J. M. Ruiz‐Román scite author profile

Metal matrix syntactic foams (MMSF) are foam composites obtained by filling hollow and/or porous particles into a metal matrix. MMSF are promising materials in defense, aerospace, automotive, marine and engineering applications. Mechanical and physical properties of MMSF can be tailored to reach better structural and/or functional behaviors by fitting processing and tailoring parameters. Some of these parameters are: reinforcement size, volume fraction, distribution of reinforcements and chemical composition. Three techniques are available to manufacture MMSF: Stir casting/vortex method (SC), powder metallurgy (P/M) and infiltration routes. Infiltration process is by far the main employed for making MMSF, it allows a large range of reinforcement (30 vol % to 78 vol %) and offers great advantages compared to other techniques. This paper reviews infiltration routes used to date, their advantages and drawbacks, the main processing parameters of each route, and a relation of representative studies developed to date on the synthesizing of MMSF by molten infiltration processes.

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J. M. Ruiz‐Román

Mechanical characterisation of AA7015 aluminium alloy reinforced with ceramics

Electrochemical reactivation methods applied to PM austenitic stainless steels sintered in nitrogen–hydrogen atmosphere

Manufacturing of Al–Mg–Si alloy foam using calcium carbonate as foaming agent

Corrosion behaviour of P/M duplex stainless steels made from prealloyed and mixed powders

Molten Metal Infiltration Methods to Process Metal Matrix Syntactic Foams

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