… hardening, stacking fault energy is another important factor to increase the strain hardening
in the system. Low … Contribution of nano stacking faults to yield strength was raised by Jian et …

… As the major focus of this work is to study the variation of … The twinning factor β incorporates
the contribution of stacking fault … , a larger size effect on the work hardening in Cu–15 at.%…

… GS materials exhibit significant HDI strengthening and HDI strain hardening due to their …
SMAT temperatures play an important role in the mechanical properties of Cu-Al-Zn alloys. …

… This resulted in an improved strength-ductility synergy along with improved work hardening
… an increased stacking fault energy, along with improved strength and work hardening. …

… stacking faults (SFs) contribute to strengthening by impeding dislocation motion, the contribution
of SF strengthening to work hardening … are important to their deformation behavior and …

… grains regains acceptable strain hardening capability [11,13]. … in the Cu–Al alloy with low
stacking fault energy. The material is … Such a high strength is contributed from the nano-sized …

… 8), Tian et al. [61] proved a significant contribution of SFs in strain hardening of a Cu-Al
alloy … The Cu-15%Al alloy with a low SFE demonstrated that the SFs mainly induced the …

… Stacking fault energy (SFE) is one of the significant factors that affect the dislocation behavior
… potential GB motion could also contribute to the high GB atomic strain in the dotted region. …

… Al alloy rod with low stacking fault energy (SFE) of ∼6 mJ m … We found the DCS Cu–Al
alloy has both higher strength and … an important role in the work hardening ability of the core. …

… stacking fault energy material (Cu) has higher tendency to increase strength and work
hardened compared to higher stacking fault … Because of twinning plays a significant role in grain …