This thesis is an experimental investigation of the heat transfer performance of metal foam used in traditional heat sink under natural convection. Experiment use different PPI and thickness of the copper foam, sintering metal foam heat sink on copper base plate, and this experiment to test heat sink three groups of samples, and explore the fins in heat transfer performance of horizontal and vertical angles. Finally, we discuss the effect of heat radiation, and comparison with or without black body paint on the heat transfer. The first set of experiments fixed the fin thickness, observed the heat transfer performance of metal foam with three different thickness and PPI, 6+4 mm,50PPI sample has the highest heat transfer coefficient, heat transfer coefficient for 6+4 mm,50PPI sample is better than 10mm flat plate by 6.6%, again 9+1 mm,50PPI sample is better than 10mm flat plate by 3.5%. The second set of experiments sample has groove in the base plate surface, and sintering 1mm,50PPI copper foam in the groove, the experimental parameters is to change the width of the groove gap. Regardless of the horizontal and vertical angles, surface all metal foam sample has the highest heat transfer coefficient. The third set of experiments is sintering different thickness and PPI metal foam on the same base plate, experimental results show that the orientation is particularly significant on the heat transfer performance, vertical display-vertical fin, and horizontal have higher heat transfer coefficient, vertical display-horizontal fin has lower heat transfer coefficient.