Enhancement of electrical, thermal and mechanical properties of carbon nanotube additive Se85Te10Ag5 glassy composites

The effect of carbon nano tube (CNT) additive on Se85Te10Ag5 glass has been investigated in regard to the electrical and thermo-physical properties as well as mechanical behaviour. The current versus voltage (I–V) measurement and thermo-physical properties (effective thermal conductivity and effecti...

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Veröffentlicht in:	Materials letters 2014-12, Vol.136, p.445-448
Hauptverfasser:	Upadhyay, A.N., Tiwari, R.S., Mehta, N., Singh, Kedar
Format:	Artikel
Sprache:	eng
Schlagworte:	Additives Carbon Glass Glass composite Glassy Mechanical properties MWCNT Nanostructure Percolation network Thermal conductivity Volt-ampere characteristics
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creator	Upadhyay, A.N. Tiwari, R.S. Mehta, N. Singh, Kedar
description	The effect of carbon nano tube (CNT) additive on Se85Te10Ag5 glass has been investigated in regard to the electrical and thermo-physical properties as well as mechanical behaviour. The current versus voltage (I–V) measurement and thermo-physical properties (effective thermal conductivity and effective thermal diffusivity) as well a microhardness of [(Se85Te10Ag5)100−X(CNT)X](X=0.3 and 5) glassy composites have been carried out at room temperature (R.T). The results indicate that the electrical, thermal and mechanical properties of CNT additive Se85Te10Ag5 glassy composites are enhanced as compared to Se85Te10Ag5 glass. The mechanism of conductivity enhancement has been given in terms of formation of percolation network of MWCNT in glassy alloy. •I–V (R.T) of [(Se85Te10Ag5)100−X(CNT)X](X=0.3 and 5) glass composites studied.•Current and conductivity for 3% and 5%CNT–Se85Te10Ag5 sample highly increases.•Thermal conductivity and hardness were also studied at room temperature.•Thermal conductivity (R.T) increases for 3% and 5%CNT–Se85Te10Ag5 glass composites.•Hardness for 3% and 5%CNT–Se85Te10Ag5 sample increases drastically.
doi_str_mv	10.1016/j.matlet.2014.08.092
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The current versus voltage (I–V) measurement and thermo-physical properties (effective thermal conductivity and effective thermal diffusivity) as well a microhardness of [(Se85Te10Ag5)100−X(CNT)X](X=0.3 and 5) glassy composites have been carried out at room temperature (R.T). The results indicate that the electrical, thermal and mechanical properties of CNT additive Se85Te10Ag5 glassy composites are enhanced as compared to Se85Te10Ag5 glass. 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source	ScienceDirect Journals (5 years ago - present)
subjects	Additives Carbon Glass Glass composite Glassy Mechanical properties MWCNT Nanostructure Percolation network Thermal conductivity Volt-ampere characteristics
title	Enhancement of electrical, thermal and mechanical properties of carbon nanotube additive Se85Te10Ag5 glassy composites
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