Rachna .; Baljeet S. Saharan; Mahender S. Yadav; Nisha Sharma; Brijesh Prasad; P P Bhingole
Abstract
Magnesium is proving itself as a new generation metallic biomaterial which has the natural ability to biodegrade itself due to corrosion when made to interact with human tissues along with aqueous body fluid to treat, improve or replace anatomical elements of the human body. Magnesium based implants ...
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Magnesium is proving itself as a new generation metallic biomaterial which has the natural ability to biodegrade itself due to corrosion when made to interact with human tissues along with aqueous body fluid to treat, improve or replace anatomical elements of the human body. Magnesium based implants serves as temporary scaffold when they are placed in vivo and vitro which acts as temporary support for the part to be healed and was found that the healing took at a faster rate. After a deep search studying and observing different study work it was found that these implants were physiologically compatible, nontoxic, cytocompatible and stimulates bone growth with other favorable characteristics. Magnesium based alloys are very much helpful in different structural body parts such as orthopedic, dentistry, cardiovascular, craniofacial, otorhinology. Main concentration of this review was to discuss some of the more commonly available and frequently used methods for development of bio implant materials and their strengthening mechanism. This review work puts a light on the summary of magnesium based material development for different biomedical applications, with their biocorrosion behavior with advantages, weaknesses and characteristics, as well as a biological translation for these results. This will help the new researchers, scientists, scholars to find a better light material as bioimplant which are in them biodegradable and reduces the pain of secondary surgery. Copyright © 2018 VBRI Press.
Brijesh Prasad; Bhingole P P
Abstract
Magnesium and its alloys have got great attention in recent times due to its potential to replace heaver alloys with equal strengths and lighter in weight, hence become potential materiel automobile, sports, aeronautical and biomaterials applications This study concentrates and summarizes ...
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Magnesium and its alloys have got great attention in recent times due to its potential to replace heaver alloys with equal strengths and lighter in weight, hence become potential materiel automobile, sports, aeronautical and biomaterials applications This study concentrates and summarizes the fundamental properties of magnesium and its alloys such as high strength, ductility non-corrosive behavior etc. Along with its developments in its physical metallurgy, forming process and strengthening mechanisms to enhance the mechanical strength followed by behavior of magnesium alloys under different working conditions and applications. A brief overview of the recent and systematic outline is reported for improvement of mechanical by strengthening mechanism along with its applications. This work would be very much helpful for the researchers to find the best strengthening method on looking on its various aspects of design, environment friendly behavior and optimum utilization of resources with saving the natural resources. Copyright © 2017 VBRI Press.
