Effect of M-EMS on the solidification structure of a steel billet

Effects of mold electromagnetic stirring (M-EMS) on the solidification structure of 45# steel billet were investigated by examination of interdendritic corrosion. The results show that the primary and secondary dendrite arm spacings increase from the edge of the billet to the center and decrease obviously with increasing electromagnetic torque, which will be beneficial to refine the solidification structure and enlarge the equiaxed crystal zone. The ratio of equiaxed crystal increases by 15.9% with the electromagnetic torque increasing from 230 to 400 cN·cm. The increase of stirring intensity can improve the cooling rate and the impact of M-EMS on it reduces from the edge of the billet to the central area, where the cooling rates are similar at different torques. The closer to the central area, the less the influence of M-EMS on the cooling rate is. The ratio of the primary to secondary dendrite arm spacing is approximately 2.0, namely, λ1≈2λ2, and is constant irrespective of the stirring intensity and position of the billet. Original position analysis (OPA) results indicate that the center segregation of the billet is greatly improved, and the more uniform and compact solidification structure will be obtained with the increase of stirring intensity.     

强磁场下Cu-25%Ag合金的凝固行为

研究了强磁场对Cu-25%Ag(质量分数)合金凝固组织的影响,分析了不同磁场条件对合金凝固组织的作用机理.研究发现,均恒磁场和梯度磁场对合金的凝固组织有重要影响,改变了富Cu枝晶形貌和尺寸,无磁场条件下初生富Cu枝晶分布不均匀,一次枝晶比较长且粗大,枝晶主要以柱状枝晶为主;在12 T磁场条件下,富Cu枝晶分布比较均匀,一次枝晶变短、粗化,枝晶主要以胞状枝晶为主;在负梯度磁场条件下,富Cu枝晶分布不均匀,在试样下部,树枝晶减少,以小平面方式生长的粗大胞晶为主.通过实验研究表明,利用均恒强磁场控制Cu-Ag合金凝固组织,细化晶粒、减小偏析是具有可行性的.     

Temperature‐Induced Pattern Transition in Crystallizing Ultrathin Polymer Films

The crystallization patterns of ultrathin poly(ethylene oxide)/poly(methyl methacrylate)(PEO/PMMA) blend films crystallized at different undercooling were investigated by atomic force microscopy. Dendrite pattern formed as a result of crystalline anisotropy at low undercooling and evolved into seaweed pattern with increasing undercooling. Although the configuration of macromolecules is far different from that of simple small molecules, the crystallization pattern transition in ultrathin polymer films can be interpreted by the classical morphology diagram developed on the basis of metals and simple molecules, indicating that polymer chains can be considered as simple dynamical units in a quasi‐two‐dimensional confined state.     

Dendrite growth characteristics within liquid Fe-Sb alloy

Bulk samples and small droplets of liquid Fe-10%Sb alloys are undercooled up to 429 K (0.24TL) and 568 K (0.32TL), respectively, with glass fluxing and free fall techniques. The high undercooling does not change the phase constitution, and only the αFe solid solution is found in the rapidly solidified alloy. The experimental results show that when the undercooling is below 296 K, the growth velocity of αFe dendrite rises exponentially with the increase of undercooling and reaches a maximum value 1.38 m/s. S...     

先进成像技术在全固态锂电池关键问题研究中的应用

全固态锂电池因其高能量密度和安全性良好而备受关注. 然而,要提高其充放电效率和延长其使用寿命需要其在固态电极、固态电解质及两者间的界面实现快速离子传导. 另外,全固态锂电池中的固态电解质隔膜需要限制锂枝晶的生长,从而使得应用高能量密度的锂金属负极变为可能. 本文基于上述全固态锂电池中的重要问题,讨论了电子显微镜、扫描探针显微镜、X射线断层摄影术、磁共振成像和光学显微镜五种先进成像技术在其中的应用.     

强迫对流影响二元合金非等温凝固枝晶生长的相场法模拟

在二元合金相场模型的研究基础上,建立了耦合溶质场、温度场和流场的相场模型,采用Simple算法求解质量和动量守恒方程,用交替隐式有限差分法求解温度控制方程,模拟了流场作用下二元合金等温和非等温凝固过程中枝晶的生长过程,研究了流场对枝晶生长形貌、溶质场和温度场分布情况的影响,将流场作用下二元合金等温和非等温凝固枝晶生长过程进行比较,分析了由于凝固潜热的释放对流场作用下凝固枝晶生长的影响． 关键词： 相场法 对流 非等温凝固 枝晶生长     

基于三维集流体的无枝晶锂金属负极

随着电化学储能市场的迅猛发展, 当前商用锂离子电池难以满足人们对高能量密度储能器件的需求. 锂金属具有高比容量和低氧化还原电位等优点, 被认为是下一代二次电池的理想负极材料. 然而, 锂金属负极在充放电过程中会出现体积变化大、 枝晶生长、 界面不稳定等问题, 严重阻碍了其在二次电池中的实际应用. 三维多孔材料具有骨架/空间互穿网络结构、 比表面积大、 孔隙发达和机械性能好等物理特性, 用作金属锂负极的集流体, 在锂沉积/溶解过程中可以起到降低局部有效电流密度、 均匀电场分布和降低锂离子浓度梯度的作用, 有望实现锂的均匀成核和无枝晶沉积, 同时抑制了电极的体积膨胀. 尽管有关三维集流体的研究报道不断出现, 但综合系统评价现有各种三维集流体体系的工作鲜见报道. 本文聚焦锂金属负极三维集流体的构建及应用研究进展, 首先分析了三维集流体抑制锂枝晶生长的基本原理及局限性, 继而重点关注了三维集流体的结构调控、 表面改性和功能化等应对策略对锂成核、 沉积过程的影响, 并对不同材质三维集流体的优缺点进行了归纳总结. 最后, 面向实用化, 分析并展望了三维集流体应用于锂金属电池的发展前景.     

功能化固态电解质膜改性锂金属负极的研究进展

对高比能量锂离子电池需求的不断增加激发了锂金属负极的应用研究。锂金属具有高放电比容量(3860 mAh·g^?1),低电极电位(?3.04 V),是锂离子电池的理想负极材料。然而,锂金属在循环过程中会形成不稳定的固态电解质(SEI)膜,而且会生成枝晶,枝晶的生长会引发电池短路等安全问题,极大地阻碍了其应用。理想的SEI膜应具有良好的锂离子传导性、表面电子绝缘性和机械强度,可调控锂离子在表面均匀沉积,促进离子传输,抑制枝晶生长,因此构筑功能化SEI膜是解决锂金属负极所面临挑战的一项有效策略。本综述以锂金属枝晶形成和生长的机理为出发点,分析总结SEI膜的构建策略、不同组成SEI膜的结构和功能特性及其对锂金属负极性能的影响,并对锂金属实用化面临的挑战及未来发展方向进行了展望。     

细菌纤维素衍生的三维碳集流体用于无枝晶的锂金属负极

锂金属是下一代高能量密度电池的关键负极,然而其实用化面临着一系列问题,主要包括循环过程中体积变化大、枝晶生长等。使用三维集流体是解决这些问题的有效方法,然而现有大多数三维集流体存在重量大、体积大、表面亲锂性差、成本高等问题。针对上述问题,本文以低成本的细菌纤维素为前驱体,通过直接碳化制备出具有连通网络的轻质三维碳集流体,其表面均匀分布的含氧官能团可以促进锂离子的均匀成核和沉积,有效抑制了枝晶生长。值得注意的是,该集流体的面密度仅为0.32 mg·cm^?2,在3 mAh·cm^?2比容量的锂金属负极中质量占比仅为28.8%。电化学测试结果表明,该集流体在3 mA·cm^?2的高电流密度或4 mAh·cm^?2的高循环容量的工作条件下,稳定循环超过150次,并且在对称电池或与LiNi0.8Co0.15Al0.05匹配的全电池中也表现出良好的电化学性能。     

Interfacial morphologies between iron and Ag-Cu-Sn alloy

A series of experiments have been designed to investigate the effect of different space positions between liquid Ag-Cu-Sn alloy drop and iron substrates on the liquid/solid inter-facial morphologies by a sessile drop method. The results show that Ag-Cu-Sn alloy diffuses into the solid iron substrate, and the amounts are greater and the distances are longer when it diffuses into the lower substrate than that into the upper one. Moreover, there are many primary α-Fe dendrites in the liquid Ag-Cu-Sn alloy close to the upper substrate of liquid bridge or the surface of metal drop. That is due to the effect of gravity.