Oxygen and sodium plasma-implanted nickel–titanium shape memory alloy: A novel method to promote hydroxyapatite formation and suppress nickel leaching (original) (raw)

Mechanical properties, bioactivity and corrosion resistance of oxygen and sodium plasma treated nickel titanium shape memory alloy

Ken Cheung

Surface and Coatings Technology, 2007

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Nitrogen plasma-implanted nickel titanium alloys for orthopedic use

Keith Luk

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In vitro and in vivo characterization of novel plasma treated nickel titanium shape memory alloy for orthopedic implantation

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Surface characteristics, mechanical properties, and cytocompatibility of oxygen plasma-implanted porous nickel titanium shape memory alloy

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Surface characteristics, biocompatibility, and mechanical properties of nickel-titanium plasma-implanted with nitrogen at different implantation voltages

Keith Luk

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Surface mechanical properties, corrosion resistance, and cytocompatibility of nitrogen plasma-implanted nickel–titanium alloys: A comparative study with commonly used medical grade materials

Ken Cheung

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Anti-corrosion performance of oxidized and oxygen plasma-implanted NiTi alloys

Ken Cheung

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Improved in vitro bioactivity and electrochemical behavior of hydroxyapatite-coated NiTi shape memory alloy

Tareq Manzoor

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In vitro corrosion behavior of TiN layer produced on orthopedic nickel-titanium shape memory alloy by nitrogen plasma immersion ion implantation using different frequencies

Ken Cheung

2008

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Oxygen plasma treatment to restrain nickel out-diffusion from porous nickel titanium orthopedic materials

Keith Luk

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Improvement on corrosion resistance of NiTi orthopedic materials by carbon plasma immersion ion implantation

Jonathan Chung

Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2006

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Effect of hydroxyapatite‐titanium‐MWCNTs composite coating fabricated by electrophoretic deposition on corrosion and cellular behavior of NiTi alloy

Jafar Khalil-Allafi

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Calcium phosphate coating of nickel–titanium shape-memory alloys. Coating procedure and adherence of leukocytes and platelets

Stefan Esenwein

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Hydroxyapatite coating on NiTi shape memory alloy by electrophoretic deposition process

Jafar Khalil-Allafi

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Effects of water plasma immersion ion implantation on surface electrochemical behavior of NiTi shape memory alloys in simulated body fluids

Ken Cheung

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Corrosion products and mechanism on NiTi shape memory alloy in physiological environment

Tao Hu

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In vitro studies on the influence of surface modification of Ni–Ti alloy on human bone cells

Jonathan Knowles

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Effect of nitrogen ion implantation on in vitro corrosion behaviour of NiTi

Juan de Damborenea

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NiTi shape memory alloys coated with calcium phosphate by plasma-spraying. Chemical and biological properties

Stefan Esenwein

Materialwissenschaft und Werkstofftechnik, 2004

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Bioactivity of titanium following sodium plasma immersion ion implantation and deposition

Minh Luân Phạm

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Anticorrosion coatings for Ti and NiTi implants

A. Zavidnaya

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Formation of titanium nitride barrier layer in nickel–titanium shape memory alloys by nitrogen plasma immersion ion implantation for better corrosion resistance

Ken Cheung

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Surface Activation of NiTi Alloy by Using Electrochemical Process for Biomimetic Deposition of Hydroxyapatite Coating (TECHNICAL NOTE)

Iman Vali

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Biocompatibility and corrosion behavior of the shape memory NiTi alloy in the physiological environments simulated with body fluids for medical applications

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Oxidized NiTi surfaces enhance differentiation of osteoblast-like cells

Elisabeth Engel

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Effect of sodium-ion implantation on the corrosion resistance and bioactivity of titanium

Janusz Sobczak

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Evaluation of Biocompatibility for Titanium-Nickel Shape Memory Alloy in Vivo and in Vitro Environments

Yuji Kimura

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Wear behaviour of NiTi shape memory alloy after oxygen-PIII treatment

D. Manova

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An overview of NiTi shape memory alloy: Corrosion resistance and antibacterial inhibition for dental application

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New plasma surface-treated memory alloys: Towards a new generation of “smart” orthopaedic materials

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