Effect of Al on microstructure and mechanical properties of as-extruded Mg–1Mn alloy sheet

The effect of Al addition on microstructure and mechanical properties of hot extruded Mg–1 Mn alloy sheet was investigated. The results revealed that the dynamic recrystallization was promoted by increasing Al content. The ultimate tensile strength and yield strength of the alloy increased with the increase of Al content. The Mg–9 Al–1 Mn alloy exhibited the highest strength, with tensile strength of 308 MPa, 307 MPa, 319 MPa, yield strength of 199 MPa, 207 MPa, 220 MPa and the elongation of 20.9%, 20.1%, 19.2% in 0°, 45°, 90°, respectively.The high strength was mainly attributed to the formation of fine dynamically recrystallized grains and large amounts of the second phase. The strengthening mechanism of the alloys was explained.     

Microstructure,mechanical properties and wear resistance of an Al–Mg–Si alloy produced by equal channel angular pressing

Microstructure, mechanical properties and wear resistance in an ultrafine-grained Al–Mg–Si alloy fabricated utilizing a combination of equal channel angular pressing (ECAP) and dynamic aging were investigated in this paper. The results indicated that the grain size of the ECAP alloy was significantly refined, i.e., to ~239 nm after three ECAP passes. Meanwhile, the yield and tensile strength of the ECAPed material reached 340 MPa and 445 MPa, respectively, while maintaining a significant uniform elongation of 14%. Wear resistance results demonstrated that the wear rate, wear depth and width of the ECAPed material decreased in comparison with the solution-treated (SST) and peak-aged (T6) conditions under a load range of 5–25 N. The adhesive wear that occurs in the undeformed specimens at 10 N does not appear in the ECAPed specimen at the same load, indicating that the ECAPed specimen delay the appearance of more serious wear mechanisms under certain loads. The cooperative interaction of high density nano-scale β" precipitates and dislocations resulted in a combination of super-high strength and good work hardening ability which suppressed the extension of cracks between the friction layer and the plastic deformation zone. As a consequence, the combination of ECAP and dynamic aging brings a significant improvement for antifriction performance of the 6061 aluminum alloy.     

铝合金加工用刀具的使用研究（三）

当前我国各机械加工生产厂家引进国外进口设备及生产线较多，实现引进设备及生产线上刀具的国产化以降低生产成本，成为当前国内整个机械加工领域亟待解决的问题。     

ZrO_2纳米微粒红外振动特征

测定了单斜ＺｒＯ_２纳米材料在各种粒度下的付里叶变换红外光声光谱（ＦＴ—ＩＲ—ＰＡＳ），发现随粒度的减小，大部分的谱线位置蓝移，而有些谱线的位置红移，同时在不同频段，有的强度增强，有的强度减弱甚至消失。研究了量子尺寸效应和介电限城效应对其光学特征的影响，对观察到的物理现象进行了物理机制探讨     

电磁相分离法制备自生表层复合材料

采用电磁相分离法制备出以初生富铁相（AlSiFeMn复杂金属间化合物）为增强相，表层硬度为HB62．25，基体硬度为HB59．00的Al-11.70%Si-1.20?-1.50%Mn合金自生表层复合材料，增强相的显微硬度为HV 842。87，大小为20－80μm，该表层复合材料同基体材料相比，耐磨性提高了57．41％，所用方法工艺过程简单，成本低，为解决材料在服役环境中不同部位，不同性能的问题提供了新途径。     

Fe_3Al的抗高温氧化和耐热腐蚀性能

在７００℃与８５０℃的高温下，Ｆｅ＿３Ａｌ金属间化合物表面形成了Ａｌ＿２Ｏ＿３保护膜，使其抗氧化性能远优于不妨钢，２％Ｃｒ（原子百分比）加入Ｆｅ＿３Ａｌ会导致氧化过程初期氧化速率的增高，在熔融的硫酸盐和高压锅炉的烟气中，Ｆｅ＿３Ａｌ的耐热腐蚀性能优于高温合金ＧＨ１３２．     

离子束增强沉积制备Al、Al－Y薄膜改善304不锈钢抗氧化性能的研究

用离子束增强沉积的方法，在３０４不锈钢表面合成了Ａｌ及Ａｌ－Ｙ薄膜．通过在９５０℃、１０５０℃的恒温氧化和９５０℃的循环氧化实验发现，由于Ａｌ＿２Ｏ＿３保护膜的生成显著提高了３０４不锈钢的抗氧化性，而Ｙ的加入又明显地提高了Ａｌ＿２Ｏ＿３氧化膜的抗循环氧化能力．本文通过ＳＥＭ、ＡＥＳ、ＥＰＭＡ及Ｘ射线衍射相分析等手段，分析了氧化产物层的形貌和组成．并根据实验结果探讨了Ａｌ、Ｙ有益作用的机制．     

超塑性板材气压成形模具的设计与计算

介绍了金属的“超塑性”概念及其特点,阐述了超塑性材料Zn-22%Al板材气压成形的原理,着重解释了其板材气压成形模具的设计与计算,对生产实际与理论探讨具有现实意义。     

铁铝原子在金属间化合物形成中的扩散

采用铁铝扩散偶,研究铁铝原子在化合反应中的扩散和金属间化合物的形成机理,扩散偶在铁铝低共熔反应温度上下进行热处理,结果表明,扩散偶在低于共熔反应温度处理时,在扩散偶铁－铝界面铁的一侧,通过铝原子的扩散,形成了富铝相金属间化合物ＦｅＡｌ２;而在高于共熔反应温度处理时,则在铁－铝界面上,通过铁、铝原子的互扩散形成了金属间化合物Ｆｅ３Ａｌ５,并随时间向两旁生长,两种化合物均为多孔体。研究发现铁、铝原子的