Sidra Arshad scite author profile

Since the first discovery of carbon nanotubes (CNTs) in 1991, a window to new technological areas has been opened. [1] One of the emerging applications of CNTs is the reinforcement of composite materials to overcome the performance limits of conventional materials. [2,3] Recent developments in CNT/polymer composites have shown the potential for improving the strength of polymers, [2] and this finding has encouraged researchers to use carbon nanotubes as reinforcements for metal and ceramic matrices.[4±7] However, because of the difficulties in distributing CNTs homogeneously in a metal or ceramic matrix by means of traditional composite processes, it has been doubted whether CNTs can really reinforce metals or ceramics.[4±7] Here we report on a CNTreinforced Cu matrix nanocomposite, fabricated by a novel fabrication process called ªmolecular-level mixingº; this nanocomposite shows extremely high strength, several times higher than the matrix. The novel process for fabricating CNT/Cu composite powders involves suspending CNTs in a solvent by surface functionalization, mixing Cu ions with the CNT suspension, drying, calcination, and reduction. This process produces CNT/Cu composite powders, whereby the CNTs are homogeneously implanted within the Cu powders. The CNT/Cu nanocomposite, consolidated by spark plasma sintering of CNT/Cu composite powders, is shown to possess three times the strength of the Cu matrix and to have twice the Young's modulus. This extraordinary strengthening effect of carbon nanotubes in metal is higher than that of any other reinforcement ever used for metal-matrix composites. Several researchers have attempted to fabricate CNT-reinforced metal-or ceramic-matrix composite materials by COMMUNICATIONS

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Strong carbon nanofibers from electrospun polyacrylonitrile

Arshad

Naraghi

Chasiotis

2011

Carbon

317

206

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Effects of national culture on bank risk-taking behavior

Ashraf

Zheng

Arshad

2016

Research in International Business and Finance

170

118

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Molecular orientation and mechanical property size effects in electrospun polyacrylonitrile nanofibers

Naraghi

Arshad

Chasiotis

2011

Polymer

139

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Water pollution and human health.

Haseena¹,

Malik²,

Javed³

et al. 2017

Environ Risk Assess Remediat

215

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This study was conducted at Department of Zoology, University of Gujrat, Pakistan during 2016-2017 as a term paper for Master of Philosophy. The data regarding water pollution and human health was obtained and compiled through a thorough review of various published research articles of international reputed journal and relevant books. Water covers about 70% Earth's surface. Safe drinking water is a basic need for all humans. The WHO reports that 80% diseases are waterborne. Industrialization, discharge of domestic waste, radioactive waste, population growth, excessive use of pesticides, fertilizers and leakage from water tanks are major sources of water pollution. These wastes have negative effects on human health. Different chemicals have different affects depending on their locations and kinds. Bacterial, viral and parasitic diseases like typhoid, cholera, encephalitis, poliomyelitis, hepatitis, skin infection and gastrointestinal are spreading through polluted water. It is recommended to examine the water quality on regular basis to avoid its destructive effects on human health. Domestic and agriculture waste should not be disposed of without treating. AbstractWater pollution and human health.

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Sidra Arshad

Extraordinary Strengthening Effect of Carbon Nanotubes in Metal‐Matrix Nanocomposites Processed by Molecular‐Level Mixing

Strong carbon nanofibers from electrospun polyacrylonitrile

Effects of national culture on bank risk-taking behavior

Molecular orientation and mechanical property size effects in electrospun polyacrylonitrile nanofibers

Water pollution and human health.

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