Superior high-temperature tensile properties of aluminum matrix composites reinforced with carbon nanotubes

The relatively low strength of aluminum (Al) alloys and Al matrix composites at high temperatures has greatly limited their applications in aerospace and automobile areas. In this study, high-performance carbon nanotubes (CNTs)/Al composites with high room-temperature tensile strength over 500 MPa were tested at elevated temperatures up to 400 degrees C. Results showed that the strength of CNTs/Al composites increased with increasing CNT content up to 5 vol%. CNTs/Al composites showed improved reinforcing effects at elevated temperatures compared with those at room temperature. Consequently, the 5 vol%CNTs/Al composite achieved high tensile strength of 205 MPa when tested at 400 degrees C, which was superior to those values (less than 100 MPa) of most available Al matrix composites. The underlying mechanism was thoroughly discussed from the grain sizes, phase compositions, interface reaction and strengthening mechanisms at different testing temperatures. The results have revealed the excellent high-temperature properties of CNTs/Al composites and their potential use at elevated temperatures. (C) 2022 Elsevier Ltd. All rights reserved.

Automated summary

The relatively low strength of aluminum alloys and Al matrix composites at high temperatures has limited their applications. This study found that CNTs/Al composites showed improved reinforcing effects at elevated temperatures, achieving a high tensile strength of 205 MPa, superior to most available Al matrix composites.