Grain reorientation and stress-state evolution during cyclic loading of an [formula omitted]-Ti alloy below the elastic limit

Rachel E Lim,Darren C Pagan,Joel V Bernier,Paul A Shade,Anthony D Rollett

doi:10.1016/j.ijfatigue.2021.106614

Grain reorientation and stress-state evolution during cyclic loading of an [formula omitted]-Ti alloy below the elastic limit

Rachel E Lim, Darren C Pagan + Show 3 more

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https://doi.org/10.1016/j.ijfatigue.2021.106614

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Journal: International Journal of Fatigue	Publication Date: Nov 13, 2021
Citations: 9	License type: publisher-specific-oa

Affiliation: Carnegie Mellon University, Pennsylvania State University, Lawrence Livermore National Laboratory, United States Air Force Research Laboratory

#Families Of Slip Systems #Stress-state Evolution #Maximum Resolved Shear Stress #Macroscopic Yield Stress #Evolution In Ti #High-energy Synchrotron X-rays #Lattice Reorientation #Lattice Orientation #Ti Alloy #Elastic Limit

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High-energy synchrotron x-rays are used to track grain-averaged lattice reorientation and stress-state evolution in Ti–7Al as it is cyclically loaded to 90% of its macroscopic yield stress. This evolution provides clear indication of accumulating plastic strain even though the sample never exceeded the elastic limit. The largest changes in lattice orientation and stress state are observed following the first cycle then evolution continues at a lower rate with subsequent cycles. Variation of the axes about which lattice reorientation occurs is found to be highly dependent on the maximum resolved shear stress and corresponding activation of various families of slip systems.

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Grain reorientation and stress-state evolution during cyclic loading of an [formula omitted]-Ti alloy below the elastic limit