Transient Creep Characteristics in Pb-Sn-Zn Ternary Alloys | ||||
Egyptian Journal of Solids | ||||
Article 11, Volume 23, Issue 1, 2000, Page 113-127 PDF (264.17 K) | ||||
DOI: 10.21608/ejs.2000.151481 | ||||
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Abstract | ||||
Transient creep tests were investigated under different applied stresses ranging from 3.123 to 6.83 MPa for eutectic (Pb - 65.5 Sn - 3.4 Zn) and (Pb - 65 Sn -1 Zn) ternary alloys. The transient creep is described by εtr = β tn, where εtr and t are the transient creep strain and time. Both alloys showed enhancement in the creep parameters n and β. A small deviation about (20K) of the characteristic point towards lower temperature is obtained in comparison to that of binary eutectic Pb-Sn alloy. DTA analysis indicates low melting temperatures in both alloys. It was concluded that the Pb - Sn - Zn ternary alloys show superior superplastic behaviour compared with the Pb - Sn eutectic composition as a result of the lower melting temperature and the multiplicity of types of interphase boundary causing enhancement in diffusion process. Microstructural analysis support the grain boundary sliding (GBS) as being the mechanism controlling transient creep. | ||||
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