In this study,functionally graded foam made of Inconel 625 superalloy was successfully produced using the template replication method,with open-cell polyurethane foams as a precursor.The products have a similar pore morphology as the templates and adjacent layers were successfully sintered together by par-ticle bonding.Sound absorption experiments on graded metallic foams reveal that the sound absorption at particular frequency ranges can be improved by various permutations of foam layers.For graded foam of two distinct pore sizes,a mathematical equation was proposed to predict the location of the intersec-tion point of the sound absorption curves,thereby aiding in graded foam design.An increase in sound absorption coefficients by resonance-like effects can be introduced before the intersection points by plac-ing the foam layer of smaller pore size nearer to the sound source.The sound absorption performances can be further customized when the thickness proportion of the pore sizes is changed and when the number of distinct pore sizes used is increased.The sound absorption performance at lower frequencies is generally boosted by resonance-like effects when the layer of foam with the largest pore size is placed furthest from the sound source.Given the same composition of foam with a fixed thickness proportion of pore sizes,one can introduce resonance-like effects to improve the sound absorption performance compared to other permutations while possibly satisfying weight requirements in practical applications.This study provides valuable insights and mathematical guidelines in the design and manufacturing of functionally graded metallic foam for specific applications.

Jun Wei Chua;Xinwei Li;Tao Li;Beng Wah Chua;Xiang Yu;Wei Zhai

Department of Mechanical Engineering,National University of Singapore,117575,Singapore;Agency for Science,Technology and Research(A*STAR),Singapore Institute of Manufacturing Technology,138634,Singapore;Agency for Science,Technology and Research(A*STAR),Engineering Mechanics,Institute of High-Performance Computing,1 Fusionopolis Way,138632,Singapore

材料科学技术（英文版）

[1]Jun Wei Chua;Xinwei Li;Tao Li;Beng Wah Chua;Xiang Yu;Wei Zhai-.Customisable sound absorption properties of functionally graded metallic foams)[J].材料科学技术（英文版）,2022(13):196-207

Customisable,intersec,plac,furthest

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