Impact Responses of Prismatic Lithium-Ion Battery Based on the Membrane Factor Method北大核心CSCD

Aimed at the internal short circuit problem due to large deformation of the prismatic lithium-ion battery cell under impact loadings, a simplified battery model was first established. Then the motion equations of velocity and displacement based on the membrane factor method were proposed. With the effects of the face-sheet thickness and the densification region on the normalized final deflection, impact response characteristics of prismatic battery cells were investigated in detail. The results show that, the improved motion equations involving the membrane factor can reflect the dynamic response mechanisms of the prismatic battery cell under impact loadings, and the large deflection under high-speed impact can be predicted. With the increase of the face-sheet thickness, the deflection of the battery cell’s lower part decreases obviously. However, the densification region expands with the face-sheet thickness. The deflection and the densification region of the cell’s lower part both increase with the inner core density of the battery. This proposed impact model provides a theoretical guidance for the multi-functional integrated dynamic design of prismatic battery cells. © 2022 Editorial Office of Applied Mathematics and Mechanics. All rights reserved.     

Microwave-assisted Preparation of Temperature Sensitive Poly（N-isopropylacrylamide） Hydrogel with Improved Responsive Properties

Poly(N-isopropylacrylamide) (PNIPAM) hydrogel, which is insoluble but shrinkable or swellable in aqueous media when temperature rises or drops across 33oC1,2, has been extensively studied due to its potential applications in the fields of controlled drug …     

速响应的温敏性聚(N-异丙基丙烯酰胺)水凝胶Ⅰ.以CaCO3为成孔剂制备方法、表征及动力学研究

以不同粒径的CaCO3粒子为成孔剂,合成了快速响应的温敏性聚(N-异丙基丙烯酰胺)(PNIPA)水凝胶.利用扫描电镜观察到水凝胶具有特殊的孔状结构,得到水凝胶的孔径大小为几十微米左右.动力学研究表明,该水凝胶在温敏膨胀或收缩时,具有快速的响应速率,在10 min内的失水率可达90%.比较了干凝胶和40℃下失水后的凝胶两种不同状态下水凝胶的膨胀曲线,发现两者的溶胀动力学曲线明显不同,前者的曲线有拐点.同时发现与失水收缩速率相比,水凝胶具有较慢的吸水膨胀速率.     

智能性水凝胶

“智能”材料具有传感、处理和执行功能，水凝胶作为智能材料其应用前景良好。本文综述了智能水凝胶的近期研究发展，以Ｆｌｏｒｙ的溶胀理论着重探讨了刺激响应性，并介绍了化学机械现象及凝胶相转变。     

聚合物电流变体

本文概述了电流变体的发展概况，电流变机理、电流变效应的影响因素及聚合物电流变体的研究现状，并介绍了电流变化的组成春在机械制造、自动控制等领域的应用前景。     

智能型水凝胶

智能型水凝胶是一类具有广泛应用前景的功能高分子材料，但由于传统水凝胶存在一些缺点因而限制了其应用，因此近年来围绕提高传统水凝胶的性能做了大量研究工作。本文从四个主要方面综述了近年来智能型水凝胶改性的研究进展。     

响应性凝胶及其在药物控释上的应用

综述近年来在响应性凝胶材料研究方面的进展，介绍了能感应ｐＨ、温度、光、电场以及生化物质等外界因素变化的响应性凝胶的结构特点与响应机理，同时介绍了此类凝胶应用于药物控制释放方面的研究近况。     

稀土铁氧体／聚丙烯酰胺磁性复合微球的响应性研究

在W／O微乳液体系中，制备了稀土铁氧体／聚丙烯酰胺磁性复合微型，并利用磁天平法对其磁响应性进行了研究。结果表明：复合微型的磁响应性与稀土离子磁矩有关，高磁矩稀土离子Dy^3 的加入能够较大地改善复合微型的磁响应性；镝铁氧体／聚丙烯酰胺磁性复合微球的磁响应性与镝含量有关，当n(Dy^3 )：n(∑Fe)=0．20时微球磁响应性最强。     

纳米稀土-介质薄膜光电发射光谱和能带结构

用真空蒸发沉积的方法制备了纳米稀土(La、Nd、Sm)粒子 BaO介质薄膜.研究表明薄膜的光电发射光谱响应阈值受纳米稀土粒子形状和大小的影响,球形纳米稀土(Sm)粒子 BaO介质薄膜的光谱响应阈值波长为720 nm,条状纳米稀土(La和Nd)粒子 BaO介质薄膜阈值波长分别为650 nm和660 nm.研究得到纳米稀土粒子 介质薄膜等效界面位垒高度在1.7～2.0 eV之间.由于纳米稀土粒子与BaO介质各自逸出功不同,当构成薄膜后使得纳米粒子周围的空间电荷分布发生变化,纳米粒子周围的能带发生弯曲.     

多个时间常数线性体系暂态响应方程参数的代数求解法

从线性条件出发,推导了含n个时间常数体系恒电位阶跃时暂态响应方程,并提出一套解析形为ΔI=ΔI_∞+sum from i=1 to n k_iexp(-t/τ_i)暂态方程各未知参数的代数解法。该方法可对未知体系时间常数个数进行判定,比起一般曲线拟合更加快速简便,且抗干扰能力较强。