Inter-relation of microstructural features and dry sliding wear behavior of monotectic al–bi and al–pb alloys
Emmanuelle S. Freitas, Adrina P. Silva, José E. Spinelli, Luiz C. Casteletti, Amauri Garcia
ARTIGO
Inglês
Agradecimentos: The authors acknowledge the financial support provided by FAPESP (São Paulo Research Foundation—Grants Nos. 2013/15478-3 and 2013/13030-5) and CNPq (The Brazilian Research Council)
Immiscible Al-based alloys of monotectic composition have a particular feature of minority phases embedded into the Al-rich matrix. The disseminated particles may act as in situ self-lubricating agents due to their lower hardnesses compared with that of the Al-rich matrix, favoring good tribological...
Ver mais
Immiscible Al-based alloys of monotectic composition have a particular feature of minority phases embedded into the Al-rich matrix. The disseminated particles may act as in situ self-lubricating agents due to their lower hardnesses compared with that of the Al-rich matrix, favoring good tribological behavior. There is a lack of systematic fundamental studies on the microstructural evolution of monotectic alloys connected to application properties. In the present investigation, the monotectic Al-1.2wt%Pb and Al-3.2wt%Bi alloys have been chosen to permit the effect of microstructural parameters on the wear behavior to be analyzed. Directional solidification experiments were carried out under transient heat flow conditions allowing a large range of cooling rates to be experienced, permitting a representative variation on the scale of the microstructure to be examined. Samples of the monotectic alloys having different interphase spacing, λ, have been subjected to microadhesive wear tests, and experimental laws correlating the wear volume with the microstructural interphase spacing and test time are proposed. It was found that microstructural features such as the interphase spacing and the morphology of the minority phase play a significant role on the wear process and that for the alloys examined λ exhibits opposite effects on the corresponding wear volume
Ver menos
FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP
2013/15478-3; 2013/13030-5
CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQ
Fechado
Inter-relation of microstructural features and dry sliding wear behavior of monotectic al–bi and al–pb alloys
Emmanuelle S. Freitas, Adrina P. Silva, José E. Spinelli, Luiz C. Casteletti, Amauri Garcia
Inter-relation of microstructural features and dry sliding wear behavior of monotectic al–bi and al–pb alloys
Emmanuelle S. Freitas, Adrina P. Silva, José E. Spinelli, Luiz C. Casteletti, Amauri Garcia
Fontes
|
Tribology letters Vol. 55, no. 1 (July, 2014), p. 111-120 |