Toughening and creep in multiphase intermetallics through microstructural control

Gogia, A. K. ; Baligidad, R. G. ; Banerjee, D. (2003) Toughening and creep in multiphase intermetallics through microstructural control Sadhana (Academy Proceedings in Engineering Sciences), 28 (3-4). pp. 677-693. ISSN 0256-2499

PDF - Publisher Version

Official URL:

Related URL:


The lack of engineering ductility in intermetallics has limited their structural applications, in spite of their attractive specific properties at high temperatures. Over the last decade, research in intermetallics has been stimulated by the discovery of remarkable ductilisation mechanisms in these materials. It has however often been the case that the process of ductilisation or toughening has also led to a decrease in high temperature properties, especially creep. In this paper we describe approaches to the ductilisation of two different classes of intermetallic alloys through alloying to introduce beneficial, second phase effects. The Ti2AlNb based intermetallics in the Ti-Al-Nb system can be ductilised by stabilising thebcc phase of titanium into the structure. The principles of microstructural and compositional optimization developed to achieve adequate plasticity, while retaining creep properties of these alloys, are described. An entirely different approach has been successful in imparting plasticity to intermetallics based on Fe3Al. The addition of carbon to form the Fe3AlC0.5 phase imparts ductility, while enhancing both tensile and creep strength.

Item Type:Article
Source:Copyright of this article belongs to Indian Academy of Sciences.
Keywords:Multiphase Intermetallics; Multistructural Control; Toughening; Creep
ID Code:62972
Deposited On:24 Sep 2011 15:14
Last Modified:18 May 2016 12:00

Repository Staff Only: item control page