Microalloying Ultrafine Grained Al Alloys with Enhanced Ductility

نویسندگان

  • L. Jiang
  • J. K. Li
  • P. M. Cheng
  • G. Liu
  • R. H. Wang
  • B. A. Chen
  • J. Y. Zhang
  • J. Sun
  • M. X. Yang
  • G. Yang
چکیده

Bulk ultrafine grained (UFG)/nanocrystal metals possess exceptional strength but normally poor ductility and thermal stability, which hinder their practical applications especially in high-temperature environments. Through microalloying strategy that enables the control of grains and precipitations in nanostructured regime, here we design and successfully produce a highly microstructure-stable UFG Al-Cu-Sc alloy with ~275% increment in ductility and simultaneously ~50% enhancement in yield strength compared with its Sc-free counterpart. Although the precipitations in UFG alloys are usually preferentially occurred at grain boundaries even at room temperature, minor Sc addition into the UFG Al-Cu alloys is found to effectively stabilize the as-processed microstructure, strongly suppress the θ-Al2Cu phase precipitation at grain boundary, and remarkably promote the θ'-Al2Cu nanoparticles dispersed in the grain interior in artificial aging. A similar microalloying strategy is expected to be equally effective for other UFG heat-treatable alloys.

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عنوان ژورنال:

دوره 4  شماره 

صفحات  -

تاریخ انتشار 2014