Add to ORKGThe additive manufacturing process is gaining increasing interest due to the possibility of producing components with a complex shape, very close to the final geometry. On the other hand, however, it involves a very high final roughness, such as to compromise the mechanical performance and resistance to corrosion. Therefore, post-processing treatments are required. Electropolishing could be the ideal treatment to reduce the roughness of these components. It is known that various parameters, such as the type of electrolyte solution, the voltage or current applied, the treatment time, agitation, etc. They could affect the effectiveness of the electropolishing treatment. The most used electrolyte solutions are dangerous to handle and difficult...
U teorijskom dijelu rada prikazana su svojstva titanija i njegovih legura te primjena u industriji. ...
Electron beam melting (EBM), as one of metal additive manufacturing technologies, is considered to b...
3D printing (or more formally called additive manufacturing) has the potential to revolutionize the ...
The additive manufacturing process is gaining increasing interest due to the possibility of producin...
In this study, the effect of various parameters including the voltage, current, polishing time, tem...
Electron beam melting (EBM) has become one of the most promising additive manufacturing (AM) technol...
Recently, additive manufacturing technologies have begun to play a significant role in the industria...
This paper investigated the use of electropolishing on the surface treatment of the Ti6Al4V parts ma...
In this study Ti6Al4V samples fabricated via electron beam melting were subjected to electropolishi...
This report presents simple, rapid and an efficient electropolishing of Ti metal in choline chloride...
This paper presents review of methods for treatment of Ti6Al7Nb alloy surfaces which may be used as ...
In this report we present a straightforward and efficient electropolishing methodology of pure metal...
The use of additive manufactured (AM) titanium-based materials has increased substantially for medic...
Electropolishing (EP) is most widely used as a metal finishing process. It is a non-contact electroc...
Electron Beam Melting is an Additive Manufacturing technology that allows the production of items us...
U teorijskom dijelu rada prikazana su svojstva titanija i njegovih legura te primjena u industriji. ...
Electron beam melting (EBM), as one of metal additive manufacturing technologies, is considered to b...
3D printing (or more formally called additive manufacturing) has the potential to revolutionize the ...
The additive manufacturing process is gaining increasing interest due to the possibility of producin...
In this study, the effect of various parameters including the voltage, current, polishing time, tem...
Electron beam melting (EBM) has become one of the most promising additive manufacturing (AM) technol...
Recently, additive manufacturing technologies have begun to play a significant role in the industria...
This paper investigated the use of electropolishing on the surface treatment of the Ti6Al4V parts ma...
In this study Ti6Al4V samples fabricated via electron beam melting were subjected to electropolishi...
This report presents simple, rapid and an efficient electropolishing of Ti metal in choline chloride...
This paper presents review of methods for treatment of Ti6Al7Nb alloy surfaces which may be used as ...
In this report we present a straightforward and efficient electropolishing methodology of pure metal...
The use of additive manufactured (AM) titanium-based materials has increased substantially for medic...
Electropolishing (EP) is most widely used as a metal finishing process. It is a non-contact electroc...
Electron Beam Melting is an Additive Manufacturing technology that allows the production of items us...
U teorijskom dijelu rada prikazana su svojstva titanija i njegovih legura te primjena u industriji. ...
Electron beam melting (EBM), as one of metal additive manufacturing technologies, is considered to b...
3D printing (or more formally called additive manufacturing) has the potential to revolutionize the ...