Dynamic response and plastic deformation behavior of Ti–5Al–2.5Sn ELI and Ti–8Al–1Mo–1V alloys under high-strain rate

Liao SC, Duff J. Adiabatic shear bands in a Ti–6Al–4V titanium alloy. J Mech Phys Solids. 1998;46(11):2201.

Timothy SP. The structure of adiabatic shear bands in metals: a critical review. Acta Metall. 1987;35(2):301.

Shahan AR, Taheri AK. Adiabatic shear bands in titanium and titanium alloys: a critical review. Mater Des. 1993;14(4):243.

Yang Y, Cheng XL. Current status and trends in researches on adiabatic shearing. Chin J Nonferr Metals. 2002;12(3):401.

Timothy SP, Hutchings IM. The structure of adiabatic shear bands in a titanium alloy. Acta Metall. 1985;33(4):667.

Meyers MA, Subhash G, Kad BK, Prasad L. Evolution of microstructure and shear-band formation in α-hcp titanium. Mech Mater. 1994;17(2–3):175.

Editorial Committee of China Aeronautical Materials Handbook. China Aeronautical Materials Handbook. Beijing: China Standard Press; 2002. 8.

Kolsky H. An investigation of the mechanical properties of materials at very high rates of loading. Proc Phys Soc B. 1949;62(11):676.

Hopkinson B. A method of measuring the pressure produced in the detonation of high explosives or by the impact of bullets. Philos Trans Royal Soc A. 1914;213(1):437.

Davies RM. A critical study of Hopkinson pressure bar. Philos Trans Royal Soc A. 1948;240(1):375.

Field JE, Walley SM, Proud WG, Goldrein HT, Siviour CR. Review of experimental techniques for high rate deformation and shock studies. Int J Impact Eng. 2004;30(7):725.

Meyers MA. Dynamic Behavior of Materials. In: Zhang QM, Liu Y, Huang FL, Lv ZJ, editors. Beijing, National Defence Industry Press; 2006. 51.

Lee WS, Lin CF, Chen TH, Hwang HH. Effects of strain rate and temperature on mechanical behaviour of Ti–15Mo–5Zr–3Al alloy. J Mech Behav Biomed Mater. 2008;1(4):336.

Follansbee PS, Kocks UF. A constitutive description of the deformation of copper based on the use of the mechanical threshold stress as an internal state variable. Acta Mater. 1988;36(1):91.

Lee WS, Lin CF. Plastic deformation and fracture behaviour of Ti–6Al–4V alloy loaded with high strain rate under various temperatures. Mater Sci Eng A. 1998;241(1–2):48.

Seo S, Min O, Yang H. Constitutive equation for Ti–6Al–4V at high temperatures measured using the SHPB technique. Int J Impact Eng. 2005;31(6):735.

Me-Bar Y, Shechtman D. On the adiabatic shear of Ti–6Al–4V ballistic targets. Mater Sci Eng. 1983;58(2):181.