期刊
SCRIPTA MATERIALIA
卷 232, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.scriptamat.2023.115478
关键词
Copper alloys; Aging; Precipitates; Electrical conductivity
A double-peak precipitation hardening is observed in a Cu-0.75Fe-0.35Ti alloy aged at 500 degrees C, with an early hardness peak appearing after 1 h aging and a second peak after 6 h aging. Transmission electron microscopy observation shows that abundant coherent precipitates with large lattice mismatch form in the 1 h-aged specimen, leading to strong coherency strengthening and the early hardness peak. With aging time increasing to 6 h, the precipitates transform into incoherent Fe2Ti/FeTi precipitates, strengthening the alloy through the Orowan bypass mechanism and causing the second hardness peak. The 1 h-aged specimen exhibits higher hardness (181.2 HV) than the 6 h-aged one (174.8 HV), while both have comparable electrical conductivity (56.8%IACS and 59.8%IACS, respectively). Our findings suggest the possibility of designing high-performance Cu-Fe-Ti alloy with coherent precipitates through a rapid process.
A double-peak precipitation hardening is observed in a simple one-step cold rolled Cu-0.75Fe-0.35Ti alloy upon aging at 500 degrees C, in which an early hardness peak (aging for 1 h) appears preceding the second one (aging for 6 h). Transmission electron microscopy observation reveals that profuse coherent precipitates keeping large lattice mismatch with matrix are formed in the 1 h-aged specimen, resulting in a strong coherency strengthening and accounting for the early hardness peak. With aging time increasing to 6 h, the precipitates evolve into incoherent Fe2Ti/FeTi precipitates and strengthen alloy through the Orowan bypass mechanism, responsible for the second hardness peak. Finally, the 1 h-aged CRA specimen shows a higher hardness (181.2 HV) than the 6 h-aged one (174.8 HV) while a comparative electrical conductivity (56.8%IACS) as the 6 h-aged one (59.8%IACS). Our findings provide the possibility to design high-performance Cu-Fe-Ti alloy with coherent precipitates through a rapid process.
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