V. Sangeetha scite author profile

The finite availability of petroleum and environmental considerations has given emphasis on the development of raw materials for polymers from renewable resources. Polymers from renewable resources are expected to gain great momentum nowadays as petroleum resources become less secure. The use of biopolymer blends and composites can bring out a revolution in the field of automobile, pharmaceutical, packaging industry, etc. Poly(lactic acid) or polylactide (PLA) is the most extensively researched and utilized biodegradable and renewable thermoplastic polyester, with a potential to replace conventional petrochemical‐based polymers. Besides its relatively high tensile strength and modulus compared to other thermoplastics such as polyethylene terephthalate, polypropylene, the low impact strength and less heat tolerance of the material makes it inadequate for more demanding applications. It is the most promising material for the production of environment friendly high performance products. It is proven to be superior to conventional plastics in terms of energy consumption and carbon dioxide emission in life cycle analysis. The general purpose of this review is to introduce PLA, a compostable, biodegradable thermoplastic made from renewable sources and their blends. In the first part of this review, we briefly discuss the advantages, limitations, production methods of PLA. The second part, the major objective of this paper, focuses on the various toughening modification of PLA and also about PLA based green composites using natural fibers and agricultural residues. It also highlights the major research progress and strategies applied to improve the brittleness of polylactic acid. POLYM. COMPOS., 39:81–101, 2018. © 2016 Society of Plastics Engineers

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Experimental, computational analysis of Butein and Lanceoletin for natural dye-sensitized solar cells and stabilizing efficiency by IoT

Bradha

Nagaraj

Suvitha

et al. 2021

Environ Dev Sustain

108

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Investigation on the Influence of EVA Content on the Mechanical and Thermal Characteristics of Poly(lactic acid) Blends

Sangeetha¹,

Valapa²,

Nayak

et al. 2016

J Polym Environ

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Spectral and Thermal Degradation of Melamine Cyanurate

Sangeetha¹,

Kanagathara

Sumathi

et al. 2013

Journal of Materials

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Melamine cyanurate, an organic crystalline complex was, synthesized by evaporation of an aqueous solution containing equimolar quantities of melamine and cyanuric acid. The synthesized compound has been subjected to various characterizations like Powder XRD, FT-IR, TG-DTG, SEM, and SHG. The presence of sharp diffraction peaks in the XRD confirms that the products are highly crystalline. The average particle size was calculated using the Debye-Scherrer formula, and it was found to be 3.067 m. Thermal behavior of the grown crystal has been studied by TG-DTG analysis. From TG-DTG, it is found that the title crystal possesses good thermal stability. The activation energy was calculated using the Broido, Coats-Redfern, and Horowitz-Metzger methods. A sharp peak exothermic peak at 405.40 ∘ C was assigned as the melting point of the title material. SEM reveals the morphology of the synthesized salt. No detectable signal was observed during the Kurtz-Perry technique.

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Toughening of polylactic acid using styrene ethylene butylene styrene: Mechanical, thermal, and morphological studies

Sangeetha¹,

Varghese²,

Nayak

2016

Polym Eng Sci

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Polylactic acid, PLA, derived from renewable resources has gained great attention nowadays owing to their sustainability, biodegradability, superior property, and transparency. However, intrinsic brittleness and low toughness severely limits its variety of applications. Blending of PLA with other polymers is more economical and more flexible technique for the property improvement of PLA. In this study, Styrene Ethylene Butylene Styrene (SEBS) and Maleic Anhydride grafted SEBS (MA-g-SEBS) are used as toughening agents to study their effect for its toughness, high strength and heat resistance on PLA. PLA/SEBS and PLA/Maleic Anhydride grafted SEBS blends were prepared under four different compositions by melt mixing technique using a corotating twin-screw extruder after optimizing the mixing conditions. The mechanical properties of the blends such as tensile, flexural, and impact strengths were investigated using specimens prepared by injection molding process. The percentage elongation and impact strength of PLA/MA-g-SEBS blends were found to be increased significantly by 540 and 135%, respectively in comparison with virgin PLA and PLA/SEBS blends. However, tensile strength and modulus of PLA/SEBS and PLA/MA-g-SEBS blends decreased compared with pristine PLA. SEM behaviour supported the higher impact property of PLA with the incorporation of modified SEBS via multiple crazing and cavitation mechanisms. DSC study also supported greater compatibility between maleated SEBS and PLA. POLYM. ENG. SCI., 56:669-675, 2016.

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V. Sangeetha

State of the art and future prospectives of poly(lactic acid) based blends and composites

Experimental, computational analysis of Butein and Lanceoletin for natural dye-sensitized solar cells and stabilizing efficiency by IoT

Investigation on the Influence of EVA Content on the Mechanical and Thermal Characteristics of Poly(lactic acid) Blends

Spectral and Thermal Degradation of Melamine Cyanurate

Toughening of polylactic acid using styrene ethylene butylene styrene: Mechanical, thermal, and morphological studies

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