Add to ORKGDirect processing of near fully dense technical ceramics is not possible with conventional additive manufacturing (AM) processes due to the very high temperatures that are required. Therefore, indirect AM approaches are often used. These indirect processes show great potential but require extensive post processing (e.g. debinding and sintering) leading to shrinkage, limited geometrical accuracy and eventually limiting overall part quality. To overcome these limitations, this paper presents a novel Microwave Assisted Selective Laser Melting process that enables direct processing of technical ceramics.status: publishe
The employment of the Selective Laser Melting (SLM) technique in the processing of ceramics has attr...
Additive manufacturing (AM; aka 3D printing) has the potential to rapidly shape parts with an almost...
Additive manufacturing (AM) technologies have recently excelled at the creation of geometrically com...
Direct processing of near fully dense technical ceramics is not possible with conventional additive ...
An additive manufacturing technique for high-strength oxide ceramics is presented. Based on selectiv...
Purpose: This paper aims to provide a review on the process of additive manufacturing of ceramic mat...
Additive manufacturing of ceramics and glass-ceramics is becoming important due to demands for high...
AbstractAn additive manufacturing technique (AM) for ceramics, based on Al2O3–ZrO2 powder by means o...
Additive manufacturing (AM; aka 3D printing) has the potential to rapidly shape parts, without compr...
Structured Abstract: Purpose – The purpose of this paper is to compare different powder metallurgy ...
Direct selective laser sintering (SLS) or selective laser melting (SLM) are additive manufacturing t...
Additive manufacturing technologies are currently envisaged to boost the development of a next gener...
Selective Laser Melting (SLM) is a particular rapid prototyping, 3D printing, or Additive Manufactur...
Oxide ceramics yield excellent mechanical properties along with outstanding thermal and wear resist...
An additive manufacturing technique based on selective laser melting (SLM) for zirconia-alumina cera...
The employment of the Selective Laser Melting (SLM) technique in the processing of ceramics has attr...
Additive manufacturing (AM; aka 3D printing) has the potential to rapidly shape parts with an almost...
Additive manufacturing (AM) technologies have recently excelled at the creation of geometrically com...
Direct processing of near fully dense technical ceramics is not possible with conventional additive ...
An additive manufacturing technique for high-strength oxide ceramics is presented. Based on selectiv...
Purpose: This paper aims to provide a review on the process of additive manufacturing of ceramic mat...
Additive manufacturing of ceramics and glass-ceramics is becoming important due to demands for high...
AbstractAn additive manufacturing technique (AM) for ceramics, based on Al2O3–ZrO2 powder by means o...
Additive manufacturing (AM; aka 3D printing) has the potential to rapidly shape parts, without compr...
Structured Abstract: Purpose – The purpose of this paper is to compare different powder metallurgy ...
Direct selective laser sintering (SLS) or selective laser melting (SLM) are additive manufacturing t...
Additive manufacturing technologies are currently envisaged to boost the development of a next gener...
Selective Laser Melting (SLM) is a particular rapid prototyping, 3D printing, or Additive Manufactur...
Oxide ceramics yield excellent mechanical properties along with outstanding thermal and wear resist...
An additive manufacturing technique based on selective laser melting (SLM) for zirconia-alumina cera...
The employment of the Selective Laser Melting (SLM) technique in the processing of ceramics has attr...
Additive manufacturing (AM; aka 3D printing) has the potential to rapidly shape parts with an almost...
Additive manufacturing (AM) technologies have recently excelled at the creation of geometrically com...