M. Charan scite author profile

Address correspondence to Thiagarajan Rajmohan. www.tandfonline.com/upstMetal Matrix Nano Composites (MMNC) consist of a metal matrix reinforced with nano-particles featuring physical and mechanical properties very different from those of the matrix. Especially carbon Nano tubes (CNT) can improve the matrix material in terms of wear resistance, damping properties and mechanical strength. The present investigation deals with the synthesis and characterization of aluminium matrix reinforced with micro B4C particles, and Multi Wall Carbon nano Tubes (MWCNT) which have been prepared by powder metallurgy route. Powder mixture containing fixed weight (%) of B4C and different wt% of MWCNT as Downloaded by [UNSW Library] at 11:05 12 August 2015 2 reinforcement constituents that are uniaxial cold pressed and later green compacts are sintered in continues electric furnace. Microstructure and Mechanical properties such as micro hardness and density are examined. Micro structure of samples has been investigated using scanning electron microscope(SEM). X-ray Diffraction(XRD),Energy dispersive X-ray(EDAX), Atomic Force Microscope(AFM) and Transmission Electron Microscope (TEM). TEM microstructure of the nano composite shows the homogeneous dispersion of MWCNT in the Aluminium matrix. The results indicated that the increase in wt % of MWCNT improves the bonding and mechanical properties.

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Review on developments of bulk functionally graded composite materials

Charan

Naik

Kota

et al. 2022

International Materials Reviews

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Monolithic components are often insufficient when a combination of conflicting properties, or a variation in properties at different regions within a material is required. Functionally graded composite materials (FGCM) are a relatively new class of materials with a systematic variation of the composition, microstructure, and properties along one direction. The graded structure offers tailorable property combinations not achievable with monolithic composites and significant recent research has been carried out on their development. An effort has been made in this article to review the latest developments on bulk FGCMs since 2015. The different processing techniques used for their fabrication have been discussed, highlighting their advantages, limitations, and recent advancements pertaining to FGCM fabrication. Various physical, mechanical, and thermal properties of FGCMs have been treated separately, and wherever possible, summary plots combining data from various research articles have been developed. Finally, potential areas for directing future FGCM research have been identified.

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Tweaking the diameter and concentration of carbon nanotubes and sintering duration in Copper based composites for heat transfer applications

Babu

Verma

Charan

et al. 2018

Advanced Powder Technology

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M. Charan

Review on development of metal/ceramic interpenetrating phase composites and critical analysis of their properties

Trends and Challenges in Lower Limb Prosthesis

Synthesis and characterization of dual particle (MWCT+B₄C) reinforced sintered hybrid aluminum matrix composites

Review on developments of bulk functionally graded composite materials

Tweaking the diameter and concentration of carbon nanotubes and sintering duration in Copper based composites for heat transfer applications

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About

M. Charan

Review on development of metal/ceramic interpenetrating phase composites and critical analysis of their properties

Trends and Challenges in Lower Limb Prosthesis

Synthesis and characterization of dual particle (MWCT+B4C) reinforced sintered hybrid aluminum matrix composites

Review on developments of bulk functionally graded composite materials

Tweaking the diameter and concentration of carbon nanotubes and sintering duration in Copper based composites for heat transfer applications

Contact Info

Product

Resources

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Synthesis and characterization of dual particle (MWCT+B₄C) reinforced sintered hybrid aluminum matrix composites