Rahul Shankar scite author profile

Polyhedral oligomeric silsesquioxane (POSS) nanostructured chemicals, when incorporated at low levels in thermoplastics, provide processability enhancement and viscosity reduction without compromising other bulk physical properties. POSS has been relatively unexplored in high performance polymers, and there is incomplete understanding of the mechanisms by which POSS produces flow improvements. In this study, polyethersulfone (PES) was melt‐blended with trisilanolphenyl (TSP)‐POSS and dodecaphenyl (DP)‐POSS; and rheological, dielectric spectroscopy, and scanning electron microscopy evaluations were conducted to identify structure/property/processing relationships. TSP‐POSS yielded greater processability improvements and viscosity reductions than DP‐POSS, suppressed low temperature relaxations to a larger extent, and displayed a greater degree of nanoscale dispersion in the polymer matrix. The findings are evaluated in terms of competing theories of POSS viscosity reduction.

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Long-Chain Branched Polypentenamer Rubber: Topological Impact on Tensile Properties, Chain Dynamics, and Strain-Induced Crystallization

Weller

Halbach

Rohde

et al. 2021

ACS Appl. Polym. Mater.

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In this work, the effect of long-chain branching (LCB) on the tensile properties of sulfur-cured, unfilled, polypentenamer rubber (PPR) was investigated. Branched PPR, prepared by ring-opening metathesis copolymerization of cyclopentene (CP) and dicyclopentadiene (DCPD), showed improved mechanical strength, demonstrating more than 3 times higher tensile stress at 500% strain compared to its linear counterpart (a homopolymer of CP). In situ wide-angle X-ray scattering showed that branching units caused significant changes in the strain-induced crystallization (SIC). At low temperatures, linear PPR underwent rapid SIC after a critical stretch was reached, while branched PPR crystallized more slowly. However, SIC is not the cause of the enhanced mechanical strength. Elevated temperature experiments confirmed that even in the absence of SIC, LCB PPR exhibits a stiffer stress–strain response. We propose that the stiffer behavior of branched PPR is caused by a reduction in the chain mobility. The origins of reduced chain mobility are likely from topological constraints imposed by the LCB architecture and also from an unintended nanofiller effect created by microphase separation of DCPD-rich domains. The work described here is the initial investigation of adding branching units to PPR to improve the elastomer performance.

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Comparative Study of Mechanical Strength and Piezoelectric Coefficient of Post-processed Polyvinylidene Fluoride Nanofibrous Films

Satthiyaraju¹,

Ananthakumar²,

Shankar³

et al. 2022

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Balancing processing ease with combustion performance in aluminum/PVDF energetic filaments

et al. 2020

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Rahul Shankar

Synthesis of surface-functionalized, probe-containing, polymerized vesicles derived from ammonium bromide surfactants

POSS‐inducedrheological and dielectric modification of polyethersulfone

Long-Chain Branched Polypentenamer Rubber: Topological Impact on Tensile Properties, Chain Dynamics, and Strain-Induced Crystallization

Comparative Study of Mechanical Strength and Piezoelectric Coefficient of Post-processed Polyvinylidene Fluoride Nanofibrous Films

Balancing processing ease with combustion performance in aluminum/PVDF energetic filaments

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