organic polymer as fillers: (1) their electrical conductivity can be adjusted over a wide range;…”

Section: Introductionmentioning

confidence: 99%

“…Among them, all‐organic dielectric polymer composites obtained by using organic polymers as fillers is a very effective and promising strategy. [ 19–21 ] There are two advantages by using organic polymer as fillers: (1) their electrical conductivity can be adjusted over a wide range; (2) the interaction between fillers and matrix is better than inorganic filler/organic polymer‐based composites, which leads to better mechanical properties. [ 5 ] For example, using organic polymers such as copper phthalocyanine, polypyrrole, polyaniline, etc., as fillers to fill the polymer matrix can well maintain the flexibility of the matrix.…”

Section: Introductionmentioning

confidence: 99%

Electric field‐assisted preparation of PANI/TPU all‐organic composites with enhanced dielectric permittivity and anisotropic optical properties

Ren

Liu

et al. 2022

Polymer Engineering & Sci

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To meet the demands of multifunctional applications, developing functional composites with excellent properties (such as high dielectric permittivity, good mechanical properties, and anisotropic optical transmittance) is urgent. In this regard, preparing composites with all‐organic components is a promising strategy. Herein, we demonstrated a simple and time‐saving method for assembling and aligning polyaniline (PANI) particles in the TPU matrix by an AC electric field. The alignment of PANI in the polymer matrix not only obviously enhances dielectric permittivity but also effectively increases optical anisotropy. At the same filler loading content, the dielectric permittivity of aligned composites prepared under 10 Hz electric fields is 10.63 (10−1 Hz), which is higher than the dielectric property of random composites (8.58). The kinetics of aligning process of PANI particles are systematically studied by in situ optical microscope while an AC electric field is applied. We believe that this research work provides a potential solution to increase both dielectric permittivity and optical anisotropy of composites by the alignment of organic fillers via an electric field, which is essential for future flexible wearable electronics.

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An investigation on mechanical, electrical, and rheological characteristics of ultra‐high molecular weight (UHMW)‐EPDM/PP blends‐based conductive thermoplastic vulcanizates (CTPVs)

Cited by 4 publications

References 55 publications

Effects of tire‐derived pyrolytic carbon black and pyrolytic heavy oil on the curing and mechanical properties of styrene‐butadiene rubber composites

Effects of tire‐derived pyrolytic carbon black and pyrolytic heavy oil on the curing and mechanical properties of styrene‐butadiene rubber composites

Effects of graphene network formation and its correlation with microstructure and mechanical properties in dynamically vulcanized PP/EPDM composites reinforced with few‐layer graphene

Electric field‐assisted preparation of PANI/TPU all‐organic composites with enhanced dielectric permittivity and anisotropic optical properties

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