Microhardness and biological behavior of AZ91D-nHAp surface composite for bio-implants

Abstract: In the present research work, friction stir processing (FSP) has been adopted for the fabri­cation of nano-hydroxyapatite (nHAP) reinforced AZ91-D Mg-alloy matrix surface com­posite (NMMSC). The NMMSC was developed to replace the conventional bio-implants materials for short-term usage. The NMMSC has been prepared by adding nHAp rein­forcement in 12.5 % volumetric proportion in the AZ91-D alloy using the grooving technique followed by FSP. The FSP parameters were selected, such as the tool rotation of 1000 rpm… Show more

“…The relationship modelling for surface finish for laser-based additive manufacturing has been described in detail with experimental analysis [5]. In another study related to biomedical applications, biological tests were performed to check the performance of the developed composites, which showed significant improvement in the biological aspect [6]. The importance of aluminum matrix composites has also been studied for their performance.…”

Surface engineering and performance of biomaterials

“…The relationship modelling for surface finish for laser-based additive manufacturing has been described in detail with experimental analysis [5]. In another study related to biomedical applications, biological tests were performed to check the performance of the developed composites, which showed significant improvement in the biological aspect [6]. The importance of aluminum matrix composites has also been studied for their performance.…”

Surface engineering and performance of biomaterials

Role of numerical modelling and optimization in the manufacturing of boiler steel surfaces with coatings

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