Additive manufacturing (AM) is being used more widely because of the simplicity of the
operating procedures. It decreases material consumption during part production and …

In recent years, the revolutionary utilization of plant fibers in polymer laminates significantly
influenced environmental effects. Presently, there is progression attention in advancing bio …

The hybridization of plant cellulose fillers in polymeric laminates is applied in different
applications because of several benefits. The present investigation deals with the fabrication …

The present work's target is to study the impact of fly ash or TiC nanoparticles or both on the
characteristics of coir fiber epoxy hybrid composites. Mechanical characteristics like tensile …

The physical, mechanical, and thermal characteristics of loofa fiber-alumina (Al 2 O 3) and
loofa fiber-aluminum silicon carbide (Al-SiC) reinforced with epoxy, vinyl-ester, and …

In the present investigation, the chemically treated and untreated sisal/hemp fibers, fly ash or
titanium carbide (TiC) nanofillers, and Kevlar fabrics reinforced bio epoxy (Sr 56) polymer …

In the present research, the physical, mechanical, and thermal characteristics of bio and
synthetic basalt fabric epoxy composites reinforced with coir microparticles and TiC …

Plant fiber reinforced hybrid polymer composites have had broad applications recently
because of their lower cost advantages, lower weight, and biodegradable nature. The …

Plant cellulose fibers are a biodegradable and acceptable alternative for fabricating
balanced-strength polymer laminate components due to their higher specific strength, eco …

Dried leaves are the outstanding origin of cellulosic plant matter, and it is securing
reputation as a renewable resource. Dried leaves fiber is suggested to possess the …