Title of article
Dynamic impact response and microstructural evolution of inconel 690 superalloy at elevated temperatures
Author/Authors
Woei-Shyan Lee، نويسنده , , Chen-Yang Liu، نويسنده , , Tai-Nong Sun، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
14
From page
210
To page
223
Abstract
This study employs a compressive split-Hopkinson bar to investigate the plastic deformation behaviour of Inconel 690 super alloy when subjected to high temperature and high-strain-rate loading conditions. Dynamic impact testing is performed under strain-rates ranging from 2.3×103 to 8.3×103 s−1 at temperatures between 25 and 900 °C. Optical, scanning, and transmission electron microscopy techniques are used to analyze the fracture and microstructure characteristics of the deformed specimens in order to determine the relationship between the alloyʹs mechanical and microstructural properties. The experimental results indicate that temperature, strain and strain rate influence the materialʹs mechanical properties. At constant temperature, the flow stress, and strain-rate sensitivity both increase with increasing strain rate, but the activation volume and work hardening coefficient decrease. Meanwhile, at a constant strain rate, the flow stress, strain-rate sensitivity and work hardening coefficient decrease with increasing temperature, but the activation volume and temperature sensitivity increase. Shear band formation is followed by fracture characterized by dimpled structures. Microscopy yields evidence of dislocation and twinning. The dislocation and twinning densities increase with increasing strain-rate and flow stress, but decrease with increasing temperature. It is shown that the Zerilli–Armstrong constitutive equation with experimentally determined specific material parameters successfully describes the flow behaviour of the Inconel 690 super alloy under the current test conditions.
Keywords
Inconel 690 , Adiabatic shearing , Twinning , Dislocation , Dynamic impact
Journal title
International Journal of Impact Engineering
Serial Year
2005
Journal title
International Journal of Impact Engineering
Record number
1250741
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