In situ diffraction study on decomposition of Ti2AlN at 1500–1800 °C in vacuum

In situ diffraction study on decomposition of Ti2AlN at 1500–1800 °C in vacuum

The susceptibility of Ti2AlN to thermal dissociation at 1500–1800 °C in high-vacuum has been studied using in situ neutron diffraction. Above 1500 °C, Ti2AlN decomposed to TiNx primarily through the sublimation of aluminium (Al). The kinetics of isothermal phase decomposition at 1550 °C was modelled...

Full description

Bibliographic Details
Main Authors: Pang, Wei Kong, Low, It-Meng (Jim), Kennedy, S., Smith, R.
Format: Journal Article
Published: Elsevier 2010
Subjects:
Neutron diffraction
MAX phase
TiN
Decomposition
Ti2AlN
Online Access:http://hdl.handle.net/20.500.11937/35541
Description
Summary:The susceptibility of Ti2AlN to thermal dissociation at 1500–1800 °C in high-vacuum has been studied using in situ neutron diffraction. Above 1500 °C, Ti2AlN decomposed to TiNx primarily through the sublimation of aluminium (Al). The kinetics of isothermal phase decomposition at 1550 °C was modelled using a modified Avrami equation. An Avrami exponent (n) of 0.338 was determined, indicative of the highly restricted out-diffusion of Al between the channels of Ti6N octahedra. The characteristics of thermal stability and phase transition in Ti2AlN are discussed. Characterisation of surface compositions and examination of cross-sectional microstructures of decomposed Ti2AlN, using synchrotron radiation diffraction and SEM, respectively, verify the findings of the neutron diffraction; that Ti2AlN decomposes to TiNx at the surface primarily via the sublimation of Al from grain boundaries.

Similar Items