Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Three-Body Abrasive Wear Behaviour of Fiber Reinforced Vinyl Ester Composites
View through CrossRef
Fiber reinforced polymer composites are generally known to possess high strength and attractive wear resistance in dry sliding conditions. The behaviour of such composites performing in abrasive wear situations needs a proper understanding. Hence, in the present work of the three-body abrasive wear behaviour of two dimensional stitched carbon fabric, E-glass woven fabric and three dimensional E-glass woven fabric reinforced vinyl ester composites was investigated. Three-body abrasive wear tests were conducted using rubber wheel abrasion tester (RWAT) under different abrading distances at two loads, wherein the wear volume loss were found to increase and that of specific wear rate decrease. The results indicate that the type of fabric in vinyl ester have a significant influence on wear under varied abrading distance/loads. Further, it was found that carbon fabric reinforced vinyl ester composite exhibited lower wear rate compared to E-glass woven fabric reinforced vinyl ester composites. The worn surface features, as examined through scanning electron microscope (SEM), show higher levels of broken glass fiber in two dimensional glass woven fabric reinforced vinyl ester composite compared to carbon fabric and three dimensional glass fabric reinforced vinyl ester composites.
Trans Tech Publications, Ltd.
Title: Three-Body Abrasive Wear Behaviour of Fiber Reinforced Vinyl Ester Composites
Description:
Fiber reinforced polymer composites are generally known to possess high strength and attractive wear resistance in dry sliding conditions.
The behaviour of such composites performing in abrasive wear situations needs a proper understanding.
Hence, in the present work of the three-body abrasive wear behaviour of two dimensional stitched carbon fabric, E-glass woven fabric and three dimensional E-glass woven fabric reinforced vinyl ester composites was investigated.
Three-body abrasive wear tests were conducted using rubber wheel abrasion tester (RWAT) under different abrading distances at two loads, wherein the wear volume loss were found to increase and that of specific wear rate decrease.
The results indicate that the type of fabric in vinyl ester have a significant influence on wear under varied abrading distance/loads.
Further, it was found that carbon fabric reinforced vinyl ester composite exhibited lower wear rate compared to E-glass woven fabric reinforced vinyl ester composites.
The worn surface features, as examined through scanning electron microscope (SEM), show higher levels of broken glass fiber in two dimensional glass woven fabric reinforced vinyl ester composite compared to carbon fabric and three dimensional glass fabric reinforced vinyl ester composites.
Related Results
Tijelo u opusu Janka Polića Kamova
Tijelo u opusu Janka Polića Kamova
The doctoral disertation is dedicated to the concept of the body in the works of Janko Polić Kamov. The body is approached as a signifier system on the basis of which numerous and ...
Effects of different factors on the friction and wear mechanical properties of titanium alloy materials with cortical bones at near service conditions
Effects of different factors on the friction and wear mechanical properties of titanium alloy materials with cortical bones at near service conditions
Abstract
Artificial joint is one of the most effective methods to treat joint injuries. The service performance of artificial joints is gradually bad due to the wear of art...
Physico-Mechanical Behaviors of Chemically Treated Natural Fibers Reinforced Hybrid Polypropylene Composites
Physico-Mechanical Behaviors of Chemically Treated Natural Fibers Reinforced Hybrid Polypropylene Composites
The goal of current research is to replace synthetic materials with natural, biodegradable, and renewable ones. Natural fiber composites are extensively studied due to their unique...
Investigation of Mechanical Properties of Short Sisal Fiber Reinforced Phenol Formaldehyde and Vinyl Ester Composites
Investigation of Mechanical Properties of Short Sisal Fiber Reinforced Phenol Formaldehyde and Vinyl Ester Composites
Composite materials are replacing standard Engineering metals and alloys for many applications. Here in this work, Sisal fiber is used as reinforcement. Since it is abundantly avai...
Effect of Laser Remelting on Friction-Wear Behaviors of Cold Sprayed Al Coatings in 3.5% NaCl Solution
Effect of Laser Remelting on Friction-Wear Behaviors of Cold Sprayed Al Coatings in 3.5% NaCl Solution
A cold sprayed Al coating on S355 structural steel was processed using a laser remelting (LR). The surface and cross-section morphologies, chemical compositions, and phases of as-o...
Mechanical Properties of GF/CF Hybrid ABS Composite by DFFIM
Mechanical Properties of GF/CF Hybrid ABS Composite by DFFIM
GF reinforced polymer composites to improve the mechanical properties by increasing fiber content, but there is a limit. On the contrary, CF reinforced polymer composites are super...
Effect of beryl and graphene nano platelets reinforcements on the wear behaviour of AL7075- beryl graphene particulate hybrid nano composites
Effect of beryl and graphene nano platelets reinforcements on the wear behaviour of AL7075- beryl graphene particulate hybrid nano composites
The effect of beryl particles and graphene nano platelets (GNPs) on the wear behaviour of Al7075-beryl-graphene hybrid composites has been studied. The hybrid composites were devel...
Mechanical and thermal characteristics of steam‐exploded silane grafted Kigelia Pinnata fruit (KPF) fiber reinforced vinyl ester polymer composites
Mechanical and thermal characteristics of steam‐exploded silane grafted Kigelia Pinnata fruit (KPF) fiber reinforced vinyl ester polymer composites
AbstractThe cellulose‐rich Kigelia pinnata aqueous fruit (KPF) fiber is a valuable natural biomass and has drawn attention as a renewable resource. Vinyl ester polymer matrix compo...