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Article
Facile exfoliation and physicochemical characterization of biomass-based cellulose derived from Lantana aculeata leaves for sustainable environment
Researchers are focusing their efforts on develo** high-performance bio-based composites due to increased interest in the production of natural fiber-based polymer composites utilizing novel cellulosic fille...
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Article
Characterization of cellulosic plant fiber extracted from Waltheria indica Linn. stem
Biomass-based fiber-reinforced polymer composites have emerged as a pioneering alternative for polymer matrix composites due to their low strength-to-weight ratio and as most synthetic fibers are non-biodegrad...
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Article
Facile exfoliation and physicochemical characterization of biomass-based cellulose derived from Pandanus tectorius leaves for sustainable environment
Cellulose present in natural plant sources has better potentials to replace traditional synthetic fibers. However, a lack of knowledge and awareness on cellulose hinders efforts to fully utilize this extremely...
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Article
Influence of Nanophase Particles on the Physical, Chemical and Tribological Characteristics of SAE15W40
In the present study, CeO2 nanoparticles modified with stearic acid (mCeO2) were synthesized using the magnetic stirrer and subsequently vacuum dried for 12 h (MN12) and 24 h (MN24). Three different weight per...
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Article
Describing the influence of laser welding parameters for AZ91D alloy using hybrid quadratic–radial basis function
AZ91D magnesium alloy plates of thickness 4 mm were successfully welded by CO2 laser welding. The heat input and hence the microstructural evolution were characterized by varying the laser power and welding speed...
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Article
Additive Manufacturing of Ti-6Al-4V alloy for Biomedical Applications
Ti-6Al-4V alloy is one of the widely used titanium alloys for biomedical applications, especially in load-critical bio-implants, because of its high strength, biocompatibility, and corrosion resistance. Howeve...
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Article
Nanoarchitectonics of AA7075-NbC Surface Composites for Augmenting the Mechanical and Tribological Properties
Friction stir processing (FSP) is an efficient solid-state process for the fabrication of surface composites. In the current research, FSP has been utilized to fabricate surface composite, which comprises AA70...
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Article
Effect of T6 Treatment on Wear Behavior of Al-7Si/ ZrSiO4 Composites
The effect of thermal treatment on microstructure and tribological behavior of Al-7Si/ZrSiO4 reinforced composites has been investigated. Composites with 5, 10 and 15 vol.% of ZrSiO4 particles were produced using...
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Article
Characterization of NbC-Reinforced AA7075 Alloy Composites Produced Using Friction Stir Processing
Aluminium alloy AA7075 matrix composites reinforced with varying vol% (5, 10 and 15 vol%) of niobium carbide (NbC) were fabricated by friction stir processing. Micrographs revealed that a homogeneous dispersio...