Magnesium stents manufacturing: Experimental application of a novel hybrid thin-walled investment casting approach
Magnesium alloys have ceased to be the future materials and have become the present materials, at least in some specific areas, as predicted by Friedrich and Schumann (2001). This fact was corroborated by Xu et al. (2019), which reported that the ongoing interest in studying and exploring magnesium alloys resulted in a growth rate of 491 % of publications in the 21 st century.
Optimizing the fluidity in thin-section investment casting for vacuum induction molten AZ91D-1 wt.% CaO
Magnesium and its alloys have been the focus of numerous recent studies in both academic and industrial fields. Their unique and attractive engineering properties drive the high demand for these alloys, especially their excellent strength-to-weight ratio, which is relevant in a wide range of applications. The casting of these alloys is especially suited for large components due to significant surface reactions that may easily finished.
Shielding AZ91D-1%Ca from corrosion through ultrasound melt treatment: A study for stent design
The development of novel biodegradable metals has increased interest in metal-based biomedical implants [1]. Such materials that undergo degradation in physiological conditions can be advantageous, especially when the device's presence is needed temporarily.
A Comprehensive Review on Various Phases of Wastewater Technologies: Trends and Future Perspectives
Urbanization and global population growth have drastically increased the demand for water resources, placing unprecedented pressure on natural water sources. Only 0.5% of the water of Earth exists in an accessible liquid form in rivers, lakes, ponds, and groundwater, intensifying concerns about water scarcity.
Manufacturing Methodology on Casting-Based Aluminium Matrix Composites: Systematic Review
Current competitiveness in manufacturing industries implies that the overall technological processes and material processing must be optimized, meaning that there is an increasing interest in manufacturing routines based on the least material approaches.