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Electron back scattered diffraction characterization of thermomechanical fatigue crack propagation of a near α titanium alloy Timetal 834
Graphical abstract Display Omitted
Highlights The alloy shows lower crack growth rate under IP-TMFCG loading. Larger plastic zone size at the crack tip was observed under IP-TMFCG loading. Primary crack tends to form branches when it enters prismatic slip oriented grain.
Abstract Fatigue crack growth (FCG) mechanisms have been studied in light of the interaction of a propagating crack with local crystallographic orientations of primary alpha (αP) and secondary alpha (αS) colonies in a near α Timetal 834 Ti-alloy under thermomechanical fatigue (TMF) loading using electron backscattered diffraction (EBSD). FCG testing at in-phase (IP) and out-of-phase (OP) TMF loading have been carried out at two temperature intervals 300°C↔450°C and 450°C↔600°C. EBSD analysis and microhardness measurements have confirmed that larger cyclic plastic zone size at the crack tip leads to lower crack propagation under IP-TMFCG loading as compared to OP-TMFCG loading. EBSD analysis has also confirmed that crack dissipates more energy to propagate when it passes from a soft grain oriented with its c-axis normal to the loading direction and encounters a hard grain with its c-axis parallel with the loading direction.
Electron back scattered diffraction characterization of thermomechanical fatigue crack propagation of a near α titanium alloy Timetal 834
Graphical abstract Display Omitted
Highlights The alloy shows lower crack growth rate under IP-TMFCG loading. Larger plastic zone size at the crack tip was observed under IP-TMFCG loading. Primary crack tends to form branches when it enters prismatic slip oriented grain.
Abstract Fatigue crack growth (FCG) mechanisms have been studied in light of the interaction of a propagating crack with local crystallographic orientations of primary alpha (αP) and secondary alpha (αS) colonies in a near α Timetal 834 Ti-alloy under thermomechanical fatigue (TMF) loading using electron backscattered diffraction (EBSD). FCG testing at in-phase (IP) and out-of-phase (OP) TMF loading have been carried out at two temperature intervals 300°C↔450°C and 450°C↔600°C. EBSD analysis and microhardness measurements have confirmed that larger cyclic plastic zone size at the crack tip leads to lower crack propagation under IP-TMFCG loading as compared to OP-TMFCG loading. EBSD analysis has also confirmed that crack dissipates more energy to propagate when it passes from a soft grain oriented with its c-axis normal to the loading direction and encounters a hard grain with its c-axis parallel with the loading direction.
Electron back scattered diffraction characterization of thermomechanical fatigue crack propagation of a near α titanium alloy Timetal 834
Prasad, Kartik (Autor:in) / Karamched, Phani S. (Autor:in) / Bhattacharjee, A. (Autor:in) / Kumar, Vikas (Autor:in) / Bhanu Sankara Rao, K. (Autor:in) / Sundararaman, M. (Autor:in)
03.09.2014
15 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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