Fabrication of Al/SiCP composite strips by repeated roll-bonding (RRB) process

“…As mentioned before, the Al/SiC P composite has also been produced by the authors by RRB process, in which the strips anneal between each two rolling cycles [13]. Fig.…”

“…They successfully dispersed 0.5 wt% of the blowing agent particles between aluminum strips, by the ARB process. Recently, the authors succeeded in developing Al/SiC P composite through the repeated roll-bonding (RRB) process [13]. The repeated roll-bonding process is the same as ARB process, with just a main difference between these two.…”

Fabrication of nanostructure Al/SiCP composite by accumulative roll-bonding (ARB) process

“…As mentioned before, the Al/SiC P composite has also been produced by the authors by RRB process, in which the strips anneal between each two rolling cycles [13]. Fig.…”

“…They successfully dispersed 0.5 wt% of the blowing agent particles between aluminum strips, by the ARB process. Recently, the authors succeeded in developing Al/SiC P composite through the repeated roll-bonding (RRB) process [13]. The repeated roll-bonding process is the same as ARB process, with just a main difference between these two.…”

Fabrication of nanostructure Al/SiCP composite by accumulative roll-bonding (ARB) process

“…Aluminum matrix composites (AMCs) are one of the advanced engineering materials that have been utilized in high-tech structural and functional applications like aerospace, automotive, defense, electronic industries, as well as in sports and recreation [1][2][3][4]. As compared to monolithic materials, AMCs show lower wear rates due to protection of contact surfaces by hard reinforcements [5].…”

Investigation of friction and wear behaviors of 2024 Al and 2024 Al/SiCp composite at elevated temperatures

“…It can be seen that the tensile strength increases by increasing the number of rolling cycles up to the eighth cycles. In the initial rolling cycles, bonding between the strips is weak, and it gets stronger by increasing the rolling cycles [11]. The presence of porosities between the layers is the main reason for obtaining the lower strength in the samples which produced in the initial rolling stages [11].…”

“…In the initial rolling cycles, bonding between the strips is weak, and it gets stronger by increasing the rolling cycles [11]. The presence of porosities between the layers is the main reason for obtaining the lower strength in the samples which produced in the initial rolling stages [11]. By increasing the number of cycles, better bonding is created between the layers and the porosities are omitted, which results in the higher strengths.…”

Strengthening mechanisms in particulate Al/B4C composites produced by repeated roll bonding process