Biomedical Engineering Reference
In-Depth Information
87. Wei D., Y. Zhou, and C. Yang, h e composite i lms of gradient TiO(2)-based/
nano-scale hydrophilic sodium titanate: Biomimetic apatite induction and
cell response.
Surface & Coatings Technology
, 2009. 204(3): p. 372-379.
88. Mello A.,
et al.
, Nanometer Coatings of Hydroxyapatite Characterized by
Glancing-Incidence X-ray Dif raction, in
Bioceramics
21, M.Z.C. Prado,
Editor 2009. p. 369-372.
89. Ou K.-L.,
et al.
, Ef ect of multi-nano-titania i lm on proliferation and dif er-
entiation of mouse i broblast cell on titanium.
Journal of the Electrochemical
Society
, 2008. 155(6): p. E79-E84.
90. He H.W.,
et al.
, Ef ects of surface microstructure of hydroxyapatite on pro-
tein adsorption and biological performance of osteoblasts.
Applied Surface
Science
, 2008. 255(2): p. 565-567.
91. Kuo-Chih F.,
et al.
, Ef ects of chemical and heat treatments on surface
characteristics and biocompatibility of titanium-niobium alloys.
Materials
Trans ac tions
, 2007. 48(11).
92. Flegal K.,
et al.
, Prevalence and trends in obsesity among United States adults,
1999-2008.
Journal of the American Medical Association
, 2010. 303: p. 7.
93. Valiev R.Z.,
et al.
, Nanostructured SPD processed titanium for medical
implants, in
Nanomaterials by Severe Plastic Deformation
IV, Pts 1 and 2, Y.
Estrin and H.J. Maier, Editors. 2008. p. 49-54.
94. Lowe T.C.,
et al.
, Overview and outlook for materials processed by severe
plastic deformation.
Investigations and Applications of Severe Plastic
Deformation
, ed. T.C. Lowe and R.Z. Valiev. Vol. 80. 2000. 347-356.
95. Munoz-Morris M.A., I. Gutierrez-Urrutia, and D.G. Morris, Ef ect of equal
channel angular pressing on strength and ductility of Al-TiAl compos-
ites.
Materials Science and Engineering a-Structural Materials Properties
Microstructure and Processing
, 2005. 396(1-2): p. 3-10.
96. Gu C.D.,
et al.
, Enhanced tensile ductility in an electrodeposited nanocrys-
talline Ni.
Scripta Materialia
, 2006. 54(4): p. 579-584.
97. Zhao Y.-H.,
et al.
, Simultaneously increasing the ductility and strength of
nanostructured alloys.
Advanced Materials,
2006. 18(17): p. 2280-2283.
98. Tian J.W.,
et al.
, On the ductility of a surface severely plastically deformed
nickel alloy.
Materials Science and Engineering a-Structural Materials
Properties Microstructure and Processing
, 2008. 498(1-2): p. 216-224.
99. Zhao Y.,
et al.
, Ductility of ultrai ne-grained copper processed by equal-
channel angular pressing.
International Journal of Materials Research
, 2009.
100(12): p. 1647-1652.
100. Nuria L.-I., G. h ierry, and C. Jose Maria, Enhancing Ductility of ECAP
Processed Metals, in Pricm 7, Pts 1-3, J.F. Nie and A. Morton, Editors. 2010.
p. 1219-1222.
101. Semenova I.,
et al.
, Enhanced Strength and Ductility of Ultrai ne-Grained Ti
Processed by Severe Plastic Deformation.
Advanced Engineering Materials,
2010. 12(8): p. 803-807.