Issue 48

A. Ghosh et alii, Frattura ed Integrità Strutturale, 48 (2019) 585-598; DOI: 10.3221/IGF-ESIS.48.57 588 R ESULTS AND D ISCUSSION Initial microstructure and texture he initial microstructure of the cold rolled and annealed plate of commercially pure titanium has equiaxed alpha grains with characteristic TD-split basal texture, as depicted from the inverse pole figure IPF-ND map and the 0002 pole figure contour plot represented in Fig. 2a and Fig. 2b, respectively. The tensile and ratcheting test specimen has fibre texture with crystallographic directions 1010 1120  , < 1010  and 1120 alinged along the loading direction in case of 0, 45 and 90 degree specimen, respectively as indicated from the contour plot of IPF-along loading axis shown in Fig. 2c. Figure 2 : a) IPF-Z map showing equiaxed alpha grains in as received sheet b) 0002 and 10 10  pole figure and c) inverse pole figure plot for 0, 45 and 90 degree orientation along the loading axis. T ENSILE AND RATCHETING PROPERTY he variation of true stress vs true strain shown in Fig. 3a clearly indicates there is strong in-plane anisotropy in tensile properties. The corresponding yield strength, ultimate tensile strength (UTS) and the strain at UTS reported in Table 4, indicates lower yield strength but higher ductility for 0T sample whereas for 45T and 90T sample exactly opposite is true. On the other hand, the cyclic stress-strain plot, cyclic life and accumulated ratcheting strain shown in Fig. 3b, 3c and 3d, respectively indicates longer cyclic life for 0R sample but higher ratcheting strain for 90R sample. However, ratcheting strain for 45R sample has been found to be comparable to that of 0R sample. The observed anisotropy in tensile and ratcheting property could be understood from the orientation dependent slip/twin activity analysed using VPSC simulation and the results complimented with quantitative and qualitative characterisation of deformation microstructure using EBSD. Mechanical Property 0˚ Std Dev. 45˚ Std Dev. 90˚ Std Dev. Yield strength (MPa) 260 2.9 287 3.8 328 5.4 Ultimate tensile strength (MPa) 372 6.5 408 4.0 417 2.8 Strain @ UTS 0.30 0.09 0.13 0.05 0.19 0.02 Number of cycles to failure 2441 400 1585 250 1869 350 Ratcheting strain 0.15 0.02 0.16 0.009 0.26 0.004 Misfit strain @ 1 st cycle 0.011 - 0.011 - 0.013 - Table 4 : Tensile and ratcheting property T T