Add to ORKGMagnesium alloys are the lightest metallic structural materials with an outstanding specific strength. This makes them appealing for a wide range of applications in “green” transportation where weight saving is of major concern. Another emerging application area for modern Mg-based alloys is in the biomedical domain where they are considered as bioabsorbable temporary implants, and where the worldwide market is expanding particularly rapidly in parallel with the surging research. Requirements for mechanical properties - strength, ductility and fatigue resistance - of implants in orthopaedics are stringent. Therefore, a broad variety of processing routes have been proposed in the past decade to tailor the microstructure in order to optimize ...
Magnesium alloys are considered as candidate materials for temporary implants. Fatigue resistance an...
Magnesium can be replaced with materials which experience strain controlled fatigue in their respect...
In this work, the effect of an ultrafine-grained (UFG) structure obtained by multiaxial deformation ...
The tensile strength, fatigue, and corrosion fatigue performance of the magnesium alloy ZX40 benefit...
Magnesium alloys are very promising materials for automotive and aerospace applications due to their...
Magnesium alloys are very promising materials for automotive and aerospace applications due to their...
Magnesium alloys are of considerable current interest for use as degradable implants due to their un...
Magnesium alloys are considered to have a high potential for applications in many engineering fields...
In this study, several biodegradable Mg alloys (Mg5Zn, Mg5Zn0.3Ca, Mg5Zn0.15Ca, and Mg5Zn0.15Ca0.15Z...
The magnesium AZ31 alloy was swaged with rotary pressure with the aim of redefining the microstructu...
In this study, several biodegradable Mg alloys (Mg5Zn, Mg5Zn0.3Ca, Mg5Zn0.15Ca, and Mg5Zn0.15Ca0.15Z...
In response to the problem that intense basal texture seriously affects the low-cycle fatigue life o...
This article presents a concise overview of modern achievements and existing knowledge gaps in the a...
Zinc-based alloys have been introduced as candidate absorbable materials for biomedical implants due...
In response to the problem that intense basal texture seriously affects the low-cycle fatigue life o...
Magnesium alloys are considered as candidate materials for temporary implants. Fatigue resistance an...
Magnesium can be replaced with materials which experience strain controlled fatigue in their respect...
In this work, the effect of an ultrafine-grained (UFG) structure obtained by multiaxial deformation ...
The tensile strength, fatigue, and corrosion fatigue performance of the magnesium alloy ZX40 benefit...
Magnesium alloys are very promising materials for automotive and aerospace applications due to their...
Magnesium alloys are very promising materials for automotive and aerospace applications due to their...
Magnesium alloys are of considerable current interest for use as degradable implants due to their un...
Magnesium alloys are considered to have a high potential for applications in many engineering fields...
In this study, several biodegradable Mg alloys (Mg5Zn, Mg5Zn0.3Ca, Mg5Zn0.15Ca, and Mg5Zn0.15Ca0.15Z...
The magnesium AZ31 alloy was swaged with rotary pressure with the aim of redefining the microstructu...
In this study, several biodegradable Mg alloys (Mg5Zn, Mg5Zn0.3Ca, Mg5Zn0.15Ca, and Mg5Zn0.15Ca0.15Z...
In response to the problem that intense basal texture seriously affects the low-cycle fatigue life o...
This article presents a concise overview of modern achievements and existing knowledge gaps in the a...
Zinc-based alloys have been introduced as candidate absorbable materials for biomedical implants due...
In response to the problem that intense basal texture seriously affects the low-cycle fatigue life o...
Magnesium alloys are considered as candidate materials for temporary implants. Fatigue resistance an...
Magnesium can be replaced with materials which experience strain controlled fatigue in their respect...
In this work, the effect of an ultrafine-grained (UFG) structure obtained by multiaxial deformation ...