Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Compressive, Chemical Resistance, and Thermal Studies on Kapok/Sisal Fabrics Polyester Composites
View through CrossRef
The naturally occurring fabrics belonging to the species Ceiba pentandra and Agave Vera Cruz were used as reinforcements in the present study. The unsaturated polyester (UP) resin based kapok/sisal hybrid composites were developed by the hand lay-up technique at room temperature. The variations in mechanical properties such as compression strength and modulus, chemical resistance and thermal characteristics of these composites are evaluated as a function of fabric/fiber content and different volume ratios of fabrics. The addition of a relatively small amount of sisal fiber to kapok reinforced polyester matrix enhancing the compressive properties of the resulting hybrid composites. A significant improvement in compressive properties of these hybrid composites has been observed by the NaOH treatment. Among all the resultant hybrid composites those with fabrics ratio of 1:3 demonstrate improved compressive properties. The chemical resistance of these hybrid composites to different chemical reagents and water was studied.
Title: Compressive, Chemical Resistance, and Thermal Studies on Kapok/Sisal Fabrics Polyester Composites
Description:
The naturally occurring fabrics belonging to the species Ceiba pentandra and Agave Vera Cruz were used as reinforcements in the present study.
The unsaturated polyester (UP) resin based kapok/sisal hybrid composites were developed by the hand lay-up technique at room temperature.
The variations in mechanical properties such as compression strength and modulus, chemical resistance and thermal characteristics of these composites are evaluated as a function of fabric/fiber content and different volume ratios of fabrics.
The addition of a relatively small amount of sisal fiber to kapok reinforced polyester matrix enhancing the compressive properties of the resulting hybrid composites.
A significant improvement in compressive properties of these hybrid composites has been observed by the NaOH treatment.
Among all the resultant hybrid composites those with fabrics ratio of 1:3 demonstrate improved compressive properties.
The chemical resistance of these hybrid composites to different chemical reagents and water was studied.
Related Results
Impact Properties of Kapok Based Unsaturated Polyester Hybrid Composites
Impact Properties of Kapok Based Unsaturated Polyester Hybrid Composites
Natural fabric-based thermoset composites are generally lower in strength performance compared to hybrid composites. However, they have the advantages of design flexibility, cost e...
Comparative study of acid-treated and alkali-treated carbonised Kapok–fibres for oil/water absorption system
Comparative study of acid-treated and alkali-treated carbonised Kapok–fibres for oil/water absorption system
Abstract
Kapok predominantly utilized as an adsorbent in removing wastewater such as dye, oil and heavy metals. However, a comparative study between acid-treated and...
Development and Characterization of Mikania, Kapok, Wool, Sugarcane, and Pineapple Fiber Reinforced Polyester Composite
Development and Characterization of Mikania, Kapok, Wool, Sugarcane, and Pineapple Fiber Reinforced Polyester Composite
This study utilizes plant-derived fibers including Mikania, wool, kapok,
sugarcane and pineapple as strengthening additions to fabricated and
tested reinforced polyester mixtures. ...
Mechanical response of sisal/glass fabrics reinforced polyester – polyethylene terephthalate foam core sandwich panels
Mechanical response of sisal/glass fabrics reinforced polyester – polyethylene terephthalate foam core sandwich panels
The object of this study is to investigate the influence of different fabrics’ configurations, of faced polyester-sisal fiber composites, on the mechanical behavior of a vacuum inf...
Investigations on oil sorption capacity of nettle fibrous assembly and 100% nettle and nettle/kapok blended needle-punched nonwovens
Investigations on oil sorption capacity of nettle fibrous assembly and 100% nettle and nettle/kapok blended needle-punched nonwovens
The oil sorption capacity of nettle fibrous assembly and needle-punched nonwoven structures of 100% nettle and nettle/kapok blends 50/50 and 75/25 were investigated. The porosity o...
Mechanical Properties of Hybrid Composites on Epoxy Resin with Sisal Fiber, Carbon Fiber and Silicon Carbide
Mechanical Properties of Hybrid Composites on Epoxy Resin with Sisal Fiber, Carbon Fiber and Silicon Carbide
Composite materials offer huge upgrades over current accessible materials for various primary applications because of their fantastic mechanical qualities and moderately low thickn...
Evolution of Antimicrobial Resistance in Community vs. Hospital-Acquired Infections
Evolution of Antimicrobial Resistance in Community vs. Hospital-Acquired Infections
Abstract
Introduction
Hospitals are high-risk environments for infections. Despite the global recognition of these pathogens, few studies compare microorganisms from community-acqu...
Increasing load-bearing capacity of wood-plastic composites by sandwiching natural and glass fabrics
Increasing load-bearing capacity of wood-plastic composites by sandwiching natural and glass fabrics
Aimed to increase the load-bearing capacity of wood-plastic composites (WPC), sisal and glass fiber fabrics were incorporated into wood—high density polyethylene (HDPE) composites ...