Trends in the Research of Natural Fibre–Reinforced Composites and Hybrid Composites

2014 ◽  
pp. 492-575
Keyword(s):  
Hybrid Composites ◽  
Natural Fibre ◽  
Reinforced Composites ◽  
Fibre Reinforced Composites

Effect of Surface Treatment on the Mechanical Properties of Banana-Glass Fibre Hybrid Composites

2014 ◽  
Vol 591 ◽  
pp. 7-10 ◽  
Author(s):  
V. Santhanam ◽  
M. Chandrasekaran
Keyword(s):  
Mechanical Properties ◽  
Glass Fibre ◽  
Synthetic Fibre ◽  
Epoxy Polymer ◽  
Hybrid Composites ◽  
Alkali Treatment ◽  
Natural Fibre ◽  
Reinforced Composites ◽  
Fibre Reinforced Composites ◽  
Effect Of Surface

Natural fibre reinforced composites have attracted the attention of research community mainly because they are turning out to be an alternative to synthetic fibre. Various natural fibres such as jute, sisal, palm, coir and banana are used as reinforcements. In this paper, banana fibres and glass fibres have been used as reinforcement. Hybrid epoxy polymer composite was fabricated using chopped banana/glass fibre and the effect of alkali treatment was also studied. It is found that the alkali treatment improved the mechanical properties of the composite.

Comparative analysis of the mechanical and thermal properties of polyester and epoxy natural fibre-reinforced hybrid composites

2020 ◽  
pp. 002199832097681
Author(s):  
DKK Cavalcanti ◽  
MD Banea ◽  
JSS Neto ◽  
RAA Lima
Keyword(s):  
Mechanical Properties ◽  
Thermal Properties ◽  
Comparative Analysis ◽  
Hybrid Composites ◽  
Natural Fibre ◽  
Mechanical And Thermal Properties ◽  
Reinforced Composites ◽  
Thermoset Polymer ◽  
Thermal Stability Of ◽  
Fibre Reinforced Composites

In this work, a comparative analysis of the mechanical and thermal properties of polyester and epoxy single and hybrid natural fibre-reinforced composites was performed. Pure jute, jute + curauá and jute + sisal composites with two distinct thermoset polymer resins (an epoxy and a polyester) were produced. Tensile, flexural and impact tests were carried out, in accordance to ASTM standards, to investigate and compare the mechanical properties of the composites as a function of matrix and hybridization. In addition, a thermogravimetric analysis (TGA) was used to complete the comparative analysis of the thermal properties. Finally, a scanning electron microscopy (SEM) was used to examine the fracture surface of the tested specimens. It was found that the hybridization process improved the mechanical properties of the non-hybrid jute fibre based composites for both matrices used. The resin used as matrix plays an important role on the mechanical properties of the composites. The epoxy matrix based composites presented higher tensile strength, while the polyester based composites presented higher tensile and flexural stiffness as well as higher impact energy, when compared to the epoxy-based composite. TGA analysis showed that the thermal stability of epoxy-based composites was higher compared to the polyester-based composites.

Flammability of Bamboo Fabric Reinforced Polypropylene Composites and their Hybrids

2016 ◽  
Vol 851 ◽  
pp. 155-162 ◽  
Author(s):  
Nurul Zuhairah Mahmud Zuhudi ◽  
Krishnan Jayaraman ◽  
Richard Lin
Keyword(s):  
Release Rate ◽  
Glass Fibre ◽  
Cone Calorimeter ◽  
Hybrid Composites ◽  
Natural Fibre ◽  
Reinforced Composites ◽  
Polypropylene Composites ◽  
Peak Heat Release Rate ◽  
Positive Effect ◽  
Fibre Reinforced Composites

Hybridisation is introduced as one way to use bamboo fabric as natural fibre reinforced composites (NFRCs). The research intends to determine the extent to which bamboo fabric can replace glass fibre in glass polypropylene (GPP) composites and whether the proposed hybrids are capable of competing, particularly in comparison to the flammability of GPP composites. This study evaluates the effect of hybridization on the flammability properties of bamboo fabric reinforced polypropylene composites and their hybrids. Flammability tests using cone calorimeter show that the peak Heat Release Rate (HRR) was reduced up to 39% for BPP50%, at 511.8 kW/m2, in comparison with that of neat PP, based on maximum peak values of 842 kW/m2. Interestingly, in the hybrid composites, the peak HRR reduced as glass fibre was replaced with bamboo fibre. These composites demonstrate a significant decrease in peak HRR, over 30% less than the neat PP and GPP composites respectively. These results indicate that a significant portion of the glass in GPP may be replaced with bamboo fabric, with a positive effect on fire resistance. This reduction in flammability and the improved properties obtained demonstrate promise for these hybrid materials in future applications.

Review on effect machining parameters on performance of natural fibre–reinforced composites (NFRCs)

2018 ◽  
Vol 32 (9) ◽  
pp. 1282-1302 ◽  
Author(s):  
T Rajmohan ◽  
R Vinayagamoorthy ◽  
K Mohan
Keyword(s):  
Natural Fibre ◽  
Machining Parameters ◽  
Reinforced Composites ◽  
Optimum Conditions ◽  
Limit Setting ◽  
Fibre Composites ◽  
Wide Range ◽  
Unconventional Machining ◽  
Fibre Reinforced Composites ◽  
Mixed Nature

In the modern years, natural fibre composites have been converted into significant materials in many industries such as automotive, aerospace and and so on. Several types of natural fibre composites, particularly plant-based fibre composites, have been developed and tested. However, their mixed nature, engineer’s requirement of experience, an understanding of machinability databases, limit setting and trouble in manufacturing are barriers to extensive use of composites. The final shape of the natural fibre–reinforced composites (NFRCs) are obtained by conventional and unconventional machining. Machining of these composites generates confront due to the heterogeneous and anisotropic nature. Different methodologies and tools are intended to overcome the machining defects. In this article, a wide range of literature review on machining of NFRCs is examined with focus on conventional and unconventional machining operation. This article also discusses the influences of machining parameters and optimum conditions for machining of NFRCs.

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