Biomedical Engineering Reference
In-Depth Information
42. Smardz, K., Smardz, L., Okonska, I., Nowak, M., and Jurczyk, M. (2008).
XPS valence band and segregation effect in nanocrystalline Mg
2
Ni-type
materials,
Int
.
J
.
Hydrogen Energy
,
33
, pp. 387−392.
43. Smardz., L., Smardz, K., Nowak, M., and Jurczyk, M. (2001). Structure
and electronic properties of La(Ni, Al)
5
alloys,
Cryst
.
Res
.
Technol
.,
36
,
pp. 1385−1392.
44. Smardz, L., Jurczyk, M., Smardz, K., Nowak, M., Makowiecka, M., and
Okonska, I. (2008). Electronic structure of nanocrystalline and
polycrystalline hydrogen storage materials,
Renewable Energy
,
33
,
pp. 201−210.
45. Suryanarayna, C. (2001). Mechanical alloying,
Progr
.
Mater
.
Sci
.,
46
,
pp. 1-184.
46. Suryanarayana, C., and Koch, C.C. (1999). Nanostructured materials,
in
Non-Equilibrium Processing of Materials
(ed. Suryanarayana, C.),
Elsevier Science Pub., Oxford, pp. 313−346.
47. Thomas, W.M., Edward, N.D., Needham, J.C., Murch, M.G., Temple-Smith,
P., Dawes, A., and Christopher, J. (1991).
Friction stir welding
, GB Patent
Application 9125978.8. (1995), US Patent 5460317, USA.
48. Tsuji, N., Saito, Y., Utsunomiya, H., and Tanigawa, S. (1999). Ultra-ine
grained bulk steel produced by accumulative roll-bonding (ARB)
process,
Scripta Mater
.,
40
, pp. 795-800.
49. Tulinski, M., and Jurczyk, M. (2009). Mechanical and corrosion
properties of Ni-free austenitic stainless steel/hydroxyapatite nano-
composities,
Solid State Phenomena
,
151
, pp. 213−216.
50. Valiev, R.Z., Islamgaliev, R.K., and Alexandrov, I.V. (2000). Bulk
nanostructured materials from severe plastic deformation,
Prog
.
Mater
.
Sci
.,
45
, pp. 103−189.
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. Valiev, R.Z., Semenova, I.P., Latysh, V.V., Rack, H., Lowe, T.C., Petruzelka,
J., Dluhos, L., Hrusak, D., and Sochova, J. (2009). Nanostructured
titanium for biomedical applications,
Adv
.
Eng
.
Mater
.,
10
, B15−B17.
53. Vaben R., Stöver, D. (1999). Processing and properties of nanophase
ceramics,
J
.
Mat
.
Proc
.
Tech
.,
92-93
, pp. 77−84.
54. Varin, R.A., Czujko, T., and Wronski, Z.S. (2009).
Nanomaterials for Solid
State Hydrogen Storage
, Springer, New York.
