Heat treatment of NiTi alloys fabricated using laser powder bed fusion (LPBF) from elementally blended powders
The use of elemental metallic powders and in situ alloying in additive manufacturing (AM) is
of industrial relevance as it offers the required flexibility to tailor the batch powder …
of industrial relevance as it offers the required flexibility to tailor the batch powder …
In Vivo Assessment of High-Strength and Corrosion-Controlled Magnesium-Based Bone Implants
The biodegradable nature of magnesium in aqueous mediums makes it an attractive
material for various biomedical applications when it is not recommended that the material …
material for various biomedical applications when it is not recommended that the material …
Biocompatibility of a novel heat-treated and ceramic-coated magnesium alloy (Mg–1.2 Zn–0.5 Ca–0.5 Mn) for resorbable skeletal fixation devices
A Chmielewska, T MacDonald, H Ibrahim… - MRS …, 2020 - cambridge.org
Our recent exploration into the use of biodegradable metals and surface treatments resulting
in sufficient strength for skeletal reconstruction applications has led to the need to test these …
in sufficient strength for skeletal reconstruction applications has led to the need to test these …
[PDF][PDF] Zieli nska
A Chmielewska, B Wysocki, P Kwasniak… - critical review, 2021 - academia.edu
The use of elemental metallic powders and in situ alloying in additive manufacturing (AM) is
of industrial relevance as it offers the required flexibility to tailor the batch powder …
of industrial relevance as it offers the required flexibility to tailor the batch powder …
Fabrication and characterization of a biocompatible coating formed on a heat-treated magnesium alloy using micro-arc oxidation
H Ibrahim, M Elahinia - … Manufacturing Science and …, 2017 - asmedigitalcollection.asme.org
The fast corrosion rate of magnesium (Mg) alloys is the main problem associated with the
use of such biocompatible alloys for bone fixation applications. The corrosion resistance of …
use of such biocompatible alloys for bone fixation applications. The corrosion resistance of …
[图书][B] Magnesium-based biomedical implants: towards a mathematical model for degradation and design
A Amerinatanzi - 2018 - search.proquest.com
Magnesium (Mg)-based alloys can dissolve in the physiological environments. This property
makes these biomaterials attractive for implants. Many implants and medical devices should …
makes these biomaterials attractive for implants. Many implants and medical devices should …
Bioresorbable Magnesium-Based Bone Fixation Hardware: Alloy Design, Post-Fabrication Heat Treatment, Coating, and Modeling
H Ibrahim - 2017 - rave.ohiolink.edu
Magnesium (Mg) alloys have shown biodegradable properties that make them appealing for
various biomedical applications. Mg corrodes gradually in the body and it has low density …
various biomedical applications. Mg corrodes gradually in the body and it has low density …