performing a calcium-phosphate layer on porous niti alloy for using in orthopedic applications
Authors
abstract
porous niti alloys has a series of unique properties such as shape memory effect, superelastic behavior and energy absorbability that make them usable in a wide range of medical and industrial appliances. but the more probability of ni release from a porous niti compare to the nonporous one has restricted it’s uses in implants. in the present research for resolving the problem, performing a calcium-phosphate layer on an iranian porous alloy was considered. for this purpose all of the samples were immersed in sbf for 3 and 5 days. some of them passed the dipping in sbf stage after 30% hno3 and 1.2 m naoh solution treatments. all the samples were characterized using sem equipped with eds and light microscopy. the results show that the chemical treated samples had better and more uniform calcium-phosphate layer forming ability than theuntreated ones. the obtained results could be used in orthopedic applications.
similar resources
Performing a Calcium-Phosphate Layer on Porous NiTi Alloy for Using in Orthopedic Applications
Porous NiTi alloys has a series of unique properties such as shape memory effect, superelastic behavior and energy absorbability that make them usable in a wide range of medical and industrial appliances. But the more probability of Ni release from a porous NiTi compare to the nonporous one has restricted it’s uses in implants. In the present research for resolving the problem, performing a cal...
full textPerforming a Calcium-Phosphate Layer on Porous NiTi Alloy for Using in Orthopedic Applications
Porous NiTi alloys has a series of unique properties such as shape memory effect, superelastic behavior and energy absorbability that make them usable in a wide range of medical and industrial appliances. But the more probability of Ni release from a porous NiTi compare to the nonporous one has restricted it’s uses in implants. In the present research for resolving the problem, performing a cal...
full textPorous NiTi alloy prepared from elemental powder sintering
An elemental powder sintering (EPS) technique has been developed for the synthesis of porous NiTi alloy, in which Ni and Ti powders are used as the reactants and TiH2 powder is added as a pore-forming agent and active agent. Effects of various experimental parameters (sintering temperature, sintering time, and TiH2 content) on the porosity, pore size and pore distribution as well as phase compo...
full textCharacterization of Biomimetic Calcium Phosphate Deposited on Chitosan for Orthopedic Implant Applications
+Chesnutt, BC; +Yuan YL; *Yang Y; *Ong JL; +Haggard WO; +Bumgardner JD Joint Program in Biomedical Engineering,+University of Memphis and *University of Tennessee-Memphis, Memphis, TN; [email protected] Introduction Chitosan is a deacetylated form of chitin, a natural polysaccharide found mainly in the exoskeletons of crustaceans. Chitosan is an attractive biomaterial because it is very biocom...
full textAlternative technique for calcium phosphate coating on titanium alloy implants
As an alternative technique for calcium phosphate coating on titanium alloys, we propose to functionalize the metal surface with anionic bath containing chlorides of palladium or silver as activators. This new deposition route has several advantages such as controlled conditions, applicability to complex shapes, no adverse effect of heating, and cost effectiveness. A mixture of hydroxyapatite a...
full textMy Resources
Save resource for easier access later
Journal title:
journal of modern processes in manufacturing and productionPublisher: islamic azad univesity, najafabad branch
ISSN
volume 2
issue 4 2013
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023