Investigation on diffusion bonding characteristics of aluminum metal matrix composites (Al/SiCp) with pure aluminum for different heat treatments

“…However, increasing the volume percentage of SiC particles increases the interface area between the SiC particles and Aluminum matrix due to low inter particles space area causes the agglomeration of SiC particle results in low tensile properties [26]. The volume percentage of SiC particles increases could be restrict the grain boundary sliding, dislocations and also the weak interfacial bond between the reinforcement particles and the matrix, finally it leads to deteriorate the tensile properties [27,28].…”

Influence of rotational speed and reinforcements on wear and mechanical properties of aluminum hybrid composites via friction stir processing

“…However, increasing the volume percentage of SiC particles increases the interface area between the SiC particles and Aluminum matrix due to low inter particles space area causes the agglomeration of SiC particle results in low tensile properties [26]. The volume percentage of SiC particles increases could be restrict the grain boundary sliding, dislocations and also the weak interfacial bond between the reinforcement particles and the matrix, finally it leads to deteriorate the tensile properties [27,28].…”

Influence of rotational speed and reinforcements on wear and mechanical properties of aluminum hybrid composites via friction stir processing

“…Adapted from the previous investigations (Shirzadi et al, 2001;Muratoglu et al 2006), a simple illustration for disruption of stable oxide films and thus diffusion bonding is shown schematically in Fig. 8.…”

Diffusion bonding in fabrication of aluminum foam sandwich panels

“…Moreover, the absence of distinct hardness profiles transverse to the joining zone was also observed in joints prepared by diffusion bonding of Al/SiC materials. [23] …”

“…[22] The joining of SiC particulate reinforced aluminum MMCs with pure aluminum by diffusion bonding was reported by Muratoglu et al [23] Here, the conglomeration of the ceramic particles and diffusional changes at the interface depressed the materials homogeneity at the joint. Partial transient liquid phases provided improved diffusion bonding of zirconium alloy (Zr-2.5Nb) to stainless steel 321.…”

Joining of Zirconia Reinforced Metal–Matrix Composites by a Ceramics‐Derived Technology