摘要
The ultrafine grained(UFG)1050 aluminum alloy was prepared by equal channel angular pressing at cryogenic temperature,namely cryoECAP process.The tensile behavior and microstructures of UFG 1050 aluminum alloy after annealing at 90-210°C for 4 h without and with high magnetic field of 12 T were investigated by tensile tests,transmission electron microscope,and electron backscattered diffraction analyses.After cryoECAP and annealing treatments,the 1050 aluminum alloy has ultrafine grains with 0.7-1.28μm in size,the ratio of ultimate tensile strength to yield strength is less than 1.24,and the uniform elongation is less than 2.3%.With increasing the annealing temperature from 90°C to 210°C,the yield-drop phenomenon becomes more obvious due to the decrease in mobile dislocations to maintain the applied strain rate during tensile deformation.The uniform elongation decreases from 1.55%to 0.55%,the dislocation density reduces from 5.6×10^(14)m^(−2)to 4.2×10^(13)m^(−2),and the fraction of high-angle grain boundaries(HABs)increases from 63.8%to 70.8%.These phenomena cause the higher annihilation rate of dislocations,thereby leading to the degradation of strain hardening effect.During annealing under high magnetic field at 90-210°C,the low fraction of HABs(61.7%-66.2%)can provide a slower annihilation rate of dislocations,therefore resulting in the higher uniform elongation(0.64%-1.60%)and slower decrease in the flow stress after the yield peak.
采用低温等径角挤压(cryoECAP)制备了超细晶(UFG)1050铝合金。采用拉伸试验、透射电子显微镜和电子背散射衍射等方法,研究了UFG 1050铝合金在90~210℃、无磁场和12 T强磁场下退火4 h后的拉伸行为和显微组织。1050铝合金经cryoECAP退火后,晶粒尺寸为0.70~1.28μm,极限抗拉伸强度与屈服强度之比小于1.24,均匀延伸率小于2.3%。随着退火温度从90℃上升到210℃,屈服下降现象变得明显,这是因为在拉伸变形过程中,为了维持所施加的应变速率,可动位错有所减少。均匀延伸率从1.55%下降到0.55%,位错密度从5.6×10^(14)m^(-2)下降到4.2×10^(13)m^(-2),大角度晶界含量从63.8%增加到70.8%,使得位错湮灭速率提升,从而导致了应变硬化能力的降低。在90~210℃的强磁场退火条件下,低含量的大角度晶界(61.7%~66.2%)可以提供一个较慢的位错湮灭速率,从而导致较高的均匀延伸率(0.64%~1.60%)和更慢的屈服点后的流变应力下降。
出处
《稀有金属材料与工程》
SCIE
EI
CAS
CSCD
北大核心
2023年第9期2993-3002,共10页
Rare Metal Materials and Engineering
基金
National Natural Science Foundation of China(51574076)。
