Insight Into Designing Biocompatible Magnesium Alloys And Composites
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Insight into Designing Biocompatible Magnesium Alloys and Composites
This book critically summarizes the effects of various suitable alloying elements and particulate reinforcements on mechanical and degradation properties of pure Mg and Mg alloys targeting biomedical applications. The suitability of alloying elements and particulate reinforcements are discussed based on their levels of toxic effects on human body. First attempt is made to study and discuss on the various available synthesizing techniques for fabrication of both impermeable and porous Mg materials. Further, more emphasis on development of new magnesium matrix nanocomposites (MMNC) is made owing to the similarities between natural bone and MMNCs as bio-“nanocomposite”. The information on synthesis, toxicity of alloying elements and reinforcements and their effects on mechanical and degradation properties of pure Mg will enable the researchers to effectively design Mg alloys and composites targeting biomedical applications.
Nanocomposites VI: Nanoscience and Nanotechnology in Advanced Composites
This volume presents novel and innovative contributions in the domain specific to nanocomposites, specifically on aspects both related and relevant to the following: · science at the nanoscale level · innovations and advances in processing · characterization, quantification, and analysis · mechanical property evaluation and rationalization · failure analysis · technological applications at the nanoscale level The collection brings together a range of developments in areas spanning basic science, processing, analysis, characterization, mechanical property evaluation, and failure analysis rationalization of composite materials.
Magnesium
Magnesium-based materials are rapidly emerging in recent years to primarily assist in mitigating global warming and for health benefits. They are seen as materials of the future due to their lightweight, nutritional characteristics and abundance on Earth. Their applications are in a wide array of engineering and biomedical sectors, promising a multi-billion-dollar market in the very near future. The applicability of magnesium-based materials also suits the current emphasis on sustainability and a greener earth. This book was thus conceptualized and highlights important areas of current research and future directions including fundamental and applied principles related to primary and secondary processing types, microstructural evolution, machining, joining, and the past and current application scenario of magnesium-based materials.