排序方式: 共有22条查询结果,搜索用时 15 毫秒
1.
为优化7075铝合金轧板T6工艺,本文进行了固溶工艺实验研究,实验参数涉及固溶温度和固溶时间。结合轧板DSC曲线和实验获得的布式硬度数据,选取了4个工艺进行金相组织、拉伸性能、断口形貌的比较与分析。实验结果显示,固溶温度500℃、固溶1h、时效温度120℃、时效保温24h的T6工艺可以获得布式硬度179HB、非比例屈服强度493.1MPa,抗拉强度573.1MPa,延伸率11.7%,是本文实验获得的7075铝合金轧板最佳性能。分析认为,轧制中间退火降低了轧板变形储能、提高了再结晶温度,大变形量轧制和中间退火造成轧板中非平衡凝固共晶组织破碎、细化和分离,导致熔化温度升高并且难以出现过烧现象,因此对7075铝合金轧板的T6特别是固溶工艺设置要结合轧板变形情况、轧制过程和轧板DSC曲线。 相似文献
2.
3.
4.
电力物资质量直接影响配电网安全可靠运行。针对目前电力企业物资质量存在的问题,提出了基于配电网供电可靠性的电力物资质量评估方案。首先,统计电力物资普遍存在的质量问题;其次,具体分析由于物资质量问题引起的配网故障形式;最后,采用实际配电线路算例分析物资质量对供电可靠性影响程度。所给出的电力物资品控建议有助于提升电力企业物资质量管控水平。 相似文献
5.
6.
在超声波振荡搅拌下,实验研究了活性氧化铝对氟离子的吸附性能,分析了活性氧化铝颗粒大小、超声波振荡时间、pH、活性氧化铝加入量及原水氟浓度对吸附性能的影响。研究结果表明:活性氧化铝结晶不完整及晶格的无序使得它具有更大的比表面积;使用超声波振荡时,其除氟速率比机械搅拌快得多,除氟前期其平均除氟速率达0.93 mg/min,是机械搅拌除氟速率的5.8倍。同时,采用超声波振荡达到平衡的时间是机械搅拌的1/7,其饱和吸附容量也有所提高;pH在5~7时,活性氧化铝的吸附容量大、除氟速率高;另外,活性氧化铝的加入量及原水氟浓度对除氟速率和吸附容量也有重要影响。 相似文献
7.
The La0.55Pr0.05Nd0.15Mg0.25Ni3.5(Co0.5Al0.5)x(x=0.0, 0.1, 0.3, 0.5) alloys were prepared by magnetic levitation melting under an Ar atmosphere, and the effects of Co and Al on the hydrogen storage and electrochemical properties were systematically investigated by pressure composition isotherms, cyclic voltammetry, Tafel polarization and electrochemical impedance spectroscopy testing. The results showed that the alloy phases were mainly consisted of (La,Pr)(Ni,Co)5, LaMg2Ni9, (La,Nd)2Ni7 and LaNi3 phases, and the cell volumes of (La,Pr)(Ni,Co)5, LaMg2Ni9, (La,Nd)2Ni7 and LaNi3 phases expanded with Co and Al element added. The hydrogen storage capacity initially increased from 1.36 (x=0) to 1.47 wt.% (x=0.3) and then decreased to 1.22 wt.% (x=0.5). The discharge capacity retention and cycle stability of the alloy electrodes were improved with the increase of Co and Al contents. The La0.55Pr0.05Nd0.15Mg0.25Ni3.5(Co0.5Al0.5)0.3 alloy electrode possessed better electrochemical kinetic characteristic. 相似文献
8.
9.
针对异速比对龙形轧制7075铝合金50 mm厚板变形程度的影响进行了实验研究,在单道次压下10 mm、轧辊错位量4 mm的条件下,采用异速比1.00、1.06、1.10和1.16进行了龙形轧制实验,分析了异速比对轧板厚度、板厚方向分层晶粒组织和显微硬度的影响。结果表明,异速比对轧板厚度没有明显影响,不同异速比对轧板晶粒组织的影响也不明显;异速比为1.06和1.10时,轧板心部显微硬度高于异速比1.00的轧板,体现了异速比强化心部变形的作用;当异速比达到1.16时,轧板两个边面附近显微硬度明显降低,具体原因还有待进一步实验研究探索。 相似文献
10.
The La 0.5Pr0.2Zr0.1Mg0.2Ni2.75Co0.45Fe0.1Al0.2(M1) and Zr0.65Ti0.35(Mn0.2V0.2Cr0.15Ni0.45) 1.76(M2) hydrogen storage alloys were prepared by inductive melting.In addition,the M1+30 wt.%M2 composites were successively prepared by using high-energy ball milling technology.From the X-ray diffraction(XRD) analysis,it was found that M1 and M2 alloys still retained their respective main phases in the M1+30 wt.%M2 composites.The scanning electron microscopy(SEM) and energy dispersive spectroscopy(EDS) indicated that the decrease in discharge capacity of M1 and M2 alloy electrodes was ascribed to the oxidation-dissolution of La,Pr,Mg and Ti,Mn,V,Cr active elements,respectively.The electrochemical studies showed that the M1+30 wt.%M 2 composite electrode ball milling for 5 min exhibited excellence cyclic stability(92.3%) after 80 charge/discharge cycles,which was higher than 77.7 % and 85.6% of M1 and M2 alloy electrodes,respectively.Moreover,at the discharge current density of 1200 mA/g,the high rate discharge ability(HRD) of the M1+30 wt.%M2 composite electrode increased from 61.5%(5 min) to 70.3%(10 min).According to the linear polarization,Tafel polarization and cyclic voltammograms(CV),the electrochemical kinetics of hydrogen reaction on the surface of the electrode and hydrogen diffusion rate in the bulk of alloy were also improved in the M1+30 wt.%M2 composite with increasing ball milling time. 相似文献