Abstract

Abstract Open cell Al foams usually show poor sound absorption performance due to excessively low flow resistance. In order to overcome this shortcoming, several measures have been taken including compression, cell surface erosion and modification, etc. In the present study, a cell surface modification process is adopted to synthesize needle like Co 3 O 4 on the cell walls of open cell Al foams via hydrothermal method. The phase and morphology of micro-Co 3 O 4 needles are characterized, and the airflow resistance as well as the sound absorption behavior of modified Al foams is examined. The Co 3 O 4 needles have the diameter of around 5 μm and lengths of 10-50 μm. After the modification, the airflow resistance of the foams increases from 30Pa·s/m to 93Pa·s/m, and the height of sound absorption coefficient peak increases from 0.65 to 0.95. This demonstrates that the coverage of a rough Co 3 O 4 needle layer can enhance the interaction between the air and the cell surface, not only the friction force but also the thermal exchange strength because Co 3 O 4 needles possess both high thermal conductivity and high specific surface area, giving rise to increased flow resistance and increased sound absorption capability.