Selective laser melting is a promising powder-bed-based additive manufacturing technique for titanium alloys: near net-shaped metallic components can be produced with high resource-efficiency and cost savings [...
Grain refinement of additively manufactured titanium and titanium alloys can be promoted via adding ...
LaserCUSING® is a selective laser melting (SLM) process that is capable of manufacturing parts by me...
The "Holy Grail" of metal additive manufacturing is to manufacture reliable high-performan...
Selective laser melting is a promising powder-bed-based additive manufacturing technique for titaniu...
Selective laser melting is a promising powder-bed-based additive manufacturing technique for titaniu...
peer reviewedAdditive manufacturing processes such as laser cladding (LC) or selective laser melting...
Additive technologies are one of the drivers for development of new industrial revolution. For devel...
Additive technologies are one of the drivers for development of new industrial revolution. For devel...
Selective laser melting (SLM) and laser cladding were developed in the late 1990s as economic layer-...
Titanium alloys represent a very important class of alloys used widely in the aerospace sector due t...
Selective Laser Melting is an Additive Manufacturing process in which functional, complex parts are ...
Ti-6Al-4V is also known as the “workhorse” of the titanium metals as it is the most commonly used ti...
In-situ alloying within laser powder-bed fusion, specifically Selective Laser Melting (SLM), has bee...
The effects of process parameters of laser additive manufacturing (laser power, scanning speed, scan...
The objective of this project is to examine and analyse the microstructures and mechanical propertie...
Grain refinement of additively manufactured titanium and titanium alloys can be promoted via adding ...
LaserCUSING® is a selective laser melting (SLM) process that is capable of manufacturing parts by me...
The "Holy Grail" of metal additive manufacturing is to manufacture reliable high-performan...
Selective laser melting is a promising powder-bed-based additive manufacturing technique for titaniu...
Selective laser melting is a promising powder-bed-based additive manufacturing technique for titaniu...
peer reviewedAdditive manufacturing processes such as laser cladding (LC) or selective laser melting...
Additive technologies are one of the drivers for development of new industrial revolution. For devel...
Additive technologies are one of the drivers for development of new industrial revolution. For devel...
Selective laser melting (SLM) and laser cladding were developed in the late 1990s as economic layer-...
Titanium alloys represent a very important class of alloys used widely in the aerospace sector due t...
Selective Laser Melting is an Additive Manufacturing process in which functional, complex parts are ...
Ti-6Al-4V is also known as the “workhorse” of the titanium metals as it is the most commonly used ti...
In-situ alloying within laser powder-bed fusion, specifically Selective Laser Melting (SLM), has bee...
The effects of process parameters of laser additive manufacturing (laser power, scanning speed, scan...
The objective of this project is to examine and analyse the microstructures and mechanical propertie...
Grain refinement of additively manufactured titanium and titanium alloys can be promoted via adding ...
LaserCUSING® is a selective laser melting (SLM) process that is capable of manufacturing parts by me...
The "Holy Grail" of metal additive manufacturing is to manufacture reliable high-performan...
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