SEMIATIN S L,SEELHARAMAN V,WEISS I.Hot working of titanium alloys-an overview[A].WEISS I,ed.Advances in the Science and Technology of Titanium Alloy Processing[C].NewYork:The Minerals,Metals &Materials Society,1997.3-37.
[3]
SESHACHARYULU T,MEDEIROS S C,MORGAN J T,et al.Hot deformation mechanism in ELI grand Ti-6Al-4V[J].Scripta Materialia,1999,41(3):283-288.
[4]
SESHACHARYULU T,MEDEIROS S C,FRAZIER W G.Hot working of commercial Ti-6Al-4V with an equiaxed α-β microstructure:materials modeling consideration[J].Materials Science and Engineering,2000,A284:184-194.
[5]
PRASAD Y V R K,SESHACHARYULU T,MEDEIROS S C,et al.Effect of preform microstructure on the hot working mechanism in ELI grade Ti-6Al-4V:transformed β vs equiaxed(α+β)[J].Materials Science and Technology,2000,16(5):511-516.
[6]
MCQUEEN H J.Development of dynamic recrystallization theory[J].Materials Science and Engineering,2004,A387-389:203-208.
[7]
BRUN M,ANOSHKIN N,SHAKHANOVA G.Physical processes and regimes of thermo-mechanical processing controlling development of regulated structure in the α+β titanium alloys[J].Materials Science and Engineering,1998,A243:77-81.
[8]
SESHACHARYULU T,MEDEIROS S C,FRAZIER W G,et al.Microstructural mechanism during hot working of commercial grade Ti-6Al-4V with lamellar starting structure[J].Materials Science and Engineering,2002,A325:112-125.
