Add to ORKGIn fluid flow, the frictional effects from interior surfaces of flow components create pressure loss across the surface. Understanding this inherent pressure loss due to friction and other phenomena is important when designing a flow system. For conventional manufacturing, friction loss has been empirically studied and is well known in the engineering community. However, newer manufacturing techniques, such as laser powder bed fusion (LPBF), an additive manufacturing technique, need to be understood. The inherent flow conditions resulting from the additive processes were studied. Test samples were printed with the flow path oriented in the vertical direction with different channel diameters to characterize the inherent fundamental flow prop...
Additive manufacturing continues to have problems with porosity, surface quality, and residual stres...
Additive manufacturing continues to have problems with porosity, surface quality, and residual stres...
Additive manufacturing continues to have problems with porosity, surface quality, and residual stres...
Metal additive manufacturing is moving from rapid prototyping to on-demand manufacturing and even to...
Metal additive manufacturing is moving from rapid prototyping to on-demand manufacturing and even to...
Laser-powder bed fusion (L-PBF) additive manufacturing involves complex physics such as heat transf...
Metal powder Additive Manufacturing (AM) technology is an innovative process that has recently been ...
One often-cited benefit of using metal additive manufacturing (AM) is the possibility to design and ...
One often-cited benefit of using metal additive manufacturing (AM) is the possibility to design and ...
Additive Manufacturing (AM) of copper and copper alloys has opened new frontiers in heat transfer ap...
International audienceThe laser-based powder bed fusion (LPBF) process is able to produce complex pa...
International audienceThe laser-based powder bed fusion (LPBF) process is able to produce complex pa...
As one of the most popular additive manufacturing (AM) technologies in the aerospace industry, laser...
As one of the most popular additive manufacturing (AM) technologies in the aerospace industry, laser...
Laser Powder Bed Fusion is a type of additive manufacturing of metal parts that uses fine metal powd...
Additive manufacturing continues to have problems with porosity, surface quality, and residual stres...
Additive manufacturing continues to have problems with porosity, surface quality, and residual stres...
Additive manufacturing continues to have problems with porosity, surface quality, and residual stres...
Metal additive manufacturing is moving from rapid prototyping to on-demand manufacturing and even to...
Metal additive manufacturing is moving from rapid prototyping to on-demand manufacturing and even to...
Laser-powder bed fusion (L-PBF) additive manufacturing involves complex physics such as heat transf...
Metal powder Additive Manufacturing (AM) technology is an innovative process that has recently been ...
One often-cited benefit of using metal additive manufacturing (AM) is the possibility to design and ...
One often-cited benefit of using metal additive manufacturing (AM) is the possibility to design and ...
Additive Manufacturing (AM) of copper and copper alloys has opened new frontiers in heat transfer ap...
International audienceThe laser-based powder bed fusion (LPBF) process is able to produce complex pa...
International audienceThe laser-based powder bed fusion (LPBF) process is able to produce complex pa...
As one of the most popular additive manufacturing (AM) technologies in the aerospace industry, laser...
As one of the most popular additive manufacturing (AM) technologies in the aerospace industry, laser...
Laser Powder Bed Fusion is a type of additive manufacturing of metal parts that uses fine metal powd...
Additive manufacturing continues to have problems with porosity, surface quality, and residual stres...
Additive manufacturing continues to have problems with porosity, surface quality, and residual stres...
Additive manufacturing continues to have problems with porosity, surface quality, and residual stres...