Relevant bibliographies by topics / Vetiver Fiber

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Academic literature on the topic 'Vetiver Fiber'

Author: Grafiati
Published: 7 June 2025
Last updated: 2 August 2025

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Journal articles on the topic "Vetiver Fiber"

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N. Senthilkumar, B. Deepanraj, C. K. Dhinakarraj, and M. Yuvaperiyasamy. "Characterization Studies on Vetiveria Zizanioides Natural Fiber and Graphene Filler Reinforced Nano Polymer Composite Material." Journal of Environmental Nanotechnology 13, no. 2 (2024): 214–19. http://dx.doi.org/10.13074/jent.2024.06.242561.

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In this work, Vetiveria zizanioides (vetiver) fiber-reinforced epoxy matrix was developed with three fiber weight fractions (5, 10, and 15 wt.%) and with 3 wt.% of graphene (Gr) as filler material. This composite could replace asbestos-based braking material in automotive brake linings, as asbestos materials are carcinogenic and cause environmental issues. Hand lay-up and compression molding process was used to fabricate the natural fiber composite. The composite material was characterized by tensile strength, impact strength and flexural strength. It is found that, with increase in fiber cont
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Chandhasa, Rosjana, Jong Boonpracha, Somsakul Jerasilp, and Palang Wongtanasuporn. "The Guidelines of Product Design from the Vetivers Grass Fiber Innovation (Case Study of the Handicraft Product Group, Phayao Province)." Asian Social Science 13, no. 12 (2017): 77. http://dx.doi.org/10.5539/ass.v13n12p77.

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This research aims to study the process and the physical property of the vitiate grass fiber by spinning vetiver grass with other natural fibers such as cotton, SamiaRicini, silk and plastic fiber such as plastic rope, wire rope and straw rope. The exploration was conducted by Ban KoSoa women group cooperative settlement, Ban Kae Mai handicraft product group and Ban Don Chai handicraft product group in Pusang District, Phayao Province. The physical properties examination, namely: ASTMD 1059:2001 Standard Test Method for Fiber Size, ASTM D 2256: 2002 Standard Test Method for Fiber Toughness wit
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Boonying, Somruetai, Wimonlak Sutapun, Nitinat Suppakarn, and Yupaporn Ruksakulpiwat. "Crystallization Behavior of Vetiver Grass Fiber-Polylactic Acid Composite." Advanced Materials Research 410 (November 2011): 55–58. http://dx.doi.org/10.4028/www.scientific.net/amr.410.55.

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this work, vetiver fiber was used as a filler for poly (lactic acid) (PLA). The thermal properties of neat PLA and vetiver fiber-PLA composites were investigated. Talc as a nucleating agent was used to compare the nucleating effect on crystallization of the composites from vetiver fiber. It was found that crystallization rate was highest in the case of talc-PLA composites. Beside, the crystallization rate of PLA with 20%vetiver fiber content was higher than that of neat PLA and 1-10% (w/w) vetiver fiber-PLA composites. The equilibrium melting temperature (T0m) of neat PLA and PLA composites wa
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N., Gayathri Bhawana Chanana And Arpita Purohit. "Exploring Vetiver Grass as Sustainable Fiber for Textile Industry." Journal Of The Textile Association (JTA) 85, no. 4 (2025): 1–11. https://doi.org/10.5281/zenodo.14604130.

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Purpose: This study aims to explore the potential of Vetiver, a native grass, as a sustainable fiber for the textile industry in India, considering the growing environmental concerns and the need for sustainable practices within the sector. Design/Methodology/Approach: A comprehensive analysis was conducted integrating Field Emission Scanning Electron Microscopy (FESEM), X-ray Diffraction (XRD), and chemical composition testing to investigate the structural, crystalline, and compositional characteristics of Vetiver fiber. FESEM imaging was employed to examine the fibrous arrangement and cellul
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Sutapun, Wimonlak, Yupaporn Ruksakulpiwat, and Nitinat Suppakarn. "Effect of Heat Treatment on Chemical Structure of a Bio-Filler from Vetiver Grass." Advanced Materials Research 410 (November 2011): 71–74. http://dx.doi.org/10.4028/www.scientific.net/amr.410.71.

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In this work, the effect of heat treatment on chemical and crystalline structure of vetiver powder was studied. The vetiver powder was heat treated at 170°C, the temperature below thermal decomposition of hemicellulose, for 2-6 hours. The chemical structure, crystalline structure, and thermal decomposition of untreated and heat-treated vetiver were examined via FTIR spectrometer X-ray diffractometer, and thermogravimetric analyzer, respectively. In addition, the particle size and size distribution, fiber surface, and specific surface area were investigated by particle size analyzer, scanning e
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Gurunathan, S., and M. Premalatha C. and Rajendrakumar K. Rashma. "Three-layered sweat pad with quick drying functionality." Asian Textile Journal 33, no. 6-7 (2024): 25–29. https://doi.org/10.5281/zenodo.13286107.

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Sweat, a natural bodily excretion originating from skin glands, plays a crucial role in the body's cooling mechanism through the release of salty perspiration. However, extended wetness in areas like underarms and feet often leads to itchiness and unpleasant odors. Overcoming the challenges of moisture transportation and functionality, this study focused on developing a functional and breathable sweat pad, integrating antimicrobial properties and rapid drying performance. The design involved a three-layered structure, consisting of bamboo fiber nonwoven fabric as the skin contact layer, a need
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7

Haydar Zaman. "The Physicomechanical and Interfacial Properties of the Vetiveria Zizanioides Fiber Reinforced Polymer Composites." Malaysian Journal on Composites Science and Manufacturing 13, no. 1 (2024): 112–25. http://dx.doi.org/10.37934/mjcsm.13.1.112125.

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The effects of chemical treatment and vetiveria zizanioides (vetiver) loading on the physicomechanical, morphological, and weather tests of the vetiver fiber (VF)-filled polypropylene (PP) composites were investigated. Raw VF was chemically treated with sodium dodecyl sulfate (SDS) and SDS-pretreated benzoyl chloride to increase its compatibility with the PP matrix. The mechanical properties of the PP/VF composites, including tensile strength, tensile modulus, impact strength, hardness, and water absorption, were increased by raising the fiber content to the optimum level of 30 wt%. The result
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Khai, Chee Yeng, Noorasyikin Mohammad Noh, Muhammad Lutfi Fitri Mohd Roslan, Mohd Firdaus Md Dan, and Mohd Khaidir Abu Talib. "The Comparison of Performance of Root Vetiver Grass Between Coconut Fiber and Eggshell Toward Slope Stabilization." Journal of Advanced Research in Applied Mechanics 125, no. 1 (2024): 185–91. http://dx.doi.org/10.37934/aram.125.1.185191.

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Slope stability using vegetation has emerged as a more environmentally friendly and sustainable solution for slope stabilization, replacing traditional structural engineering methods and shotcrete cover. However, despite the application of Vetiver grass, failures in the form of deformation, cracks, and slope collapse still occur. The main objectives of this study are to identify the root properties and analyze the mechanical properties of Vetiver grass with coconut fiber and eggshell fertilizers. Laboratory testing was conducted to determine the mechanical properties of Vetiver grass roots usi
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Sutapun, Wimonlak, Nitinat Suppakarn, and Yupaporn Ruksakulpiwat. "Study of Characteristic of Vetiver Fiber Before and after Alkaline Treatment." Advanced Materials Research 123-125 (August 2010): 1191–94. http://dx.doi.org/10.4028/www.scientific.net/amr.123-125.1191.

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In this study, untreated and alkali-treated vetiver fibers were characterized by thermogravimetric analysis, BET surface analysis, X-ray diffraction and FTIR (ATR) microspectroscopy,. It was revealed that the alkaline treatment influenced properties of vetiver fiber. By the treatment, some hemicellulose and lignin were removed, resulting in higher decomposition temperatures. In addition, the specific surface area were decreased, and crystalline structure was altered. However, no evidence of changes in surface functional groups was observed.
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Juntuek, Punmanee, Chaiwat Ruksakulpiwat, Pranee Chumsamrong, and Yupaporn Ruksakulpiwat. "Mechanical Properties of Polylactic Acid and Natural Rubber Blends Using Vetiver Grass Fiber as Filler." Advanced Materials Research 123-125 (August 2010): 1167–70. http://dx.doi.org/10.4028/www.scientific.net/amr.123-125.1167.

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Polylactic acid (PLA) and natural rubber (NR) were melt blended with vetiver grass fiber using an internal mixer. Heat treatment at the temperature of 180°C was done to obtain heat treated vetiver grass fiber. Glycidyl methacrylate grafted natural rubber (NR-g-GMA) was used as a compatibilizer of PLA/vetiver/NR composites. The injection molding and compression molding were used to prepare the specimens. Molecular weight determination of PLA before and after processing was done by Gel Permeable Chromatography (GPC).Comparisons between the mechanical properties of the composites prepared from in
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Book chapters on the topic "Vetiver Fiber"

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Darimireddi, Srinivasa Rao, S. Venkatesh, S. Santhosh Kumar, and R. Ramakrishna. "Fabrication and Testing of Vetiver Fiber-Reinforced Composite." In Lecture Notes on Multidisciplinary Industrial Engineering. Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-7643-6_37.

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Conference papers on the topic "Vetiver Fiber"

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Gopikrishnan, Vaibhav, B. Aneesh Kumar, J. Haran, and S. Shaktivel. "A comprehensive study on machining characteristics of vetiver fiber reinforced polymer composites with coconut shell powder as filler." In THE VII INTERNATIONAL YOUNG RESEARCHERS’ CONFERENCE – PHYSICS, TECHNOLOGY, INNOVATIONS (PTI-2020). AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0031885.

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Shakthivel, S., and Sourabh Kurmapu. "Characteristic investigation on vetiver fibre reinforced polyethylene composites." In PROCEEDINGS OF THE 14TH ASIA-PACIFIC PHYSICS CONFERENCE. AIP Publishing, 2021. http://dx.doi.org/10.1063/5.0036549.

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