Manual Thermal Properties of Green Polymers and Biocomposites

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Use the link below to share a full-text version of this article with your friends and colleagues. Learn more. Effect of polyaniline nanofiber mass ratio on the polymer nanocomposite properties was studied. Polyaniline nanofiber composites with carbon nanotubes were also dispersed in polymer matrix. The thermal stability and flammability properties of the polymer nanocomposites were investigated.

The rate of burning of polymer nanocomposites achieved The effect of polyaniline nanofibers composites on the flammability of polymer nanocomposites was also studied. Polyaniline nanofibers and their composites were characterized using Fourier transform infrared spectroscopy and transmission and scanning electron microscopy. The dispersion of polyaniline nanofibers in polymer nanocomposites was characterized using transmission electron microscopy.

The different polymer nanocomposites were characterized using thermogravimetric analysis, UL94 flame chamber, and cone calorimeter tests. Volume 27 , Issue 8. The full text of this article hosted at iucr. The electrolyte was 0.

Thermal Properties of Green Polymers and Biocomposites

Due to these hindrances, so far limited success has been achieved in moving lignin utilization from a laboratory scale to an industrial scale. From a technological point of view, some hindrance in the use of lignin as reinforcement, especially the incompatibility with polymer matrices and other factors, should be taken into account. Graft copolymerization is one of the techniques that may be used to alter the surface characteristics of the lignin to make it compatible for the targeted applications.

In addition to this, considerable attention should be given to the development of a better understanding of the physics and chemistry of the lignin molecule. She received her B. Biographies Dr. Prasanth received his Ph. He completed his B. Tech and M. His Ph. After his Ph.

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In , Dr. After four years in Singapore, Dr. Prasanth Dr. A, since September In his academic carrier, he has published more than 70 SCI journal research articles in dx. Pulickal M. His current research focuses on nanoscale materials and polymer composites for printed and light-weight charge storage solutions including high temperature supercapacitors and batteries. Fabrication of biodegradable poly trimethylene carbonate networks for potential tissue engineering scaffold applications.

Polylactiderecycled wood fiber composites. Microcellular injection-molding of polylactide with chain-extender. Processing and mechanical characterization of lightweight polyurethane composites. Development of self-reinforced polymer composites. Damage detection of rubber toughened nanocomposites in the fracture process zone using carbon nanotubes. Nanoindentation behaviour of layered silicate reinforced unsaturated polyester nanocomposites.

Water sorption isotherms of kraft lignin and its composites. Bionanocomposites from lignocellulosic resources: Properties, applications and future trends for their use in the biomedical field.

Thermal Properties of Green Polymers and Biocomposites

Processing strategies in bionanocomposites. Rheological properties and microstructures of cellulose acetate Dr.

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  • Michael R. His research and teaching interests are in the mechanics, processing, and characterization of polymer matrix composites, nanocomposites, and bio-based polymers. Prior to joining the faculty at Washington State University in August , he held faculty positions at Iowa State University, where he was most recently the Wilkinson Professor in Interdisciplinary Engineering, and the University of Tulsa. He obtained his Ph.

    Surface properties and biocompatibility of cellulose acetates. Influence of the substitution degrees on the optical properties of cellulose acetates. Post-impact static and cyclic flexural characterisation of hemp fibre reinforced laminates. Renewable resourcebased green polymer composites: Analysis and characterization.

    Graft copolymers from cellulose: Synthesis, characterization and evaluation. Synthesis of lignocellulosic polymer with improved chemical resistance through free radical polymerization. Effects of lignin content on the properties of lignocellulose-based biocomposites. Preparation of board-like moldings from composites of isolated lignins and waste paper II: Effect of inorganic salt addition on board performance and evaluation of practical use of MDF.

    Wood Sci. Chemical resistance, mechanical and physical properties of biofibers-based polymer composites. A review on the degradability of polymeric composites based on natural fibres. Mechanical, morphological and thermal properties of pine needle-reinforced polymer composites.

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    • Synthesis and characterization of short Grewia optiva fiber-based polymer composites. Physicochemical and mechanical behavior of cellulosic pine needle-based biocomposites. Green composites from natural fibers: Mechanical and chemical aging properties. Natural cellulosic polymers as potential reinforcement in composites: Physicochemical and mechanical studies. Preparation and colloidal properties of an aqueous acetic acid lignin containing polyurethane surfactant. Lignin-based polyurethane doped with carbon nanotubes for sensor applications.

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