Influence of fibre pretreatments on characteristics of green fabric materials

Vinayagamoorthy, R.

doi:10.1177/0967391120943461

Cited by 14 publications

(4 citation statements)

References 103 publications

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“…The counter face may be adjusted more easily and the transfer film forms more quickly when a high load is applied. Low wear rate is achieved at a larger load because the transfer film created in this way shields the soft polymer surface from the hard metal surface [42][43][44][45] Sliding distance has very little of an impact on the SWR. It reduces until 40% of fibre content and then elevates for further increase.…”

Section: Resultsmentioning

confidence: 99%

Tribological Behaviour of Novel Green Resin Based Composites

2023

IRJMETS

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This work is primarily made to develop biodegradable composites by utilizing green resins namely prunus amygdalus and to study the tribological behaviors. Through a series of processing steps involving polyester and amygdalus resin, functional bio-resin has been formed. Composite materials have been developed by modifying the jute reinforcement and resin compositions. The fabricated composites have been examined for their friction and wear characteristics by altering the various input parameters. By carrying out several trial runs using response surface methodology, based D-optimal design, the sample that provides the best tribological performance has been found. Optimization has been done by setting the objectives as minimization of wear. The ideal optimum conditions have been arrived and confirmatory runs for the ideal condition have been performed, validating that the prediction was satisfactory.

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Section: Resultsmentioning

confidence: 99%

Tribological Behaviour of Novel Green Resin Based Composites

2023

IRJMETS

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“…In the study by R. Vinayagamoorthy [21], special attention was paid to the damage of textile fibres during hydrothermal treatment. Studies have shown that humidity and elevated temperature, accompanied by this process, can weaken intermolecular bonds in fibres, which leads to their destruction and deformation.…”

Section: Discussionmentioning

confidence: 99%

Examination of the influence of hydrothermal treatment of textile materials on their physical and mechanical properties and development of innovative technology

Tashpulatov,

Bakhriddinova,

Nutfullaeva

et al. 2023

Scientific Herald of Uzhhorod University Series Physics

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Relevance. Investigation in the field of textile materials and the effect of processing on their properties, is relevant, as it helps to develop more effective processing methods and increase the resistance of textile materials to the influence of various factors, which is important for both manufacturers and consumers. Purpose. The purpose of the study was to examine the effect of hydrothermal processing of textile materials on their physical and mechanical properties, develop a technology for the production of clothing using a new method (device) of press equipment for hydrothermal processing of composite material. Methodology. The analysis method was used during the study, and an experiment was also conducted in which the temperature of the steam that did not fall below 160°C was used when processing the selected fabric samples, and the temperature of the working bodies of the press for forming the back was at least 110°C. Results. As a result, the influence of hydrothermal treatment on the properties of textile materials was examined in detail and established. Having analysed the existing method of hydrothermal treatment using a vacuum unit, it was established that the conventional method of treatment leads to a substantial decrease in fabric thickness, breaking load and air permeability. It was also noted that during the hydrothermal treatment of the material, it is exposed under the influence of pressure. This leads to densification and flattening of the threads inside the material, creating flat areas, which causes adverse changes in the physical and mechanical characteristics of the fabric. Conclusions. These factors indicate a potential deterioration in the quality and durability of textile products, which can increase the percentage of defects and negatively affect consumer satisfaction. This study also points to the prospects of using a vacuum installation in hydrothermal treatment, which allows preserving the desired properties of materials, improving the quality of the final products. The practical importance of the results of this study lies in the possibility of improving the quality of textile products and reducing the damage to materials, which is important for ensuring longer operation of textile products and increasing consumer satisfaction

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“…mechanical, physical, chemical and biological to raw materials used to manufacture green composites may improve the mechanical and physical characteristics of GC. 68 In Figure 4 are mentioned the main effects on the raw materials after the pretreatment and their particular characteristics; these effects might impact some physical and chemical properties of composites and are explained in detail in further sections.…”

Section: Physical and Chemical Characteristics Of Renewable Recyclable And Biodegradable Compositesmentioning

confidence: 99%

Green composites and their contribution toward sustainability: A review

Vázquez-Núñez

Avecilla-Ramírez

Vergara-Porras

et al. 2021

Polymers and Polymer Composites

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The current world environment scenario demands new and more eco-friendly solutions to global problems that cover the demands for materials. This sector has included green polymer-based composites and natural reinforcers from origins of renewable sources, these Green Composites (GC), natural-fiber-reinforced bio-composites in which the matrix is a bio-based polymer, have shown attractive characteristics. Biodegradability is one of the most important attributes for these new “green” materials, in that this characteristic allows for their introduction into the world market as an environmental solution. The manufacturing processes for obtaining these materials have observed important improvements because each raw material exhibits different properties and characteristics and their eco-friendly character has facilitated its incorporation into diverse sectors, such as construction, automotive, packaging, and medicine, among others. At present, this segment represents an important income for some economies, especially those where these resources are available, enhancing the creation of green economies, strengthening the world’s efforts toward sustainability.

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Influence of fibre pretreatments on characteristics of green fabric materials

Cited by 14 publications

References 103 publications

Tribological Behaviour of Novel Green Resin Based Composites

Tribological Behaviour of Novel Green Resin Based Composites

Examination of the influence of hydrothermal treatment of textile materials on their physical and mechanical properties and development of innovative technology

Green composites and their contribution toward sustainability: A review

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