Add to ORKGThis thesis discusses manufacture, mechanical properties and morphologies of porous magnesium. Porous magnesium, a kind of new material, is different from monolithic magnesium due to its properties. Porous magnesium can be utilized in other applications rather than traditional applications of monolithic magnesium.Morphologies are observed to determine the porosity of the manufactured material, as well as, the effect of porosity on the properties of porous magnesium.One of the important reasons why pure magnesium has not been used widely is its mechanical properties, being lower than most structural metallic materials. Thus, a reinforcement phase is often employed to increase the mechanical properties of porous magnesium. Carbon nanofiber is...
Magnesium particles are used in metallurgic routes, where it can be total or partially evaporated cr...
Magnesium with its mechanical properties and nontoxicity is predetermined as a material for biomedic...
Porous Magnesium has been recognized as a promising structural material for automotive and aerospace...
Magnesium is a lightweight metal suitable for various technical and biomedical applications due to i...
Mechanical properties of porous magnesium with the porosity of 35–55% and the pore size of abo...
Recently magnesium has been recognized as a very promising biomaterial for bone substitutes because ...
Porous magnesium has been recognized as a promising biodegradation metal for bone substitute applica...
Various porous Mg alloys and composites have been fabricated to date. However, typically they have u...
Interest in cancellous bone analogous materials is driven by the development of tissue engineering a...
Magnesium (Mg) and its alloys offer potential as a new class of degradable metallic orthopaedic biom...
ABSTRACT: In the present study, elemental and nano-ZrO2 particulates reinforced magnesium materials ...
Magnesium is the lightest structural metal with a very low density (1.74 g/cm3) and low melting tem...
As a result of environmental considerations, a key challenge for the automobile and aerospace indust...
Porous materials are commonly found in nature and as industrial materials such as wood, carbon, foam...
Magnesium (Mg) and its alloys seem to be a potential biodegradable bone scaffold materials as their ...
Magnesium particles are used in metallurgic routes, where it can be total or partially evaporated cr...
Magnesium with its mechanical properties and nontoxicity is predetermined as a material for biomedic...
Porous Magnesium has been recognized as a promising structural material for automotive and aerospace...
Magnesium is a lightweight metal suitable for various technical and biomedical applications due to i...
Mechanical properties of porous magnesium with the porosity of 35–55% and the pore size of abo...
Recently magnesium has been recognized as a very promising biomaterial for bone substitutes because ...
Porous magnesium has been recognized as a promising biodegradation metal for bone substitute applica...
Various porous Mg alloys and composites have been fabricated to date. However, typically they have u...
Interest in cancellous bone analogous materials is driven by the development of tissue engineering a...
Magnesium (Mg) and its alloys offer potential as a new class of degradable metallic orthopaedic biom...
ABSTRACT: In the present study, elemental and nano-ZrO2 particulates reinforced magnesium materials ...
Magnesium is the lightest structural metal with a very low density (1.74 g/cm3) and low melting tem...
As a result of environmental considerations, a key challenge for the automobile and aerospace indust...
Porous materials are commonly found in nature and as industrial materials such as wood, carbon, foam...
Magnesium (Mg) and its alloys seem to be a potential biodegradable bone scaffold materials as their ...
Magnesium particles are used in metallurgic routes, where it can be total or partially evaporated cr...
Magnesium with its mechanical properties and nontoxicity is predetermined as a material for biomedic...
Porous Magnesium has been recognized as a promising structural material for automotive and aerospace...