钢／铝合金液固相复合工艺的研究

通过正交试验研究了各工艺量数以钢／铝合金液固相复合性能的影响，最佳工艺条件为铝合金液体温度７９０℃，钢板表面处理为酸洗＋钢刷＋５％的氟钛酸钾助焊剂，复合压力为３９．２ＭＰａ，组织观察表面界面脆性化合物的形成是导致结合强度降低的一个重要因素。     

TC2M2δ.5钛板冷热翻边成形极限及非对称化研究

TC2Mδ2.5mm钛板室温圆孔翻边成形试验结果表明,除翻边底孔尺寸小于极限值时在唇口边缘发生破裂的正常失效方式之外,冷翻边卸载后制件还出现凸缘平面翘曲、翻边孔口部椭圆化、唇口边缘高度不一致、壁厚分布不均匀等非对称化现象。600℃高温热翻边成形可以有效地提高成形极限,并消除了凸缘平面翘曲和口部椭圆化,但口部高度差以及壁厚不均等非对称化现象依然存在。本文在给出极限翻边系数的同时,对这种非轴对称化程度进行了定量描述,并给出了理论上的分析与解释。     

低频电磁水平半连续铸造中磁场的分布及其对宏观偏析的影响

采用数值模拟的方法研究了低频电磁水平半连续铸造7075铝合金中不同强度及频率的磁场在熔体中的分布,并采用试验的方法研究了不同条件的磁场对铸锭宏观偏析的影响.将使用传统水平半连续铸造生产出的铸锭与低频电磁水平半连续铸造生产的铸锭进行了比较.研究结果表明:在传统水平半连续铸造工艺条件下,铸锭中易出现较严重的负偏析及重力偏析;然而,在低频电磁水平半连续铸造过程中,低频电磁场的存在明显削弱了铸锭中的宏观偏析.此外,磁场在熔体中的分布情况将直接影响其作用效果,提高磁场强度及适当降低磁场频率均有利于对宏观偏析的改善.     

高强度Al-Sn-Si-Cu-Mg轴瓦材料的研究

针对现代发动机向高速、重载、无污染方向发展的需求，研发出了一种新型高承载能力的、无Pb的铝合金轴瓦材料。通过正交试验，分析了添加元素对合金力学性能的影响规律，确定了合金的成分控制范围。试验结果表明：该合金具有显著的时效硬化能力，它在475℃ 0．5h固溶淬火、160℃8h时效后的性能指标可达HV≥70；抗拉强度Rm≥200N／mm^2；伸长率A≥15％。     

低频电磁铸造铝合金结晶器材料对磁场的影响

低频电磁场作用下铸造铝合金过程中,优化的结晶器应该在电源频率相同、较低的电流下在铝熔体内部能够获得所需要的磁场强度.结合生产实际情况,设计出工业上实用的低频电磁铸造铝合金结晶器.在结晶器外套材料的不同情况下,对低频电磁铸造铝合金过程的电磁场进行了三维有限元数值模拟.模拟结果表明,当结晶器外套为软磁材料时,铝熔体内部磁场强度得到明显加强.     

A novel electroless silver depositing method for magnesium alloys

Depositing silver on magnesium alloy by both electroless plating and organic coatings was studied. The organic coating was made by immersing samples in organosilicon heat-resisting varnish. In this method the organic coating acts as interlayer between the substrate and silver film. When the reaction starts, silver deposits directly on the interlayer. X-ray diffraction and SEM analysis were used to determine the composition and morphology of the interlayer and silver film. The potentiodynamic polarization curves for corrosion studies of coated magnesium alloys were performed in a corrosive environment of 3.5% NaCl（mass fraction） at neutral pH （6.9）. The results indicate that compared with the substrate, the corrosion resistance of coated magnesium alloys increases greatly. Moreover, the method proposed in this work is environmentally friendly, non-toxic chemicals were used. In addition, it provides a new concept for the corrosion inhibition of magnesium alloys.     

半固态Y112铝合金成形组织与性能

采用近液相线半连续多模铸造法制备出Y112铝合金半固态坯料。分别考察了半固态合金流变成形件、触变成形件和常规压铸件的组织与性能。结果表明：Y112铝合金的半固态流变成形件的组织细小、均匀，硬度为112HV，优于触变成形件和常规压铸件的。     

对称复合板冷轧过程的上限分析

采用Hill提出的速度场 ,计算了对称复合板冷轧变形过程的能量消耗 ,在此基础上对软复层对称复合板在不同参数组合下冷轧时所需的最小摩擦、最大允许的加工率、以及复合板与轧辊间的摩擦状态进行了计算和分析 ,给出了相关计算曲线。计算结果表明 ,当基体材料的相对强度和相对厚度较小时 ,复合板冷轧时的变形行为与单金属冷轧时类似 ,但当基体材料的相对强度和相对厚度较大时 ,接触表面容易产生粘着现象。     

Effect of solid fraction on steel-mushy Cu-graphite pressing bonding

The pressing bonding of steel plate to QTi3.5-3.5graphite slurry was studied. The bonding conditions were 620℃ for preheating temperature of steel plate, 530℃ for preheating temperature of dies, 50 MPa for pressure and 2 min for pressing time. The relationship between the solid fraction of QTi3.5-3.5graphite slurry and the interracial mechanical property of bonding plate was obtained. The results show that when the solid fraction of QTi3.5-3.5graphite slurry is smaller than 45.8%, the interracial shear strength of bonding plate increases with the increasing of solid fraction. When the solid fraction is larger than 45.8%, the interracial shear strength decreases with the increasing of solid fraction. When the solid fraction is 45.8%, the largest interracial shear strength of bonding plate 127 MPa can be got, and the interface is made up of Fe-Cu solid solution.