Abstract
In recent times, aluminum matrix syntactic foams (AMSFs) have become considerably attractive for many industries such as automotive, aviation, aerospace and composite sector due to their features of low density, good compression strength, perfect energy absorption capacity and good ductility. Since the AMSF includes filler materials providing high porosity, it can be also named as composite foam and can be placed between traditional metal foams and particle reinforced composites. Glass and ceramic hollow spheres, fly ash cenospheres and ceramic porous materials are usually used in the AMSFs, but, lately, different types of fillers being cheaper and stronger have also being investigated. Although many scientific efforts have been made for the last decade to understand mechanical and physical properties of these advanced materials, studies have mainly been performed on relatively small size samples and remained in laboratory. Therefore, there is still room for improvement in terms of fabrication techniques. In this paper, our aims are to scrutinize newest studies about ASMFs, to create new viewpoints and to introduce an alternative bright perspective for probable real applications.
Highlights
Syntactic foam is an advanced engineering material composing of hollow or porous ceramic particles and a polymer or metal matrix
For aluminum matrix syntactic foams (AMSFs) fabrication, infiltration casting and dispersion casting techniques are preferred by majority of the researchers powder metallurgical ways recently have been investigated
By the reason of the fact that AMSFs have low density, perfect plateau behavior, good energy absorption ability and high ductility, they performs perfect under the compressive loadings
Summary
Syntactic foam is an advanced engineering material composing of hollow or porous ceramic particles and a polymer or metal matrix. Compared to other MMSFs, nowadays, AMSFs have been notably popular due to their unique properties like low density, good strength under compressive loadings, perfect energy absorption capacity and noteworthy ductility. They can be either considered as particle reinforced composites or can be interpreted as closed cell metal foams by reason of their original inner structure [2]. The synergetic effect between Al matrix and filler particle plays an important role both for mechanical and physical features
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
