【摘 要】
:
A low-doped binary hydrogen generation material, Al-BiC13 composite, with high capacity and activity of H2 released have been successfully prepared by ball milling.The hydrogen yield, the conversion e
【机 构】
:
Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structur
【出 处】
:
第十七届全国相图学术会议暨相图与材料设计国际研讨会
论文部分内容阅读
A low-doped binary hydrogen generation material, Al-BiC13 composite, with high capacity and activity of H2 released have been successfully prepared by ball milling.The hydrogen yield, the conversion efficiency and the maximum hydrogen generation rate were 1175 mL·g-1, 97.9% and 1503 mL· g-1·min-1 respectively at 25C.The optimum conditions were explored which content of BiCl3 was 10 wt% with ball milling 5 h.By XRD, DSC, TG analyses and electrochemical property test, the experimental results demonstrated that owing to metallic Bi and AlCl3 were generated in situ during the ball milling, Al-BiCl3 composite had a higher performances.The range of the apparent activation energy (22.05~28.31 kJ·mol-1) showed that Al-BiCl3 composites could maintain the high activity at low-doped.
其他文献
Liquid phase separation phenomenon has been paid widespread attention on developing in-situ amorphous matrix composites.In this study, firstly, we determined the isothermal section of the phase diagra
本工作通过光学显微镜,扫描电镜-能谱仪,X射线衍射,分别测定了Zn-Co-Cu三元系723K和873K等温截面.实验发现723K等温截面中存在6个三相区;873K等温截面中存在5个三相区.γ(Co5Zn21)和Γ(Cu5zn8)形成了连续固溶体,Cu在β1(CoZn),γ(Co5Zn21),γ1(CoZn7.5)和γ2(CoZn13)相中的最大溶解度分别是10.9%,12.2%,13.9%和12.
扩散多元节(diffusion multiple)方法作为一种高通量实验方法,极大地提高了相图测定的效率,为完善材料热力学数据库提供大量必需的基础实验结果.本文通过制备Ni-Cr-Ru-NiAl-RuAl与Ni-Co-CoAl-Cr-Mo-Nb-Ta-W扩散多元节,结合扫描电镜(SEM)与电子探针(EPMA)等分析检测技术,成功地测定了Ni-Cr-Ru在1200℃、1000℃、900℃和800℃,
以Al-Si-Mg-Cu-Ni-Sr多元锻造铝合金(4032铝合金)为研究对象,从热力学的角度,研究其半固态成形潜力.运用的半固态成形潜力的热力学判据包括:液相分数对温度的敏感性(d/dT)、液-固相线温度区间(ΔTS-L)、半固态成形温度区间(ΔTss-s)等.在此基础上,评估并优化了4032铝合金中满足半固态成形基本要求的合金成分范围.结果表明,牌号为4032的铝合金适用于半固态成形的成分范围
The solidification processes of different compositions of the Fe-Mo-Nb ternary alloy were studied to determine the liquidus surface projection of the Fe-Mo-Nb ternary system in the present work The li
Two series alloys Pb1-xNaxTe0.5Se0.5 (x =0.01, 0.02, 0.04) and Pb0.96-yNayMg0.04Te0.5Se0.5 (y =0.005, 0.01, 0.02, 0.03, 0.04 and 0.06) series alloy were prepared by high frequency melting and subseque
Cu-Nb基合金的强度和导电性能较好,被广泛应用于电磁脉冲领域.有文献报道,Zr的添加能增强Cu-Nb合金材料的拉伸强度和微观硬度.相图作为材料设计的一种指导工具,对新材料的开发具有重要意义.本实验通过金相显微镜和电子探针分析了Cu-Nb-Zr三元系在900,1000和1100℃温度下的相平衡组织成分(Fig.1),测定了其相平衡关系,确定了900,1000和1100℃三个等温截面图(Fig.2)
随着经济的发展和科技的进步,传统能源正在以惊人的速度消耗,人类正面临着前所未有的能源短缺问题.相变材料可以从环境中吸收能量和向环境中释放能量,能够解决能量供求在时间和空间上不匹配的矛盾,有效提高能源利用率,因此成为当前的研究热点.复合相变材料可以解决单一相变材料的易流动泄漏、导热系数较低等缺陷,在提高能源使用效率和开发利用可再生能源方面具有诱人的应用潜力和广阔的应用前景.本研究以相变储能特性优异的
The mechanism of Li insertion into anode material NiSi2 for lithium-ion batteries is investigated by first-principle based on the density functional theory.The results reveal that the most possible re
The compositional window in Nb-Ni-Ti alloys leading to the crystallization of primary α-Nb phase and the eutectic (α-Nb + NiTi) phase is of high technical relevance due to its favorable properties wit