(西北工業(yè)大學(xué)機(jī)械系,西安 710072)
摘 要: 利用TEM技術(shù)觀察和分析了2090和2090+Ce兩種合金中,位錯與T1相之間的交互作用行為,發(fā)現(xiàn)T1相與位錯間的交互作用是一種切過和繞過的混合型;并利用脫溶相強(qiáng)化理論建立了相關(guān)的物理模型。實算結(jié)果表明,在190℃時效3~48h,T1相的強(qiáng)化作用約占總的臨界剪切應(yīng)力(CRSS)的30%~60%,其強(qiáng)化作用隨時效時間的延續(xù)而增強(qiáng),但過時效后增強(qiáng)作用平緩。2090和2090+Ce兩種合金對比結(jié)果表明,在欠時效時,兩合金中T1相的強(qiáng)化作用沒有多大差異,而過時效狀態(tài)下,含Ce合金中T1相的強(qiáng)化作用略大于前者,在僅考慮切過機(jī)制的情況下這種傾向尤為明顯。欠時效時兩合金基體強(qiáng)化作用約相差3.2 MPa,而過時效時兩合金基體的強(qiáng)化作用約相差8.7 MPa左右。
關(guān)鍵字: 鋁鋰合金; T1(Al2CuLi)相;強(qiáng)化作用
(Department of Mechanics, Northwestern Polytechnic University, Xi'an 710072, P.R.China)
Abstract: The behavior of interaction between dislocation an d T1-phase was observed and analyzed by means of TEM technique. The observing results show that the interaction between dislocation and T1-phase is a mixture-type of cutting and around mechanism, and the physical model are established by theory of precipitates strengthening. The results of calculation illustrate that the contribution of T1-phase is about 30%~60% to the total critical resolved shear stress (CRSS), and that the strengthening effects of T1-phase in 2090 and 2090+minor Ce alloys are little different at under-aged condition, but the strengthening effect of T1 precipitates in alloy containing cerium is less bigger than that of 2090 not containing cerium under over-aged condition, especially the cutting mechanism is only considered. The difference between strengthening effect of matrix in two alloys is about 3.2 MPa under-aged and 8.7 MPa or so under over-aged condition.
Key words: Al-Li alloy; T1(Al2CuLi)-phase; strengthening effect
