Bioactive HA/CNTs composite Coatings on the NiTi implants · 2021. 3. 1. · Bioactive HA/CNTs...

Iranian Journal of Biomedical Engineering 6 (2012) 231- 238

Corresponding author

Address: Research Center for Advanced Materials and Mineral Processing, Faculty of Materials Engineering, Sahand University of Technology, P.O.Box: 51335-1996,

I.R. Iran., Tabriz, I.R. Iran

Tel: +98411345 9454

Fax: +98411344 4333

E-mail: [email protected]

Bioactive HA/CNTs composite Coatings on the NiTi implants

V. Khalili 1, J. Khalili Allafi 2*, H. Maleki Ghaleh 3

1Ph.D Student, Research Center for Advanced Materials and Mineral Processing, Faculty of Materials Engineering, Sahand

University of Technology, Tabriz, Iran. [email protected]

2Associate Professor, Research Center for Advanced Materials and Mineral Processing, Faculty of Materials Engineering, Tabriz,

Iran.

3M.Sc, Research Center for Advanced Materials and Mineral Processing, Faculty of Materials Engineering, Tabriz, Iran,

[email protected]

_______________________________________________________________________________________

Abstract

In this study, a hydroxyapatite/carbon nanotubes composite was coated at room temperature on NiTi

shape memory alloy (SMA) through electrochemical deposition using stable suspension which was

prepared by adding 4 g natural hydroxyapatite powder and 1 wt. % CNTs to 50 ml n-butanol.

Suspension was stabilized using triethylenamine as dispersant. Surface characteristics, adhesion

strength, stability and bioactivity of the composite coating were subsequently studied. EDX

examination of the composite coating surface revealed homogeneous dispersion of carbon nanotubes

all over coating. Also, the bonding strength of composite coating was found to be about 24 MPa.

Compared to NiTi sample coated with hydroxyapatite and coated with hydroxyapatite/carbon

nanotubes, the bode and nyquist plots of NiTi samples with hydroxyapatite/carbon nanotubes

composite coating suggested that the composite coating was chemically more stable and provided

corrosion resistance for NiTi SMA. In-vitro bioactivity test in SBF showed that the presence of CNTs

in HA/CNTs composite coating does not have negative effect on ability of apatite formation.

Key words: composite coating, hydroxyapatite, NiTi substrate, carbon nanotubes, electrophoretic deposition.

DOI: 10.22041/ijbme.2012.13119

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mailto:[email protected]



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132 -139، 9319 پايیز، 3، شماره ششم، دوره زيستيمجله مهندسي پزشکي

دار مکاتباتعهده

6991 -53775: كدپستي، مهندسی مواد، مرکز تحقیقات مواد پیشرفته و فرآوری مواد معدنیایران، تبریز، دانشگاه صنعتی سهند، دانشکدة نشاني:

[email protected] پیام نگار: ،1366-7333777 دورنگار:، 1366-7359353 تلفن:

139

NiTiبر روی كاشتني HA/CNTsپوشش كامپوزيتي زيست فعال

3قلعه، حسین ملکي*1علافيجعفر خلیل ،9ويدا خلیلي

دانشکده مهندسي مواد، دانشگاه صنعتي سهند، تبريز دانشجوی دكتری مهندسي مواد، مركز تحقیقات مواد پیشرفته و فرآوری مواد معدني،9

[email protected] دانشیار، مركز تحقیقات مواد پیشرفته و فرآوری مواد معدني، دانشکده مهندسي مواد، دانشگاه صنعتي سهند، تبريز1

كارشناسي ارشد مهندسي شناسايي و انتخاب مواد مهندسي،مركز تحقیقات مواد پیشرفته و فرآوری مواد معدني، دانشکده آموختةدانش3

[email protected]مهندسي مواد، دانشگاه صنعتي سهند، تبريز ،

_______________________________________________________________________________________

چکیده

NiTiدهي الکتروفورتیک بر روی آلیاژ آپاتیت/ نانولولة كربني با استفاده از رسوبدر اين پژوهش، پوشش كامپوزيتي هیدروكسي

نانولولة كربني به درصد وزني 9آپاتیت و گرم پودر هیدروكسي 4در دمای اتاق تشکیل شد. سوسپانسیون پايدار با اضافه كردن

يابي ساز در تهیه سوسپانسیون استفاده شد. مشخصهبوتانول آماده شد. از تری اتیلن آمین نیز به عنوان پراكنده -nلیتر میلي 05

سطح پوشش EDXفعالي پوشش كامپوزيتي بررسي شدند. نتايج آزمون سطحي، استحکام چسبندگي، پايداری و زيست

دهد. همچنین استحکام چسبندگي پوشش كامپوزيتي يکنواخت نانولولة كربني را در سرتاسر پوشش نشان ميكامپوزيتي، توزيع

MPa14 های دارای پوشش كامپوزيتي دهند كه پايداری شیمیايي نمونهگیری شد. نمودارهای بد و نايکوئیست نشان مياندازه

را NiTiاست. پوشش كامپوزيتي مقاومت خوردگي زيرلايه آپاتیت خالص و نمونه بدون پوشش بیشتر از پوشش هیدروكسي

دهد كه نشان مي SBFدهد. آزمون زيست فعالي برون تني در محلول آپاتیت خالص افزايش ميبیشتر از پوشش هیدروكسي

گیری و رشد آپاتیت ندارد. حضور نانولولة كربني در پوشش كامپوزيتي تأثیر منفي در توانايي شکل

الکتروفورتیک. دهيكربني، رسوب ة، نانو لولNiTi ةپوشش كامپوزيتي، هیدروكسي آپاتیت، زيرلاي :واژگاندكلی

DOI: 10.22041/ijbme.2012.13119






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Bioactive HA/CNTs composite Coatings on the NiTi implants · 2021. 3. 1. · Bioactive HA/CNTs...

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