Effect of grain size on the primary and secondary creep behavior of Sn–3 wt.% Bi alloy

Alaa Farag Abd El-Rehim

doi:10.1007/s10853-007-2312-4

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Effect of grain size on the primary and secondary creep behavior of Sn–3 wt.% Bi alloy

Journal article

Peer reviewed

Effect of grain size on the primary and secondary creep behavior of Sn–3 wt.% Bi alloy

Alaa Farag Abd El-Rehim

Journal of materials science, Vol.43(4), pp.1444-1450

01/02/2008

DOI: https://doi.org/10.1007/s10853-007-2312-4

Abstract

Article

Characterization and Evaluation of Materials

Chemistry and Materials Science

Classical Mechanics

Crystallography and Scattering Methods

general

Materials Science

Polymer Sciences

Solid Mechanics

The effect of grain size as well as creep temperature on the primary and secondary creep parameters of Sn–3 wt.% Bi alloy has been studied. It was found that the creep parameters α , β , and έ s were decreased with increasing grain size. This was explained in view of the dislocation interaction with the defects and different inclusions in the matrix. For both the primary and secondary creep, the activation energies estimated indicate that the rate-controlling mechanism is the grain boundary-sliding mechanism.

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Title: Effect of grain size on the primary and secondary creep behavior of Sn–3 wt.% Bi alloy
Creators - without role: Alaa Farag Abd El-Rehim - Ain Shams University
Publication Details: Journal of materials science, Vol.43(4), pp.1444-1450
Publisher: Springer US
Identifiers: 9922938508331
Academic Unit: King Khalid University
Language: English
Resource Type: Journal article