开孔泡沫材料随机化Kelvin微结构模型建立与应用

建立较准确的微观胞体结构模型是一项极其复杂但极具价值的一项工作。利用Python,对Abaqus进行二次开发,实现规则Kelvin单胞结构、规则Kelvin多胞结构和随机Kelvin多胞结构等开孔泡沫结构的参数化设计和自动化建模,并对建模思路、关键算法的设计与实现加以说明。以泡沫铝为例,分别对规则Kelvin结构和随机Kelvin结构的开孔泡沫铝在准静态压缩过程中的力学行为进行了对比分析研究。研究成果对随机Kelvin胞体结构的开孔泡沫材料的数值仿真研究具有一定的参考价值。

Kelvin结构开孔泡沫材料的弹性性能研究

采用一修正的十四面体结构模型(Kelvin结构模型)对开孔泡沫金属的弹性性能进行研究,对低密度开孔泡沫材料表现出不可压的特性进行了分析。该模型考虑作用在泡沫筋条上的弯矩、剪力和轴向力,以及轴向力的平衡。修正模型的数值计算结果与实验结果及其他模型的结果进行了对比,结果表明修正模型计算的杨氏模量比原有模型的略有提高,筋条截面为星形的修正模型计算的结果与实验比较符合。在密度等同的条件下,筋条截面惯性矩越大的开孔泡沫材料,其弹性模量也越大,而泊松比则越小。Kelvin结构的开孔泡沫材料的泊松比随相对密度的减小而趋于0.5。

AlSc15中间合金中Al_(3)Sc金属间化合物的电化学行为及对局部腐蚀的影响

将过共晶AlSc15合金加热至液态,以10℃/h速率冷却得到毫米级尺寸的Al_(3)Sc金属间化合物。利用微区电化学和扫描开尔文探针力显微镜(SKPFM)研究了Al_(3)Sc金属间化合物在不同pH值的0.1 mol/L NaCl溶液中的电化学特征及对局部腐蚀敏感性的影响。结果表明,Al_(3)Sc金属间化合物存在自钝化现象,且在碱性环境中有明显的维钝区域;随着pH值的增加,Al_(3)Sc腐蚀电位逐渐降低,在中性和碱性条件下的腐蚀速率明显低于酸性条件下的;Al_(3)Sc金属间化合物与周围铝基体之间的伏打电位差约为40 mV,在铝合金中可能作为较弱的局部阴极,对电偶腐蚀的影响不大。

随机Kelvin胞体开孔泡沫结构模型边界条件及应用

利用Python和Abaqus解决了泡沫材料非垂直切割造成边界出现"浮动"边等问题,同时研究了自由边界、固定边界条件材料的准静态压缩特性,在此基础上提出并分析了周期边界,并对周期性边界设置中几种情况进行讨论和实现,同时,对此过程中相关思路、关键算法加以说明。最后,以开孔泡沫铝为例,对三种边界条件情况下随机Kelvin胞体开孔泡沫铝在准静态压缩过程中的力学行为进行了对比分析研究。研究成果对开孔泡沫材料的数值仿真研究具有一定的参考价值。

开尔文探针力显微镜(KPFM)在钙钛矿太阳电池研究中的应用

开尔文探针力显微镜(KPFM)中文基于原子力显微镜的表征技术,常用来测试样品表面和探针之间的接触电势差(CPD)和样品功函数,被广泛应用于各种导电或半导体样品表面特性研究。本实验通过KPFM技术测试Pb I2溶液中不添加和添加正丁基碘化胺(BAI)制备的钙钛矿薄膜形貌和功函数,并结合钙钛矿薄膜的X射线衍射谱和紫外可见吸收光谱,分析正丁胺阳离子(BA^(+))对钙钛矿结晶、载流子传输和器件性能的影响。研究发现,在两步法制备钙钛矿薄膜过程中第一步Pb I2前驱体溶液中引入离子半径较大的间隔阳离子BA^(+),使形成的Pb I2薄膜晶粒和分布更均匀,促进钙钛矿结晶和晶界缺陷钝化,可以提升电池性能。

Effects of microstructure on uniaxial strength asymmetry of open-cell foams

Based on the elongated Kelvin model, the effect of microstructure on the uniaxial strength asymmetry of open-cell foams is investigated. The results indicate that this asymmetry depends on the relative density, the solid material, the cell morphology, and the strut geometry of open-cell foams. Even though the solid material has the same tensile and compressive strength, the tensile and compressive strength of open-cell foams with asymmetrical sectional struts are still different. In addition, with the increasing degree of anisotropy, the uniaxial strength as well as the strength asymmetry increases in the rise direction but reduces in the transverse direction. Moreover, the plastic collapse ratio between two directions is verified to depend mainly on the cell morphology. The predicted results are compared with Gibson and Ashby＇s theoretical results as well as the experimental data reported in the literature, which validates that the elongated Kelvin model is accurate in explaining the strength asymmetry presented in realistic open-cell foams.

Analysis and simulation for tensile behavior of anisotropic open-cell elastic foams

Based on the elongated Kelvin obtained to investigate the tensile behavior Kelvin model＇s periodicity and symmetry in model, a simplified periodic structural cell is of anisotropic open-cell elastic foams due to the whole space. The half-strut element and elastic deflection theory are used to analyze the tensile response as done in the previous studies. This study produces theoretical expressions for the tensile stress-strain curve in the rise and transverse directions. In addition, the theoretical results are examined with finite element simulation using an existing formula. The results indicate that the theoretical analysis agrees with the finite element simulation when the strain is not too high, and the present model is better. At the same time, the anisotropy ratio has a significant effect on the mechanical properties of foams. As the anisotropy ratio increases, the tensile stress is improved in the rising direction but drops in the transverse direction under the same strain.

考虑加速蠕变的岩石蠕变过程损伤模拟方法

针对岩石蠕变的阶段性特征,在深入研究岩石蠕变力学机理基础上,将岩石蠕变过程视为线性与非线性蠕变过程的迭加,通过引入损伤理论和Kachanov损伤演化规律,构建出可反映岩石非线性蠕变过程即加速蠕变过程特征的弹塑性损伤体元件模型,将其与可较好地反映岩石线性蠕变过程即减速蠕变过程特征的Kelvin元件模型进行串联复合,建立出可反映岩石蠕变全过程尤其是加速蠕变特点的岩石蠕变模型,并提出了简单可行的模型参数确定方法,从而建立出岩石蠕变全过程的新型模拟方法;该模型或方法不仅能较好地模拟岩石从减速到加速的蠕变全过程,而且,模型参数少,易于确定.最后,通过理论与实测曲线的对比分析,表明了该模型的合理性与可行性.

低密度开孔弹性泡沫材料的非线性拉伸本构关系

文中基于Kelvin十四面体模型,对低密度开孔弹性泡沫材料的拉伸大变形行为进行理论分析。首先,利用对称性条件对模型进行简化,得到易于分析的半支柱模型。然后,利用Elastica弹性挠曲理论,分析单轴拉伸下胞体的力学行为和支柱的变形情况,得到弹性模量、泊松比及非线性拉伸应力—应变曲线。同时,分析截面形状和泡沫材料相对密度的影响。文中所得拉伸弹性性能与Zhu等人在压缩情况下的结果相一致,但拉伸变形曲线特征与压缩时明显不同,却与实验曲线一致。

钙钛矿太阳能电池研究进展:空间电势与光电转换机制

钙钛矿太阳能电池具有高光电转换效率和低成本制备的特点,是极具希望实现大规模应用的下一代光伏技术.然而,对该类器件的光电转换过程的认知仍然不够清晰,相关研究难以直接观测器件内部的空间电势及其对光生电荷载流子的影响.开尔文探针力显微镜技术能够直接探测出器件空间电势的分布,进而直接反映器件工作的状态,成为理解钙钛矿太阳能电池的光电转换机理的有效途径.本文主要介绍了钙钛矿太阳能电池内部空间电势分布与光电转换机制的研究进展,集中讨论了通过开尔文探针力显微镜技术直接探测空间电势的光致变化和电致变化来揭示电荷载流子产生、分离、输运、复合等光电转换关键机制,并对其在未来研究中存在的问题和挑战做了进一步的展望.

闭孔泡沫金属几种不同建模方法的对比性研究

为研究闭孔泡沫金属的单轴压缩性能,通过三种不同的建模方法,分别建立二维随机胞元、三维Kelvin和三维Voronoi泡沫金属细观模型。基于LS-DYNA软件分析三种不同建模方法表征下闭孔泡沫金属压缩力学性能的差异性,研究三种建模方法下泡沫金属的变形模式、应力应变响应变化规律。结果表明:二维随机模型更适合泡沫金属的压缩规律性研究,而三维模型则更适合泡沫金属压缩响应的预测与优化研究;二维随机胞元模型受其平面几何和网格的限制大多数情况下只能模拟孔隙率较低的闭孔泡沫金属,而Kelvin模型和Voronoi模型则能够较好地模拟孔隙率高的闭孔泡沫金属;相比于Kelvin模型和二维随机胞元模型,Voronoi模型内部结构更趋真实合理,能够更好地表征闭孔泡沫金属的压缩力学性能。

微孔结构对PMI泡沫准静态压缩性能的影响

基于BBC点集建立了聚甲基丙烯酰亚胺(PMI)闭孔泡沫的Kelvin十四面体模型和Laguerre模型,并采用有限元方法研究了其在准静态载荷作用下的压缩性能。分析了孔径大小、泡孔体积离散系数对压缩弹性模量、初始峰值应力和能量吸收能力的影响。结果表明:Kelvin十四面体模型可以较好地预测PMI泡沫的压缩弹性模量和峰值应力;在相同相对密度条件下,小孔径泡沫的初始峰值应力和能量吸收能力均高于大孔径泡沫,而压缩弹性模量则低于大孔径泡沫;随着泡孔体积离散系数的增大,闭孔PMI泡沫压缩弹性模量、初始峰值应力和能量吸收能力均减小。

Phase-Field Modeling for the Three-Dimensional Space-Filling Structure of Metal Foam Materials

Phase-field modeling for three-dimensional foam structures is presented. The foam structure, which is generally applicable for porous material design, is geometrically approximated with a space-filling structure, and hence, the analysis of the space-filling structure was performed using the phase field model. An additional term was introduced to the conventional multi-phase field model to satisfy the volume constraint condition. Then, the equations were numerically solved using the finite difference method, and simulations were carried out for several nuclei settings. First, the nuclei were set on complete lattice points for a bcc or fcc arrangement, with a truncated hexagonal structure, which is known as a Kelvin cell, or a rhombic dodecahedron being obtained, respectively. Then, an irregularity was introduced in the initial nuclei arrangement. The results revealed that the truncated hexagonal structure was stable against a slight irregularity, whereas the rhombic polyhedral was destroyed by the instability. Finally, the nuclei were placed randomly, and the relaxation process of a certain cell was traced with the result that every cell leads to a convex polyhedron shape.

利用扫描开尔文探针显微镜观察薄膜光电器件能级排布

薄膜光电器件的能级结构直接决定了载流子的产生、分离、传输、复合和收集等微观动力学过程,从而决定了器件性能。因此准确获取器件能级结构,是深入理解器件工作机制、推动器件技术革新的重要科学依据。此专论系统地介绍了本课题组利用扫描开尔文探针显微镜(SKPM)表征薄膜光电器件如有机太阳能电池、有机-无机钙钛矿光探测器等器件中界面能级结构的工作。垂直型薄膜器件中的活性材料层被顶电极与底电极封闭,通常难以直接在器件工况下测量其中的界面能级排布,我们发展了横截面SKPM技术来解决这一难题。研究表明,界面层是调控器件能级结构、决定器件极性、提高器件性能的重要手段。本文介绍的表征技术有望在各种薄膜光电器件,诸如光伏器件、光探测器、发光二极管,尤其是各种叠层构型器件的研究中展现出广阔的应用前景。

结构参数对开孔泡沫传热特性影响的数值分析

为了解随机Kelvin cell结构的孔隙率和孔泡密度对泡沫材料内流体压降、体积对流换热系数和面积优度因子的影响,采用计算流体力学方法对不同孔隙率和孔泡密度的随机Kelvin ceil结构金属铝泡沫材料的强制对流换热(FCHT)过程进行了数值模拟。结果表明:入口速度在5~20 m/s范围内,当入口速度一定时,流体压降及体积对流换热系数随孔隙率的减小而增大,随孔泡密度的增大而增大;面积优度因子随孔隙率的增大而增大,随孔泡密度的减小而减小;入口速度在5~20 m/s范围内,面积优度因子在不同孔泡密度下随入口速度的变化具有不同的变化趋势,入口速度提高时,孔泡密度为5PPI的随机Kelvin cell泡沫面积优度因子呈增大趋势,孔泡密度为10PPI时面积优度因子呈先增大后减小趋势,孔泡密度为20PPI时面积优度因子呈减小趋势;压降及体积对流换热系数随入口速度的提高分别呈指数型、对数型增长。

Analysis and simulation of high strain compression of anisotropic open-cell elastic foams

By elongating the regular Kelvin model in one direction and keeping unchanged in the other two directions,the anisotropic model was constructed.Then,the simplified periodic structural cell was obtained according to the periodicity and symmetry of the model in the whole space.Using the half-strut element and elastic deflection theory to analyze the mechanical behavior as were adopted in the previous studies,this paper obtained the theoretical expressions for the compressive stress and strain as well as the corresponding curves in the rise and transverse directions.In addition,the theoretical results were examined by the finite element simulation.Results indicated that the theoretical analysis was very close to the finite element simulation when the strain was not too high,which confirmed the validity of theoretical analysis.At the same time,the anisotropy was shown to have a significant effect on the mechanical properties of open-cell foams.As the anisotropy ratio increased,the compressive stress was improved in the rise direction but dropped in the transverse direction under the same strain.

EXCEL软件在大学物理实验中的应用

使用 EXCEL 软件并结合双臂电桥测量导体电阻率实验探讨了用不确定度进行实验数据处理的一般过程和方法。掌握了 EXCEL 软件的基本使用方法和技巧后就能更准确更有效地对实验数据进行处理。

金属离子替换的有机-无机钙钛矿太阳能电池及其迟滞现象

注入金属离子替换有机-无机钙钛矿中参与成键的Pb^(2+)可以有效调控其结晶动力学、薄膜形貌和光电特性,因此,通过优化Pb^(2+)替换比例提高钙钛矿太阳能电池性能是当前的研究热点之一.但是, Pb^(2+)替换对器件异常迟滞现象的影响却缺乏深入的研究.本文采用Cd^(2+)替换的MAPbI_3为模型体系,研究了不同Cd^(2+)浓度下MAPbI_3材料性质及其平面异质结光伏器件(结构为ITO/NiO_x/Cd-MAPbI_3/PCBM/Ag)性能的变化趋势.研究结果表明,优化比例(0.5%)的Cd^(2+)可以有效增强材料结晶性、改善薄膜形貌,降低非辐射复合,提高光生载流子寿命,从而大幅提高器件性能.而Cd^(2+)替换比例过高(>2.5%)时,钙钛矿薄膜中不仅会出现相分离阻碍电荷传输,而且其非辐射复合加剧,光生载流子寿命降低,最终导致器件性能下降.与此同时,过量的Cd^(2+)注入还会引起严重的迟滞现象,利用扫描开尔文探针显微镜(SKPM)证实这一现象与钙钛矿薄膜中显著的离子迁移有关.