Effect of cooling speed on structure and properties of rapidly solidified Pb-25wt.% Sn alloy

Mustafa Kamal; El Said Gouda

doi:10.1080/10420150601135258

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Effect of cooling speed on structure and properties of rapidly solidified Pb-25wt.% Sn alloy

Journal article

Peer reviewed

Effect of cooling speed on structure and properties of rapidly solidified Pb-25wt.% Sn alloy

Mustafa Kamal, El Said Gouda and El Said Gouda

Radiation effects and defects in solids, Vol.162(9), pp.691-696

09/2007

DOI: https://doi.org/10.1080/10420150601135258

Abstract

Internal friction

Resistivity

Thermal diffusivity

Vickers hardness

X-ray

The effect of cooling speed on structure, hardness, mechanical and electrical transport properties of rapidly solidified Pb-25wt.% Sn alloy have been investigated. A single roller melt spinning technique with linear speeds 15.7 and 31.7 m/s, was used for the preparation of specimens. The results showed that a lower cooling speed increased the precipitation of Sn in a Pb-matrix phase as compared with the higher cooling speed. This decomposition behavior decreased the electrical resistivity and increased the internal friction, thermal diffusivity and Vickers microhardness of the lower cooling speed as compared with those of the higher cooling speed.

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Title: Effect of cooling speed on structure and properties of rapidly solidified Pb-25wt.% Sn alloy
Creators - without role: Mustafa Kamal - Mansoura University
El Said Gouda - Department of Solid State Physics, Metal Physics Laboratory, Physics Division , National Research Center
El Said Gouda - Jazan University
Publication Details: Radiation effects and defects in solids, Vol.162(9), pp.691-696
Publisher: Taylor & Francis
Identifiers: 9917207608331
Academic Unit: Jazan University
Language: English
Resource Type: Journal article