The Influence of Zn and Ca Addition on the Microstructure, Mechanical Properties, Cytocompatibility, and Electrochemical Behavior of WE43 Alloy Intended for Orthopedic Applications
Mircea Cătălin Ivănescu, Corneliu Munteanu, Ramona Cimpoeșu, Maria Daniela Vlad, Bogdan Istrate, Fabian Cezar Lupu, Eusebiu Viorel Șindilar, Alexandru Vlasa, Cristinel Ionel Stan, Maria Larisa Ivănescu, Georgeta Zegan

TL;DR
This study explores how adding zinc and calcium to a magnesium alloy improves its structure, strength, and compatibility with the human body for use in biodegradable orthopedic implants.
Contribution
The novel Mg-Zn-Ca alloy system is developed and evaluated for biodegradable orthopedic applications with improved mechanical and biological properties.
Findings
WE43_0.2Ca and WE43_0.3Ca alloys showed refined, homogeneous microstructures with grain sizes between 70 and 100 µm.
The alloys exhibited reduced stiffness and an elastic modulus similar to human bone, lowering stress shielding risks.
Cytocompatibility tests showed non-cytotoxic behavior with increased cell viability on MG63 cells.
Abstract
Background and Objectives: Magnesium (Mg)-based materials, such as the WE43 alloy, show potential in biomedical applications owing to their advantageous mechanical properties and biodegradability; however, their quick corrosion rate and hydrogen release restrict their general clinical utilization. This study aimed to develop a novel Mg-Zn-Ca alloy system based on WE43 alloy, evaluating the influence of Zn and Ca additions on microstructure, mechanical properties, cytocompatibility, and electrochemical behavior for potential use in biodegradable orthopedic applications. Materials and Methods: The WE43-Zn-Ca alloy system was developed by alloying standard WE43 (Mg–Y–Zr–RE) with 1.5% Zn and Ca concentrations of 0.2% (WE43_0.2Ca alloy) and 0.3% (WE43_0.3Ca alloy). Microstructural analysis was performed utilizing scanning electron microscopy (SEM) in conjunction with energy-dispersive X-ray…
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Taxonomy
TopicsMagnesium Alloys: Properties and Applications · Hydrogen Storage and Materials · Corrosion Behavior and Inhibition
