Biomedical Engineering Reference
In-Depth Information
309. Kral R.,
et al.
, Optimization of solution treatment of ZK60 magnesium alloy
using dif erential scanning calorimetry and electron microscopy.
Kovove
Materialy-Metallic Materials
, 2009. 47(4): p. 233-237.
310. Mansoor B., S. Mukherjee, and A. Ghosh, High strength ZK60 MG plate pro-
duced by grain rei nement and precipitation during alternate biaxial reverse
corrugation (ABRC) PROCESS and friction stir process (FSP). Symposium
sponsored by the Magnesium Committee of the Light Metals Division of h e
Minerals, Metals & Materials Society (TMS).
Magnesium Technology
2010
,
2010: p. 579-85.
311. Guo W.,
et al.
, Microstructure and mechanical properties of AZ31 mag-
nesium alloy processed by cyclic closed-die forging.
Journal of Alloys and
Compounds
, 2013. 558: p. 161-171.
312. Shumilin S.E.,
et al.
, Low Temperature Plasticity of Ultrai ne-Grained AE42
and AZ31 Magnesium Alloys.
Advanced Engineering Materials,
2013. 15(5):
p. 352-357.
313. Masoudpanah S.M. and R. Mahmudi, Ef ects of rare-earth elements and Ca
additions on the microstructure and mechanical properties of AZ31 magne-
sium alloy processed by ECAP.
Materials Science & Engineering: A (Structural
Materials: Properties, Microstructure and Processing)
, 2009. 526(1-2): p. 22-30.
314. Masoudpanah S.M. and R. Mahmudi, h e microstructure, tensile, and shear
deformation behavior of an AZ31 magnesium alloy at er extrusion and equal
channel angular pressing. Materials & Design, 2010. 31(7): p. 3512-3517.
315. Estrin Y.,
et al.
, Ef ect of ECAP on the mechanical properties of magnesium
alloys.
Ultrai ne Grained Materials
IV, ed. Y.T. Zhu,
et al.
2006. 381-388.
316. Zuberova Z., I. Sabirov, and Y. Estrin, h e ef ect of deformation process-
ing on tensile ductility of magnesium alloy AZ31.
Kovove Materialy-Metallic
Materials
, 2011. 49(1): p. 29-36.
317. Kulyasova O.,
et al.
, Microstructure and fatigue properties of the ultrai ne-
grained AM60 magnesium alloy processed by equal-channel angular press-
ing.
Materials Science and Engineering a-Structural Materials Properties
Microstructure and Processing
, 2009. 503(1-2): p. 176-180.
318. Jiang J., Y. Wang, and J. Qu, Microstructure and mechanical proper-
ties of AZ61 alloys with large cross-sectional size fabricated by multi-pass
ECAP.
Materials Science and Engineering a-Structural Materials Properties
Microstructure and Processing
, 2013. 560: p. 473-480.
319. Vojtich D., H. Elova, and K. Volenec, Investigation of magnesium-based
alloys for biomedical applications.
Metallic Materials
, 2006. 44(4): p. 206-219.
320. Yibin R.,
et al.
, Study of biodegradation of pure magnesium.
Key Engineering
Materials
, 2007. 342-342: p. 601-4.
321. Atrens A., M. Liu, and N.I.Z. Abidin, Corrosion mechanism applicable to
biodegradable magnesium implants.
Materials Science and Engineering
B-Advanced Functional Solid-State Materials
, 2011. 176(20): p. 1609-1636.
322. Yang J., F. Cui, and I.S. Lee, Surface Modii cations of Magnesium Alloys for
Biomedical Applications.
Annals of Biomedical Engineering
, 2011. 39(7):
p. 1857-1871.
