Biomedical Engineering Reference
In-Depth Information
Titanium in the 1990's
, The Mineral, Metals and Materials Society, Warrendale,
Pennsylvania, 2689 - 2696 ( 1993 ).
21. J. C. Fanning, “Properties and processing of a new metastable beta titanium alloy for
surgical implant applications: TIMETAL ™ 21SRx, ”
Titanium 95': Science and Technol-
ogy
, 1800 - 1807 ( 1996 ).
22. A. K. Mishra , J. A. Davidson , P. Kovacs , and R. A. Poggie , “ Ti - 13Nb - 13Zr: a new low
modulus, high strength, corrosion resistant near-beta alloy for orthopaedic implants,”
Beta Titanium in the 1990's
, The Mineral, Metals and Materials Society, Warrendale,
Pennsylvania, 61 - 72 ( 1993 ).
23. T. A. Ahmed , M. Long , J. Silverstri , C. Ruiz , and H. J. Rack , “ A new low modulus
biocompatible titanium alloy , ”
Titanium 95': Science and Technology
, 1760 - 1767
( 1996 ).
24. M. Griffi th , M. E. Schlienger , L. D. Harwell , M. S. Oliver , M. D. Baldwin , M. T. Ensz ,
M. Esien , J. Brooks , C. E. Robino , J. E. Smugeresky , W. Hofmeister , M. J. Wert , and
D. V. Nelson ,
Materials And Design
, 20 ( 2 - 3 ), 107 ( 1999 ).
25. R. Banerjee , P. C. Collins , D. Bhattacharyya , S. Banerjee , and H. L. Fraser , “ Microstruc-
tural evolution in laser deposited compositionally graded
α
/
β
titanium - vanadium
alloys , ”
Acta. Mater.
, 51 , 3277 - 3292 ( 2003 ).
26. R.
Banerjee ,
D.
Bhattacharyya ,
P.
C.
Collins ,
G.
B.
Viswanathan
and
H.
L.
in a laser deposited compositionally
graded Ti - 8Al - xV alloy — an orientation microscopy study , ”
Acta. Mater.
, 52 , 377 - 385
( 2004 ).
27. J. I. Qazi , B. Marquardt , and H. J. Rack , “ High strength metatable beta - . titanium alloys
for biomedical applications , ”
JOM
, 56 ( 11 ), 49 ( 2004 ).
28. R. Banerjee , S. Nag , S. Samuel , and H. L. Fraser , “ Laser Deposited Ti - Nb - Zr - Ta Ortho-
paedic Alloys , ”
J. Biomedical Mater. Res.
, 78A ( 2 ), 298 , ( 2006 ).
29. Y. Ohmori , T. Ogo , K. Nakai , and S. Kobayashi , “ Effects of omega phase precipitation
on beta to alpha, alpha' transformations in a metastable beta titanium alloy,”
Mater.
Sci. Eng.
, A312 , 182 ( 2001 ).
30. T. Ahmed , M. Long , J. Silvestri , C. Ruiz , and H. J. Rack , “ A new low modulus, bio-
compatible titanium alloy , ”
Titanium 95: Science and Technology
, ed. P. A. Blekinsop ,
W. J. Evans , and H. M. Flower , Institute of Metals , London , 1760 ( 1995 ).
31. X. Tang , T. Ahmed , and H. J. Rack , “ Phase transformations in Ti - Nb - Ta and Ti - Nb - Ta -
Zr alloys , ”
J. Mater. Sci.
, 35 , 1805 ( 2000 ).
32. R. E. Reed - Hill and R. Abbaschian ,
Physical Metallurgy Principles
, 3rd edition , PWS
Publishing Company , Boston, MA , 284 - 285 ( 1994 ).
33. R. Banerjee , P. C. Collins , and H. L. Fraser , “ Phase evolution in laser - deposited titani-
um - chromium alloys , ”
Metall. Mater. Trans A
, 33 , 2129 ( 2002 ).
34. L. Thair , U . Kamachi Mudali , R. Asokamani , and Baldev Raj , “ Infl uence of microstruc-
tural changes on corrosion behaviour of thermally aged Ti - 6Al - 7Nb alloy , ”
Mater.
Corros .
, 55 ( 5 ), 358 ( 2004 ).
35. H. Zitter and J. Plenk , “ The electrochemical behavior of metallic implant materials as
an indicator of their biocompatibility,”
J. Biomed. Mater. Res.
, 21 , 881 ( 1987 ).
36. S. Samuel , S. Nasrazadani , S. Nag , and R. Banerjee , manuscript under preparation
( 2009 ).
37. http://srdata.nist.gov/xps/
Fraser , “ Precipitation of grain boundary
α
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