Aluminum metal-matrix composites (MMCs) show great potential for aircraft industries. Nevertheless, the composites can be affected by different forms of corrosion such as pitting and galvanic corrosion. A pulsed YAG laser installation. was used to produce surface treatment on Al(18)B(4)O(33)w/2024Al composite. Results indicate that laser power has significant influences on both of the microstructure and the corrosion resistance. The difference in morphological transformations was observed on the surfaces of the laser-treated specimens. An increase in E-pit was obtained after laser treatment for the composite. The improvement was considered primarily due to the reduction both of reinforcement Al18B4O33 whisker and intermetallics CuAl2 on the surfaces of the laser-treated composites, which were found to be sites for pits nucleation. Moreover, the specimen with 700 W laser treatment exhibited a much greater resistance to corrosion than the other specimens with laser treatment. This was attributed to the formation of the homogeneous and defect free microstructure in the laser-modified layer. (c) 2006 Elsevier B.V. All rights reserved.