Effect of Mg substitution for La on microstructure, hydrogen storage and electrochemical properties of La1−xMgxNi3.5 (x=0.20, 0.23, 0.25 at%) alloys

The effect of Mg substitution for La on microstructure, hydrogen storage and electrochemical properties of the annealed La_(1-x) Mg_x Ni_3.5(x=0.20, 0.23, 0.25 at%) alloys have been studied. All the samples were mainly composed of(LaMg)_2Ni_7,(LaMg)Ni_3, and LaNi_5 phases. Mg substitution for La changed the phase abundance, but did not change the constitution of all phases, which is con fi rmed by the results of backscattered SEM images and EDS analysis. The P–C isotherms indicated that the La_(1-x) Mg_x Ni_3.5alloys reversibly absorbed and desorbed hydrogen smoothly at 298 K. The hydrogen absorption cyclic stabilities of La_(1-x) Mg_x Ni_3.5alloy after 5 hydrogen absorption/desorption cycles reached the maximum values of91.9% and 96.0% at 298 K and 323 K, respectively. The hydrogen desorption capacity and plateau pressure for the La_(1-x) Mg_x Ni_3.5alloy reached the maximum values of 1.055 H/M and 0.074 MPa, respectively. The desorption capacities of La_(1-x) Mg_x Ni_3.5reached 0.193 H/M and 0.565 H/M in the fi rst minute at 298 K and 323 K, respectively. Electrochemical property measurement indicated that La_(1-x) Mg_x Ni_3.5(x=0.20,0.23, 0.25 at%) alloys possessed excellent activation capability and were completely activated within3 cycles. Discharge capacities of La_(1-x) Mg_x Ni_3.5alloys reached 378.2 m A h/g(x = 0.20 at%), 342.7 m A h/g(x = 0.23 at%), and 369.6 m A h/g(x = 0.25 at%), respectively. Moreover, energy density of La_(1-x) Mg_x Ni_3.5alloy was much larger than that of La_0.80Mg_0.20Ni_3.5 alloy and nearly approaches the maximum value of La0.75Mg0.25Ni3.5. Thus, the La_(1-x) Mg_x Ni_3.5alloy exhibits optimum comprehensive properties of hydrogen storage and electrochemistry.     

Microstructure and properties of in-situ synthesized Cu-1 wt%TiC alloy followed by ECAP and post-annealing

A dispersion-strengthened copper alloy with 1 wt% TiC for commercial electrical-contact wires was prepared by in-situ reaction casting, grain-ultrafining by equal-channel angular pressing (ECAP) and subsequent annealing with aim to obtain excellent comprehensive performance. The results showed that fine TiC particles were in-situ synthesized in the as-cast Cu matrix and aggregated in clusters, and thus mechanical properties of the as-cast alloy deemed insufficient. Continued ECAP at 473 K significantly refined the grains of the as-cast alloy and improved the distribution of TiC particles. Due to multiple strengthening mechanisms, the ECAP-processed alloys maintained good conductivity with obviously enhanced tensile strength and hardness values. After post-ECAP annealing, the elongation and conductivity of the fine-grained copper alloy increased with the adequate tensile strength. The novel combined process endows the alloy appropriate performance to serve current high-frequency electrification railway systems.     

成形速度对7075半固态模锻组织均匀性的影响

在半固态模锻过程中,经常会出现液相偏析现象,使零件出现"弱点"或"弱区",这些"弱点"或"弱区"通常又是潜在的裂纹源和服役条件下失效的起因。为了分析研究半固态模锻液相偏析的影响因素,应用DEFORM-3D软件对7075铝合金半固态模锻充型过程进行了模拟,研究了成形速度对7075铝合金杯形件充型过程的影响规律。在模拟的基础上,利用压力机及杯形实验模具,进行了半固态7075铝合金流变模锻成形,研究了成形速度对7075铝合金杯形件半固态模锻组织均匀性的影响。模拟和实验结果表明:成形速度越高,充型越不平稳;在压头温度400℃、成形比压50 MPa、合金温度628℃的条件下,随着成形速度的增加,杯形件的液相偏析度增加,组织越不均匀,当成形速度为5mm/s时,杯形件的液相偏析度高达18.2%。     

难加工合金材料复杂曲面磁性磨料光整加工技术

磁性磨料光整加工技术是一种非常重要的光整加工技术,与低频振动和超声振动相结合,可实现高精度、高质量和高效率的光整加工。介绍了磁性磨料光整加工、振动辅助磁性磨料光整加工及超声辅助磁性磨料光整加工技术的原理和特点及相关的国内外研究现状。根据难加工合金材料复杂曲面的特点,提出实现复杂曲面磁性磨料光整加工,需要就以下问题开展进一步研究和探索:通过提高加工间隙的磁通量密度及磁能与其他能量复合来提高光整加工效率;建立复杂曲面磁性磨粒光整加工过程控制函数;探讨在磁极工具的空间几何约束作用下复杂曲面磁性磨料光整加工工艺的规划方法等。     

Ti-2%Al-2.5%Zr钛合金的高温持久强度

介绍了Ti-2%Al-2.5%Zr钛合金的成分、组织后,首先测定出了该合金在350 ℃下的σb和σ0.2值.根据试验的特点、试材的组织状况及约比温度等因素确定了试验采用的6个应力水平点.按GB6395-86《金属高温拉伸持久试验方法》标准规定对该合金进行了350 ℃下的持久强度试验.对获得的数据用最小二乘法进行回归处理后,得到了适用于工作应力在σ350 ℃0.2＜σ＜σ350 ℃b范围的方程;而适用于工作应力σ＜σ350℃0.2 并可以外推一个数量级的方程最后,观察到试验后该种钛合金的金相组织发生了明显的变化:在集中塑性变形区呈明显的纤维状,而在均匀塑性变形区则由于回复再结晶而变成细小的等轴晶了.     

消除7A05铝合金板材各向异性的热处理工艺

为提高7A05铝合金热轧板材的综合力学性能并减少各向异性,对7A05铝合金固溶、预时效、时效和形变处理等工艺对性能的影响进行了系统的研究. 比较了供货态、形变态、回归(RRA)态和采用预时效形变热处理的优化态热处理工艺对综合力学性能的影响. 结果表明:固溶的最佳温度为480 ℃,单级时效最佳工艺为120 ℃,24 h,双级时效中第一级时效最佳工艺为90 ℃,8 h,最佳形变为25%. 通过金相组织和力学性能测试结果表明:由于预时效析出促进形变热处理时亚晶等轴化,优化态强度高,进一步改善了合金性能,减少了轧制板材纵横向力学性能各向异性倾向.     

油气雾化技术在钛合金加工中应用研究

为了提高金刚石刀具切削钛合金零件的表面加工质量,减轻金刚石刀具的磨损,提出一种以二氧化碳、水及植物油雾化后的雾状混合物作为冷却介质的加工技术.冷却介质经研制的油气雾化装置喷淋到切削区,达到冷却、润滑及保护金刚石刀具的目的.对比实验表明,利用油气雾化技术,二氧化碳气体能够更充分地接触加工表面,使工件加工表面中微量铁原子直...     

铝合金表面构建超疏水性的化学改性机理

系统研究了刻蚀一化学改性两步法中的蒸镀改性工艺对铝合金表面形貌和润湿性的影响,提出了刻蚀与化学改性同时进行的一步浸泡法制备超疏水铝合金.结果表明,两步法蒸镀改性工艺中,硬脂酸端部的极性亲水羧基与铝合金表面羟基以共价键结合,从而在铝合金表面形成一层硬脂酸膜,使铝合金实现低表面能化,水滴在其表面处于Cassie状态,接触角...     

玻璃与金属封接过程中气孔率和玻璃飞溅

通过测量不同工艺条件下玻璃绝缘子中的气孔率和最大气泡直径,以及观察底盘表面的玻璃飞溅情况,研究了熔封气氛、熔封温度、熔封时间、氧化膜类型和厚度对玻璃绝缘子中气孔率和玻璃飞溅的影响.结果表明,玻璃绝缘子中气孔率与可伐合金底盘表面的飞溅程度有一定的关系.可伐合金表面Fe3O4氧化物与玻璃中SiO2发生化学反应是玻璃绝缘子中气泡的一个重要来源,也是引起玻璃飞溅的因素.熔封气氛和氧化膜厚度对气孔率和玻璃飞溅影响最大.推荐的工艺条件是在可伐合金表面生成厚度约1μm的FeO氧化膜,然后与玻坯在950～980℃工厂条件的气氛中熔封30～40 min.     

Influence of B,Al and Nb addition on the glass forming ability and stability of mechanically alloyed Zr-Ni amorphous alloys

We investigated the influence of minor additions of B,Al and Nb that have representative atomic sizes on the glass forming ability (GFA) and stability of Zr-Ni amorphous alloys during mechanical alloying. The results show that the minor addition of B,Al or Nb does not shorten the initial time of the full amorphization reaction or improve the glass forming ability of the Zr-Ni alloys at a low rotation speed. However,B addition can effectively improve the mechanical stability of the amorphous phase against me...