Add to ORKGThe paper presents an experimental investigation of the thermal and hydraulic performance of a new class of porous metallic foams with ordered arrangements of the Rhombi-Octet unit cell design for use in a water-cooled cold plate. Selective laser melting (SLM) was employed to fabricate the porous metallic foams of two different unit cell sizes. A closed-loop chilled water test facility was set up to perform the experimental investigation and the results of the SLM fabricated porous metallic foams were compared with those of a commercially available metallic foam of random tetrakaidecahedron-like unit cell structures. The permeability (K) and inertia coefficient (CE) of the various metallic foams were characterized using the Forchheimer-exte...
Metal foams, a new class of porous material with highly permeable structure and higher porosity (>0....
In this study, two novel porous lattice air-cooled heat exchangers (Lattice 1 and Lattice 2) were fa...
The objective of this report is to study the effects of 3D printed substrates with porous microstruc...
This project investigated the augmentation in the heat transfer ability of a cold plate fitted with ...
This project investigated the augmentation in the heat transfer ability of a cold plate fitted with ...
This project experimentally investigated the heat transfer enhancement capability of 3D-printed poro...
This project experimentally investigated the heat transfer enhancement capability of 3D-printed poro...
Thermal management in electronic devices is becoming increasingly challenging due to the higher heat...
Thermal management in electronic devices is becoming increasingly challenging due to the higher heat...
Forced convection heat transfer in four structured porous materials produced by selective laser melt...
Compact heat exchangers such as porous foam coldplates have great potential as a high heat flux cool...
A water-cooled cold plate which is capable of dissipating up to 320 W of heat while maintaining the...
A water-cooled cold plate which is capable of dissipating up to 320 W of heat while maintaining the...
Ultra-light Porous metallic foams (the metal foam) are novel multi—functinal porous materials,...
The objective of this report is to study the effects of 3D printed substrates with porous microstruc...
Metal foams, a new class of porous material with highly permeable structure and higher porosity (>0....
In this study, two novel porous lattice air-cooled heat exchangers (Lattice 1 and Lattice 2) were fa...
The objective of this report is to study the effects of 3D printed substrates with porous microstruc...
This project investigated the augmentation in the heat transfer ability of a cold plate fitted with ...
This project investigated the augmentation in the heat transfer ability of a cold plate fitted with ...
This project experimentally investigated the heat transfer enhancement capability of 3D-printed poro...
This project experimentally investigated the heat transfer enhancement capability of 3D-printed poro...
Thermal management in electronic devices is becoming increasingly challenging due to the higher heat...
Thermal management in electronic devices is becoming increasingly challenging due to the higher heat...
Forced convection heat transfer in four structured porous materials produced by selective laser melt...
Compact heat exchangers such as porous foam coldplates have great potential as a high heat flux cool...
A water-cooled cold plate which is capable of dissipating up to 320 W of heat while maintaining the...
A water-cooled cold plate which is capable of dissipating up to 320 W of heat while maintaining the...
Ultra-light Porous metallic foams (the metal foam) are novel multi—functinal porous materials,...
The objective of this report is to study the effects of 3D printed substrates with porous microstruc...
Metal foams, a new class of porous material with highly permeable structure and higher porosity (>0....
In this study, two novel porous lattice air-cooled heat exchangers (Lattice 1 and Lattice 2) were fa...
The objective of this report is to study the effects of 3D printed substrates with porous microstruc...