Oluwatoyin E Jegede - Solidification transformations in liquid phase

Journal article

O. Jegede, N. Haque, A. Mullis, R. Cochrane
Canadian journal of chemistry (Print), 2021

Cite

APA Click to copy
Jegede, O., Haque, N., Mullis, A., & Cochrane, R. (2021). Solidification transformations in liquid phase separated metastable monotectic Cu – 50 at.% Co alloy. Canadian Journal of Chemistry (Print).

Chicago/Turabian Click to copy
Jegede, O., N. Haque, A. Mullis, and R. Cochrane. “Solidification Transformations in Liquid Phase Separated Metastable Monotectic Cu – 50 at.% Co Alloy.” Canadian journal of chemistry (Print) (2021).

MLA Click to copy
Jegede, O., et al. “Solidification Transformations in Liquid Phase Separated Metastable Monotectic Cu – 50 at.% Co Alloy.” Canadian Journal of Chemistry (Print), 2021.

BibTeX Click to copy

@article{o2021a,
  title = {Solidification transformations in liquid phase separated metastable monotectic Cu – 50 at.% Co alloy},
  year = {2021},
  journal = {Canadian journal of chemistry (Print)},
  author = {Jegede, O. and Haque, N. and Mullis, A. and Cochrane, R.}
}

Abstract

Metastable monotectic Cu – 50 at. % Co alloy produced by arc melting has been processed under micro gravity condition using a drop tube and subjected to differential thermal analysis (DTA). Microstructural evidence from the as solidified sample revealed that rapid cooling of the arc melt process was enough to incite liquid phase separation in the alloy. In the drop tube samples, the melting temperature of the β- phase (Cu – rich) was determined to be 1294.8 K while that of the α- phase (Co – rich) was found to vary with cobalt content.