Biomedical Engineering Reference
In-Depth Information
47. Suryanarayna, C. (2001). Mechanical alloying,
Progr
.
Mater
.
Sci
.,
46
,
pp. 1-184.
48. Tang, F., Fudouzi, H., Uchikoshi, T., and Sakka, Y. (2004). Preparation of
porous materials with controlled pore size and porosity,
J
.
Eur
.
Ceram
.
Soc
.,
24
, pp. 341-344.
49. Tulinski, M., and Jurczyk, M. (2009). Mechanical and corrosion
properties of Ni-free austenitic stainless steel/hydroxyapatite
nanocomposities,
Solid State Phenomena
,
151
, pp. 213-216.
50. Valiev, R.Z., Korrznikov, A.V., and Mulyukov, R.R. (1993). Structure and
properties of ultraine-grained materials produced by severe plastic
deformation,
Mater
.
Sci
.
Eng
.,
A
,
168
, pp. 141-148.
51. Valiev, R.Z., Zehetbauer, M.J., Estrin, Y., Höppel, H.W., Ivanisenko, Y.,
Hahn, H., Wilde, G., Roven, H.J., Sauvage, X., and Langdon, T.G. (2007).
The innovation potential of bulk nanostructured materials,
Adv
.
Eng
.
Mater
.,
9
, pp. 527-533.
52. Wang, Z.L., Liu, Y., and Zhang, Z., eds. (2003).
Handbook of nanophase
and nanostructured materials
, Kluwer Academic/Plenum Publishers,
New York.
53. Ward, B.C., and Webster, T.J. (2007). Increased functions of osteoblasts
on nanophase metals,
Mat
.
Sc
.
Eng
.,
C
,
27
, pp. 575-578.
54. Williams, D. (2008). The relationship between biomaterials and
nanotechnology,
Biomaterials
,
29
, pp. 1737-1738.