2021
DOI: 10.3390/ma14133597
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Investigation of Coatings, Corrosion and Wear Characteristics of Machined Biomaterials through Hydroxyapatite Mixed-EDM Process: A Review

Abstract: Together, 316L steel, magnesium-alloy, Ni-Ti, titanium-alloy, and cobalt-alloy are commonly employed biomaterials for biomedical applications due to their excellent mechanical characteristics and resistance to corrosion, even though at times they can be incompatible with the body. This is attributed to their poor biofunction, whereby they tend to release contaminants from their attenuated surfaces. Coating of the surface is therefore required to mitigate the release of contaminants. The coating of biomaterials… Show more

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Cited by 40 publications
(22 citation statements)
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References 221 publications
(362 reference statements)
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“…Bains et al [ 280 ] performed nano-HAp powder–mixed EDM (PM-EDM) on Ti alloy surface for producing HAp bio-coatings, for which the wear and corrosion rates were also hampered. However, as Al-Amin et al [ 296 ] discussed, powder mixing still poses challenges in obtaining uniform thickness, proper adhesion, and controlling HAp phase transformation, which must be solved before the widespread use of this method for orthopedic implants. As further explained by Al-Amin et al [ 297 ], the more significant weight of HAp particles and its polar nature produces a heterogeneous mixture with dielectric oil impairs Ca-P ions deposition's regularity.…”
Section: Future Trendsmentioning
confidence: 99%
“…Bains et al [ 280 ] performed nano-HAp powder–mixed EDM (PM-EDM) on Ti alloy surface for producing HAp bio-coatings, for which the wear and corrosion rates were also hampered. However, as Al-Amin et al [ 296 ] discussed, powder mixing still poses challenges in obtaining uniform thickness, proper adhesion, and controlling HAp phase transformation, which must be solved before the widespread use of this method for orthopedic implants. As further explained by Al-Amin et al [ 297 ], the more significant weight of HAp particles and its polar nature produces a heterogeneous mixture with dielectric oil impairs Ca-P ions deposition's regularity.…”
Section: Future Trendsmentioning
confidence: 99%
“…The most important factors that affect the implant's corrosion resistance are dissolved oxygen, chlorides, and the pH value of the biofluids. 54 The passive oxide layer thickness on the implant material and the chemical composition of the implant material has a significant impact on implant biocompatibility. 55 As the implants are exposed to a high level of humidity and a high level of local corrosion in the bio-environment, the implant's lower corrosion resistance in biofluids results in toxic ions release, which further causes toxic reactions in the body.…”
Section: Corrosion Resistancementioning
confidence: 99%
“…Coatings thickness can be correlated to corrosion rates and coating adhesion strength, which are desirable characteristics in an in vivo system. Generally, the thinner the coating, the greater its adhesion strength to the substrate, and the poorer its corrosion protection [ 86 ]. In addition, detachment of the coatings might cause the accumulation of debris in the surrounding tissue and consequently cause inflammation and exacerbate immunological responses [ 32 ].…”
Section: Discussionmentioning
confidence: 99%