Effects of Mg content on microstructure and mechanical properties of low Zn-containing Al-xMg-3Zn-1Cu cast alloys

Effects of Mg content on the microstructure and mechanical properties of low Zn-containing Al−xMg−3Zn−1Cu cast alloys(x=3−5,wt.%)were investigated.As Mg content increased in the as-cast alloys,the grains were refined due to enhanced growth restriction,and the formation ofη-Mg(AlZnCu)_(2) and S-Al_(2)CuMg phases was inhibited while the formation of T-Mg_(32)(AlZnCu)_(49 )phase was promoted when Mg content exceeded 4 wt.%.The increase of Mg content encumbered the solution kinetics by increasing the size of eutectic phase but accelerated and enhanced the age-hardening through expediting precipitation kinetics and elevating the number density of the precipitates.As Mg content increased,the yield strength and tensile strength of the as-cast,solution-treated and peak-aged alloys were severally improved,while the elongation of the alloys decreased.The tensile strength and elongation of the peak-aged Al−5Mg−3Zn−1Cu alloy exceed 500 MPa and 5%,respectively.Precipitation strengthening implemented by T′precipitates is the predominant strengthening mechanism in the peak-aged alloys and is enhanced by increasing Mg content.

不同合金元素对Mg15Al镁合金显微组织与腐蚀性能的影响

研究了Zn、Si、Nd三种元素对Mg15Al镁合金微观组织和腐蚀性能的影响,通过金相显微镜和XRD分析了Mg15Al-X合金的显微组织。结果表明:三种元素都能使Mg15Al合金的晶粒细化,Nd的细化效果最好。Mg15Al-1Zn中不出现新相,但是Zn的加入可促进β相的形成,而Mg15Al-1Si和Mg15Al-1.5Nd中分别出现了汉字状或块状新相Mg2Si和针状新相Al11Nd3,促使β相成均匀连续网状结构。添加Si元素,增加了β相含量,Mg2Si相与β相形成屏障保护α-Mg基体;添加Nd元素,β相含量减少,抑制了α-Mg基体与β相之间的微电偶腐蚀,从而提高了Mg15Al合金的耐腐蚀性。

Mg-15Li合金在碱性NaCl溶液中的腐蚀行为

用电化学方法研究了Mg-15Li合金在碱性NaCl溶液中的腐蚀行为.结果表明:在强碱性pH=13及扫描电镜环境下,当Cl-浓度低于0.4 mol/L时,合金表面形成稳定的钝化膜;随Cl-浓度增加,点蚀电位逐渐降低.

不同合金元素对Mg15Al高铝镁合金组织与性能的影响

研究了不同合金元素(Zn,Nd,Si)对Mg15Al镁合金的组织和性能的影响。通过对Mg15Al,Mg15Al1Zn,Mg15Al1Si,Mg15Al1.5Nd四种合金微观组织的观察和力学性能的测定,发现添加了合金元素后Mg合金组织中α-Mg基体和β-Mg17Al12相都得到了不同程度的细化,其中Mg15Al1Si,Mg15Al1.5Nd合金组织中有第三相生成,其形态分别为汉字状、块状,长针状。试验结果表明:添加Zn和Nd元素后,抗拉强度比Mg15Al合金显著提高,提高幅度分别为:13.2%和16.6%,而添加Si元素后Mg15Al1Si合金抗拉强度比Mg15Al合金低。添加Nd元素后,伸长率比Mg15Al合金显著提高,增幅为140%,添加了Si元素和Zn元素后,伸长率比Mg15Al合金低。

Mg69Ni15Gd10Ag6非晶合金对甲基紫的光催化降解性能

为研究Mg69Ni15Gd10Ag6非晶合金对甲基紫染料的光催化降解性能的影响,采用紫外-可见光谱法测定光催化降解过程中甲基紫染料的浓度变化,采用XRD和SEM分析晶体合金与非晶合金在光催化降解反应前后的结构和微观形貌的变化。结果表明:与晶体合金对甲基紫染料的光催化降解效果相比,非晶合金具有稳定、高效的特点。非晶合金在降解10 min时就达到97.6%的光催化降解率,并且在30 min时达到99.1%的光催化降解率;而晶体合金在10 min时仅能达到63.3%的光催化降解率,在光催化降解时间为30 min时,仅达到74.5%的光催化降解率。Mg69Ni15Gd10Ag6非晶合金对甲基紫染料的光催化降解过程为:中心碳原子发生羟基化反应,C=C键断裂生成二苯甲酮。

轧制变形对喷射沉积含Nd镁合金织构及LPSO相的影响

采用喷射沉积技术制备Mg-9Al-3Zn-1Mn-6Ca-2Nd合金沉积坯,对其进行挤压预变形和轧制变形(温度T=350℃;道次压下率e=20%,25%,30%).利用SEM,TEM和XRD研究二次变形对尺寸不对称挤压坯中织构演变及LPSO相形成的影响.结果表明:镁合金板坯经350℃和道次压下率为20%轧制后,在(Ca,Nd)Al2结构C15型Laves相基体形成24R结构Mg-Nd-Zn型LPSO相;随着轧制变形程度增大(e=20%,25%,30%)实现了形变织构的随机化,纳米级C15粒子钉扎位错与亚晶引起的再结晶的共同作用是导致基面织构(0002),柱面织构{1010}<0001>及锥面织构{1012}全面启动的主要原因.