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Review article

https://doi.org/10.5599/jese.1424

Understanding cold spray technology for hydroxyapatite deposition

Gaurav Prashar ; Department of Mechanical Engineering, Rayat Bahra Institute of Engineering and Nanotechnology, Hoshiarpur, Punjab, India
Hitesh Vasudev orcid id orcid.org/0000-0002-1668-8765 ; Department of Mechanical Engineering, Rayat Bahra Institute of Engineering and Nanotechnology, Hoshiarpur, Punjab, India


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Abstract

The standard method for applying hydroxyapatite (HAp) coatings to biomedical implants is plasma spraying. However, due to the high temperature of the plasma, these coatings frequently experience negative effects like evaporation, phase change, de-bonding, gas release, and residual stresses. This paper summarizes a revolutionary technique known as a cold spray (CS), which allows HAp coatings to be applied at temperatures well below their melting point. CS has several advantages over conventional high-temperature technologies, and it seems to be approaching parity with other older methods. When applied using the CS approach, the HAp coatings enhance bioactivity, increase corrosion resistance, and main­tain the characteristics of calcium phosphate ceramics. This study aims to give a concise and comprehensive overview of HAp-based materials, including substituted-HAp and HAp/poly­mer composites, and their applications in bone tissue engineering. To better understand the advantages of CS technology, a comparison of CS, high-velocity oxy-fuel (HVOF), and plasma spray is given at the end. The perspective and difficulties were also highlighted.

Keywords

Cold spraying; high velocity oxygen fuel spraying; plasma spraying; hydroxyapatite coatings

Hrčak ID:

294312

URI

https://hrcak.srce.hr/294312

Publication date:

19.2.2023.

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