The evolution of microstructure and mechanical properties of almost fully amorphous Mg72Zn23Ca5 and crystalline Mg70Zn23Ca5Pd2 alloys during immersion in Hank's balanced salt solution (HBSS), as well as their cytocompatibility, are investigated in order to assess the feasibility of both materials as biodegradable implants. Though the crystalline Mg70Zn23Ca5Pd2 sample shows lower wettability and more positive corrosion potential, this sample degrades much faster upon incubation in HBSS as a consequence of the formation of micro-galvanic couples between the nobler Pd-rich dendrites and the surrounding phases. After 22-h immersion, the concentration of Mg ions in the HBSS medium containing the Mg70Zn23Ca5Pd2 sample is six times larger than for...
The aim of this paper was to investigate the corrosion resistance of Mg66Zn30Ca4 and Mg68Zn28Ca4 met...
This study investigates the microstructure, mechanical properties, corrosion behavior, and biocompat...
The future of biomaterial design will rely on temporary implant materials that degrade while tissues...
The influence of partial substitution of Mg by Pd on the microstructure, mechanical properties and c...
7th Symposium on Biodegradable Metals, Riva Marina Resort, Carovigno, Italy, August 23-28 2015Mg-Ca-...
Biodegradable magnesium (Mg) alloys exhibit great potential for use as temporary structures in tissu...
Pure magnesium possesses similar mechanical properties compared to natural human bone, which helps t...
A drive toward biodegradable implant design has emerged in recent decades. Magnesium and its alloys ...
Mg–Zr–Ca alloys were developed for new biodegradable bone implant materials. The microst...
Amorphous metals, or bulk metallic glasses (BMGs), based on the Mg-Zn-Ca ternary alloy system, are a...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
Being biocompatible and biodegradable, magnesium alloys are considered as the new generation biomedi...
The combination of high strength, light weight, and natural biodegradability renders magnesium (Mg) ...
Magnesium (Mg) and its alloys are emerging biomaterials for orthopaedic and vascular stent applicati...
Mg-1.5Y-1.2Zn-0.44Zr alloys were newly developed as degradable metallic biomaterials. A comprehensiv...
The aim of this paper was to investigate the corrosion resistance of Mg66Zn30Ca4 and Mg68Zn28Ca4 met...
This study investigates the microstructure, mechanical properties, corrosion behavior, and biocompat...
The future of biomaterial design will rely on temporary implant materials that degrade while tissues...
The influence of partial substitution of Mg by Pd on the microstructure, mechanical properties and c...
7th Symposium on Biodegradable Metals, Riva Marina Resort, Carovigno, Italy, August 23-28 2015Mg-Ca-...
Biodegradable magnesium (Mg) alloys exhibit great potential for use as temporary structures in tissu...
Pure magnesium possesses similar mechanical properties compared to natural human bone, which helps t...
A drive toward biodegradable implant design has emerged in recent decades. Magnesium and its alloys ...
Mg–Zr–Ca alloys were developed for new biodegradable bone implant materials. The microst...
Amorphous metals, or bulk metallic glasses (BMGs), based on the Mg-Zn-Ca ternary alloy system, are a...
Biomaterials have been used for more than a century in the human body to improve body functions and ...
Being biocompatible and biodegradable, magnesium alloys are considered as the new generation biomedi...
The combination of high strength, light weight, and natural biodegradability renders magnesium (Mg) ...
Magnesium (Mg) and its alloys are emerging biomaterials for orthopaedic and vascular stent applicati...
Mg-1.5Y-1.2Zn-0.44Zr alloys were newly developed as degradable metallic biomaterials. A comprehensiv...
The aim of this paper was to investigate the corrosion resistance of Mg66Zn30Ca4 and Mg68Zn28Ca4 met...
This study investigates the microstructure, mechanical properties, corrosion behavior, and biocompat...
The future of biomaterial design will rely on temporary implant materials that degrade while tissues...