Plasma Spray Deposition of HA-TiO2 on β-phase Ti-35Nb-7Ta-5Zr Alloy for Hip Stem: Characterization of Bio-mechanical Properties, Wettability, and Wear Resistance

doi:10.1007/s42235-020-0081-9

Journal of Bionic Engineering ›› 2020, Vol. 17 ›› Issue (5): 1029-1044.doi: 10.1007/s42235-020-0081-9

Plasma Spray Deposition of HA-TiO2 on β-phase Ti-35Nb-7Ta-5Zr Alloy for Hip Stem: Characterization of Bio-mechanical Properties, Wettability, and Wear Resistance

Harjit Singh1, Chander Prakash1*, Sunpreet Singh2

1. School of Mechanical Engineering, Lovely Professional University, Phagwara, Punjab-144411, India
2. Mechanical Engineering, National University of Singapore, Pincode-119244, Singapore

收稿日期:2020-04-18 修回日期:2020-05-28 接受日期:2020-06-10 出版日期:2020-09-10 发布日期:2020-09-04
通讯作者: Chander Prakash E-mail:chander.mechengg@gmail.com
作者简介:Harjit Singh1, Chander Prakash1*, Sunpreet Singh2

Plasma Spray Deposition of HA-TiO2 on β-phase Ti-35Nb-7Ta-5Zr Alloy for Hip Stem: Characterization of Bio-mechanical Properties, Wettability, and Wear Resistance

Harjit Singh1, Chander Prakash1*, Sunpreet Singh2#br#

#br#

1. School of Mechanical Engineering, Lovely Professional University, Phagwara, Punjab-144411, India
2. Mechanical Engineering, National University of Singapore, Pincode-119244, Singapore

Received:2020-04-18 Revised:2020-05-28 Accepted:2020-06-10 Online:2020-09-10 Published:2020-09-04
Contact: Chander Prakash E-mail:chander.mechengg@gmail.com
About author:Harjit Singh1, Chander Prakash1*, Sunpreet Singh2

摘要/Abstract

摘要： In this work, a biomimetic coating of hydroxyapatite (HA)-and titania (TiO2) was deposited on low elastic β-phase Ti-35Nb-7Ta-5Zr (β-TNTZ) alloy by plasma spray deposition technique for orthopedic applications. The effect of TiO2 reinforcement on microstructure, mechanical properties, and bioactivity was investigated. The morphology, coating thickness, elemental composition, and phase composition of the developed coatings were characterized. The biomechanical behavior of the deposited coatings was investigated in terms of surface hardness, elastic modulus, and adhesion strength. It was found from the morphological investigation that the TiO2 reinforcement improves the microstructure and prevents the formation of defects in the coating. The biomimetic HA-TiO2 coated surface possessed pores, size ranging from 200 nm – 600 nm that benefits the apatite growth and osseointegration. The EDS spectrum, mapping, and XRD analysis show that the deposited layer β-TCP, CaO, TTCP, TiO2 phases. The HA-TiO2 coating exhibits a very dense and thick layer of 100 μm – 125 μm that exhibits excellent adhesion strength to offer mechanical interlocking to prevent delamination. The alloying of TiO2 improves the hardness from 1.67 GPa to 2.95 GPa that enhances the wear resistance. It was found that HA-TiO2 coating exhibits better hydrophilic and biocompatible surface as compared to HA-coating.

关键词: β-phase Ti-35Nb-7Ta-5Zr alloy, plasma spray, porosities, bio-ceramic coating, nano-indentation, hardness, bond strength, wettability

Abstract: In this work, a biomimetic coating of hydroxyapatite (HA)-and titania (TiO2) was deposited on low elastic β-phase Ti-35Nb-7Ta-5Zr (β-TNTZ) alloy by plasma spray deposition technique for orthopedic applications. The effect of TiO2 reinforcement on microstructure, mechanical properties, and bioactivity was investigated. The morphology, coating thickness, elemental composition, and phase composition of the developed coatings were characterized. The biomechanical behavior of the deposited coatings was investigated in terms of surface hardness, elastic modulus, and adhesion strength. It was found from the morphological investigation that the TiO2 reinforcement improves the microstructure and prevents the formation of defects in the coating. The biomimetic HA-TiO2 coated surface possessed pores, size ranging from 200 nm – 600 nm that benefits the apatite growth and osseointegration. The EDS spectrum, mapping, and XRD analysis show that the deposited layer β-TCP, CaO, TTCP, TiO2 phases. The HA-TiO2 coating exhibits a very dense and thick layer of 100 μm – 125 μm that exhibits excellent adhesion strength to offer mechanical interlocking to prevent delamination. The alloying of TiO2 improves the hardness from 1.67 GPa to 2.95 GPa that enhances the wear resistance. It was found that HA-TiO2 coating exhibits better hydrophilic and biocompatible surface as compared to HA-coating.

Key words: β-phase Ti-35Nb-7Ta-5Zr alloy, plasma spray, porosities, bio-ceramic coating, nano-indentation, hardness, bond strength, wettability

Harjit Singh, Chander Prakash, Sunpreet Singh. Plasma Spray Deposition of HA-TiO2 on β-phase Ti-35Nb-7Ta-5Zr Alloy for Hip Stem: Characterization of Bio-mechanical Properties, Wettability, and Wear Resistance[J]. Journal of Bionic Engineering, 2020, 17(5): 1029-1044.

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Plasma Spray Deposition of HA-TiO2 on β-phase Ti-35Nb-7Ta-5Zr Alloy for Hip Stem: Characterization of Bio-mechanical Properties, Wettability, and Wear Resistance

Plasma Spray Deposition of HA-TiO2 on β-phase Ti-35Nb-7Ta-5Zr Alloy for Hip Stem: Characterization of Bio-mechanical Properties, Wettability, and Wear Resistance

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