Experimental Study of Heat Storage Performance of 3D Printed Metal Foam and Phase Change Materials Composite in Packaging Applications

“…Their thermal conductivity can be problematic, which is why composite PCMs with metal foam are used, which can reduce the time of heat storage, even by more than 40%, which has been proven using aluminum foam with a paraffin. The SLS technique was used, which, thanks to the principle of combining packaging material with a laser beam, makes it ideal for creating temperature sensors [ 38 ]. The ability to select a variety of materials that build up the porous structure offers a wide range of possibilities, including improved thermal performance when using metals with high thermal conductivity, such as copper [ 46 ] ( Figure 2 ).…”

Advanced Packaging Techniques—A Mini-Review of 3D Printing Potential

“…Their thermal conductivity can be problematic, which is why composite PCMs with metal foam are used, which can reduce the time of heat storage, even by more than 40%, which has been proven using aluminum foam with a paraffin. The SLS technique was used, which, thanks to the principle of combining packaging material with a laser beam, makes it ideal for creating temperature sensors [ 38 ]. The ability to select a variety of materials that build up the porous structure offers a wide range of possibilities, including improved thermal performance when using metals with high thermal conductivity, such as copper [ 46 ] ( Figure 2 ).…”

Advanced Packaging Techniques—A Mini-Review of 3D Printing Potential