A focused review on modelling and simulation of several key titanium features is presented with the intent to provide a broad overview of the titanium modelling efforts being worked on in academia and the industrial sector.
GlavicicM. G.GoetzR. L.BarkerD. R.ShenG.FurrerD.WoodfieldA.SemiatinS. L.Modeling of texture evolution during hot forging of alpha/beta titanium alloysMetall. Mater. Trans. A 39A (2008): 887–896
2.
GlavicicM. G.MillerJ. D.SemiatinS. L.A method to measure the texture of secondary alpha in bimodal titanium-alloy microstructuresScripta Mater.54 (2006281–286
3.
GlavicicM. G.BarthaB. B.JhaS. K.SzczepanskiC. J.The origins of microtexture in duplex Ti alloysMater. Sci. Engng 513–514 (2009): 325–328
4.
GlavicicM. G.KobrynP. A.BielerT. R.SemiatinS. L.A method to determine the orientation of the high-temperature beta phase from measured EBSD data for the low-temperature alpha phase in Ti-6Al-4VMater. Sci. Engng A346 (2003): 50–59
5.
LutjeringG.Influence of processing on microstructure and mechanical properties of (alpha + beta) titanium alloysMater. Sci. Engng A243 (199832–45
6.
GermainL.BacheM. R.Crystallographic texture and the definition of effective structural unit size in titanium products. In In Proceedings of the 11th World Conference on Titanium (Ti 2007) (Eds NiinomiM.AkiyamaS.HagiwaraM.IkedaM.MaruyamaK.). Kyoto, Japan, 2007, pp. 953–956.
7.
KiraneK.GoshS.A cold dwell fatigue crack nucleation criterion for polycrystalline Ti-6242 using grain-level crystal plasticity FE modelInt. J. Fatigue30 (20082127–2159
8.
DunneF. P. E.RuggD.WalkerA.Lengthscale-dependent, elastically anisotropic, physically-based hcp crystal plasticity: Application to cold-dwell fatigue in Ti alloysInt. J. Plasticity30 (20071061–1083
9.
GlavicicM. G.KobrynP. A.BielerT. R.SemiatinS. L.An automated method to determine the orientation of the high temperature beta phase from measured EBSD data for the low temperature alpha-phase in Ti-6Al-4VMater. Sci. Engng A351 (2003): 258–264
10.
GlavicicM. G.KobrynP. A.SemiatinS. L.Validation of an automated EBSD method to deduce the beta-phase texture in Ti6Al4V with a colony-alpha microstructureMater. Sci. Engng A385 (2005): 372–376
