Copper effects in mechanical properties of rapidly solidified Sn–Pb–Sb Babbitt bearing alloys

Mustafa Kamal; A. El-Bediwi; A.R. Lashin; A.H. El-Zarka

doi:10.1016/j.msea.2011.09.092

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Copper effects in mechanical properties of rapidly solidified Sn–Pb–Sb Babbitt bearing alloys

Journal article

Peer reviewed

Copper effects in mechanical properties of rapidly solidified Sn–Pb–Sb Babbitt bearing alloys

Mustafa Kamal, A. El-Bediwi, A.R. Lashin and A.H. El-Zarka

Materials science & engineering. A, Structural materials : properties, microstructure and processing, Vol.530(1), pp.327-332

15/12/2011

DOI: https://doi.org/10.1016/j.msea.2011.09.092

Abstract

Creep indentation

Elastic constants

Melt-spinning technique

Stress exponent

X-ray diffraction

► The intermetallic compound Cu 6Sn 5 is formed by the addition of 5 wt% copper. ► The elastic modulus and hardness increase by addition of 5 wt% copper. ► The stress exponent indicates that grain boundary sliding is the possible mechanism. ► The alloy Sn–25%Pb–10%Sb–5%Cu has good mechanical properties than Sn–30%Pb–10%Sb. The mechanical behavior of Sn–Pb–Sb Babbitt bearing alloys has been modified with 5 wt% copper and processed by melt spinning technique. Results on the rapid solidification structure and the ribbon indentation creep tests are discussed. The stress exponent values in the range 2.11–2.75 indicate that grain boundary sliding is the possible mechanism during room-temperature creep deformation of melt-spun bearing alloys.

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Title: Copper effects in mechanical properties of rapidly solidified Sn–Pb–Sb Babbitt bearing alloys
Creators - without role: Mustafa Kamal - Mansoura University
A. El-Bediwi
A.R. Lashin
A.H. El-Zarka
Publication Details: Materials science & engineering. A, Structural materials : properties, microstructure and processing, Vol.530(1), pp.327-332
Publisher: Elsevier B.V
Identifiers: 9930417108331
Academic Unit: Umm Al Qura University
Language: English
Resource Type: Journal article