In recent years, digitizing and automation have gained an important place in fabrication of medical parts. Rapid Prototyping could be very suitable for medical applications due to their complex geometry, low volume and strong individualization. The presented study investigates the possibility to produce medical or dental parts by Selective Laser Melting (SLM). The SLM process is optimized and fully characterized for different biocompatible metal alloys, such as: TiAl6V4 and CoCrMo. The potential of SLM as medical manufacturing technique is proved by a developed procedure to fabricate frameworks for complex dental prostheses
Selective laser melting (SLM) is one of the additive manufacturing (AM) processes that fabricates co...
The existence of an MCP Realizer II SLM 250 equipment at the National Centre of Innovative Manufactu...
The Co28Cr6Mo alloy is a well-established metallic biomaterial, widely used for the fabrication of o...
In recent years, digitizing and automation have gained an important place in fabrication of medical...
In recent years, digitizing and automation have gained an important place in fabrication of medical ...
Purpose This paper seeks to investigate the possibility of producing medical or dental parts by sele...
The additive technologies characterize with the building of one layer at a time from a powder or liq...
The existence of an MCP Realizer II SLM 250 equipment at the National Centre of Innovative Manufactu...
This work describes advanced fabrication of custom orthopaedic implants using unconventional additiv...
In recent years, digitizing and automation have gained an important place in the manufacturing of me...
In recent years, digitizing and automation have gained an important place in the manufacturing of me...
Titanium alloys are receiving a great deal of attention in both medical and dental applications. For...
[EN ] This paper discusses the use of selective laser melting as a rapid manufacturing technique for...
Purpose – The computer-aided design (CAD) and manufacture of custom-fitting surgical guides have bee...
Aim and Background: Scientific approach is the utilization of the new generative manufacturing proce...
Selective laser melting (SLM) is one of the additive manufacturing (AM) processes that fabricates co...
The existence of an MCP Realizer II SLM 250 equipment at the National Centre of Innovative Manufactu...
The Co28Cr6Mo alloy is a well-established metallic biomaterial, widely used for the fabrication of o...
In recent years, digitizing and automation have gained an important place in fabrication of medical...
In recent years, digitizing and automation have gained an important place in fabrication of medical ...
Purpose This paper seeks to investigate the possibility of producing medical or dental parts by sele...
The additive technologies characterize with the building of one layer at a time from a powder or liq...
The existence of an MCP Realizer II SLM 250 equipment at the National Centre of Innovative Manufactu...
This work describes advanced fabrication of custom orthopaedic implants using unconventional additiv...
In recent years, digitizing and automation have gained an important place in the manufacturing of me...
In recent years, digitizing and automation have gained an important place in the manufacturing of me...
Titanium alloys are receiving a great deal of attention in both medical and dental applications. For...
[EN ] This paper discusses the use of selective laser melting as a rapid manufacturing technique for...
Purpose – The computer-aided design (CAD) and manufacture of custom-fitting surgical guides have bee...
Aim and Background: Scientific approach is the utilization of the new generative manufacturing proce...
Selective laser melting (SLM) is one of the additive manufacturing (AM) processes that fabricates co...
The existence of an MCP Realizer II SLM 250 equipment at the National Centre of Innovative Manufactu...
The Co28Cr6Mo alloy is a well-established metallic biomaterial, widely used for the fabrication of o...