共查询到18条相似文献,搜索用时 31 毫秒
1.
作为一种新型智能材料,水凝胶具有特殊的化学力学耦合性能.采用功能梯度形式可使得水凝胶具有更好的适应性和可调控性.本研究中假设交联密度沿径向按幂函数规律变化,并基于水凝胶的大变形多场耦合一般理论,采用Flory-Huggins自由能函数,建立了功能梯度球形水凝胶在球对称情形的控制方程,并开展了功能梯度球形水凝胶在给定内压和化学势情行的非均匀大变形溶胀行为的理论研究.计算结果表明,不同梯度指数的球形水凝胶的内压、内孔半径曲线和内压、内表面径向伸长率曲线均呈现出一段稳定区间和另一段不稳定区间,说明内压超出某临界值会发生失稳并导致水凝胶的最终破坏.内压的临界值随梯度指数的增大而增大.研究表明,功能梯度球形水凝胶的材料参数(梯度指数、亲疏水特性、交联密度和溶剂分子的体积)和环境化学势对水凝胶溶胀行为具有重要的影响.在给定内表面压力的情况下,功能梯度球形水凝胶内表面的径向位移随梯度指数的改变接近为线性变化,而随其他参数的影响都呈现出明显的非线性.本研究有助于实现水凝胶智能结构和器件在复杂条件下的精准调控.} 相似文献
2.
作为一种新型智能材料,水凝胶具有特殊的化学力学耦合性能.采用功能梯度形式可使得水凝胶具有更好的适应性和可调控性.本研究中假设交联密度沿径向按幂函数规律变化,并基于水凝胶的大变形多场耦合一般理论,采用Flory-Huggins自由能函数,建立了功能梯度球形水凝胶在球对称情形的控制方程,并开展了功能梯度球形水凝胶在给定内压和化学势情行的非均匀大变形溶胀行为的理论研究.计算结果表明,不同梯度指数的球形水凝胶的内压、内孔半径曲线和内压、内表面径向伸长率曲线均呈现出一段稳定区间和另一段不稳定区间,说明内压超出某临界值会发生失稳并导致水凝胶的最终破坏.内压的临界值随梯度指数的增大而增大.研究表明,功能梯度球形水凝胶的材料参数(梯度指数、亲疏水特性、交联密度和溶剂分子的体积)和环境化学势对水凝胶溶胀行为具有重要的影响.在给定内表面压力的情况下,功能梯度球形水凝胶内表面的径向位移随梯度指数的改变接近为线性变化,而随其他参数的影响都呈现出明显的非线性.本研究有助于实现水凝胶智能结构和器件在复杂条件下的精准调控.} 相似文献
3.
对延性单晶在拉伸载荷作用下的应变局域化和颈缩等非均匀变形过程进行了三维有限元数值模拟。将相关晶体塑性本构模型及一种新的数值积分方法补充到ABAQUS6.1商用有限元软件中。该方法的特点是,利用晶体塑性的动力学方程,获得一个关于晶体弹性变形梯度的演化方程,采用半隐式积分方案进行求解。本文推导出一种新的应力变本构矩阵。按此方式更新本构矩阵,计算速度和计算稳定性大大提高。加载方式,边界条件和变形程度等因素影响着滑移系的启动状况,这是平面模型所不能预测的。本文利用三维有限元方法模拟了不同取向下滑移系的启动状况,全面地考虑了FCC单晶材料12个可能滑移系在变形过程中的启动状况,合理地模拟了FCC面心立方单晶沿不同取向加载时晶轴旋转导致的应变局域化和颈缩等非均匀变形过程。 相似文献
4.
研究首先对不同丙烯腈质量分数的丁腈橡胶(18%、26%和41%,即N18、N26和N41)进行浸泡试验分析基于溶胀时间的静态溶胀行为. 然后进一步对溶胀前后的丁腈橡胶样品进行圆型及角型磨粒单向滑动磨粒磨损试验. 为了揭示丁腈橡胶的溶胀机理及溶胀对不同粒型作用下磨粒磨损行为的影响,对试样进行质量、硬度、交联链比重(NMR)和表面形貌(SEM)测试. 结果表明:丁腈橡胶溶胀度随时间的增加而增加,并于240 h后趋于平衡,溶胀影响下老化的主要原因为交联链破坏和物质溶解.丁腈橡胶硬度随溶胀时间的增加而降低. 溶胀后摩擦系数和磨损量增加,同粒径下磨粒磨损程度角型大于圆型,角型磨损受溶胀影响程度更大,其最大溶胀后磨损增量为圆型磨粒的1.56倍. 圆型和角型磨粒分别以滚动和滑动的方式进入摩擦副,形成压入坑和嵌入坑两种不同的表面形貌,溶胀后橡胶组织疏松软化导致表面凹坑加深. 丁腈橡胶溶胀及其对磨粒磨损的影响程度随丙烯腈含量的增加而减小. 相似文献
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非晶合金弛豫/晶化、玻璃转变、塑性变形等热力学和动力学行为都与其固有的结构非均匀性密切相关. 但是, 由于淹没在亚稳的长程无序结构中, 探究非晶合金的结构非均匀性十分困难. 尤其, 非晶合金微观结构非均匀性与其力学性能之间的本征关联是一个亟待解决的重要科学问题. 本文基于多尺度时空下的力学激励阐述非晶合金微观结构非均匀性特征与演化规律. 从实验、理论和数值模拟方面出发, 梳理了非晶合金微观结构非均匀性与弛豫机制和力学行为之间的关联. 最后, 针对非晶合金微观结构非均匀性与其物理/力学性能研究的方向提出了建议和展望. 相似文献
6.
本文提出了随机点场理论用于研究含有随机夹杂的统计非均匀介质。本文不同于其它作者,一般均将随机理论建立在Eshelby的等效夹杂原理之上,而这里是建立在Kunin的微结构理论基础之上。作为理论的一个应用,本文对复合材料的有效模量及夹杂内部及周围微观场进行了计算。 相似文献
7.
微结构演化对镁合金材料力学性能有着显著的影响,为了揭示镁合金宏观塑性各向异性特性与非均匀孪生变形的关系,开展了不同路径下的单轴加载试验以及采用含滑移、孪生机制的晶体塑性本构模型对试验条件下的镁合金变形行为进行数值模拟研究.文中本构模型描述了滑移与孪生变形机制以及晶格转动的机制,同时研究采用三维微结构代表性有限元模型,其包含晶粒尺寸、晶向和晶界倾角等微结构参数.研究结果表明,轧制镁合金具有强烈的宏观塑性各向异性行为,并对这种镁合金塑性各向异性行为的模拟结果以及多晶织构的模拟演化结果与试验测量进行对比,结果都基本吻合.对孪生非均匀变形模拟分析表明,镁合金宏观塑性各向异性行为与滑移、孪生变形机制的不同启动组合紧密相关,同时多晶体内应力的非均匀分布受到孪生变形的严重影响.而不同晶粒尺寸的晶粒所发生的孪生变形有比较大的差异,造成孪晶变体在晶粒内的分布极不均匀.该研究可为通过微结构的合理配置来设计和控制材料的力学性能提供理论依据. 相似文献
8.
油水乳化渗流是三元复合驱和热力采油过程中常见的现象,地层介质的微观孔隙结构特征对乳状液流动有着重要影响.现有描述乳状液渗流的理论模型都属于确定性方法,只能反映出介质孔隙结构的体积平均效果.当介质内部微观非均质性相比其尺寸不能被忽略时,采用确定性方法描述会与实验结果存在偏差.基于连续时间随机游走理论建立了描述乳状液渗流的随机理论模型.该模型引入反映液滴微观运动特征的跃迁时间和跃迁位移两个概率分布函数来反映多孔介质微观非均质特征.研究结果表明该模型能很好地刻画实验曲线中出现的与介质尺度相关的拖尾现象,可作为更一般的过滤模型. 相似文献
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本文通过对非奇异线性变换的定向分解,证明了处于均匀变形的物体中,任意平面内至少存在两个互相正交的应变主方向,以及该物体内应变能密度,在上述线性变换的任意一个准主基下,可表示为5个实数的函数。 相似文献
11.
Cylinder hydrogel is simple in geometry and easy to synthesize,therefore was widely used to investigate the swelling/shrinking instability of hydrogel and many instability patterns were accumulated in the literature.The mechanism of instability pattern formation of this unique configuration,nevertheless,is far from being fully understood.We applied and extended the recently developed nonlinear theory of polymer gels into cylindrical coordinates,and performed linear perturbation analysis of swelling-induced stability of a constrained cylinder hydrogel.We derived the incremental formulations of stresses and the associated equilibrium equations.We obtained the critical conditions for the onset of instability and probed in details the effects of various parameters on the stability diagram of the hydrogel.The physical meaning of the variation of stability diagram was also interpreted. 相似文献
12.
研究了在动态压缩时2124Al/SiCp复合材料的变形行为与微结构效应.分析结果表明,对于给定材料,复合材料的流动应力主要取决于微结构尺度效应.若增强相尺寸,基体晶粒尺寸以及增强相间距三者大小相当,则复合材料的流动应力取决于增强相的分散程度和位错密度;若增强相尺寸及其间距大小相当,但比基体晶粒大得多,那复合材料的流动应力主要取决于增强相的分散度.微观观测发现在同样加载条件下,变形局部化更容易在含较小碳化硅颗粒的复合材料内形成;变形区内的微损伤几乎都是基体与粒子界面脱粘和粒子角点邻近的微裂纹.对于所研究的这类复合材料,弹性模量及应变硬化几乎不受增强颗粒尺寸影响. 相似文献
13.
The present paper deals with finite inhomogeneous shearing deformations of a slab of a special anisotropic solid. Two cases
according to the directions of the anisotropic director of the medium are examined. In one case the solution reduces to a
quadrature and gives an exact deformation field for particular values of the material constants. In the other case an exact
solution is obtained. All such solutions reduce to the same existing solution for the corresponding isotropic elastic material.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
14.
Hydrogels with their time-dependent intrinsic behaviors have recently been used widely in soft structures as sensors/actuators. One of the most interesting structures is the bilayer made up of hydrogels which may undergo swelling-induced bending. In this work, by proposing a semi-analytical method, the transient bending of hydrogel-based bilayers is investigated. Utilizing nonlinear solid mechanics, a robust semi-analytical solution is developed which captures the transient finite bending of hydrogel-based bilayers. Moreover, the multiphysics model of the hydrogels is implemented in the finite element method (FEM) framework to verify the developed semi-analytical procedure results. The effects of different material properties are investigated to illustrate the nonlinear behavior of these structures. The von-Mises stress contour extracted from FEM shows that the critical area of these soft structures is at the interface of the layers which experiences the maximum stress, and this area is most likely to rupture in large deformations. 相似文献
15.
A method is developed for studying the dynamic deformation of structurally inhomogeneous beams consisting of homogeneous isotropic
layers with different mechanical characteristics. The method is based on the virtual-displacement principle. The equation
of motion is derived in vector and scalar forms for arbitrary loads, boundary conditions, and cross-sections with one and
two axes of symmetry. The efficiency of the method is demonstrated by solving, as an example, the dynamic deformation problem
for a hinged layered beam with a rectangular cross-section under harmonic loading. Mechanical effects are revealed, which
describe the influence of the beam structure and the mechanical properties of beam components on the dynamic compliance in
comparison with the relevant homogeneous beam with the same geometry
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Translated from Prikladnaya Mekhanika, Vol. 43, No. 11, pp. 90–98, November 2007. 相似文献
16.
Shengqiang Cai 《Journal of the mechanics and physics of solids》2011,59(11):2259-2278
This paper uses the thermodynamic data of aqueous solutions of uncrosslinked poly(N-isopropylacrylamide) (PNIPAM) to study the phase transition of PNIPAM hydrogels. At a low temperature, uncrosslinked PNIPAM can be dissolved in water and form a homogenous liquid solution. When the temperature is increased, the solution separates into two liquid phases with different concentrations of the polymer. Covalently crosslinked PNIPAM, however, does not dissolve in water, but can imbibe water and form a hydrogel. When the temperature is changed, the hydrogel undergoes a phase transition: the amount of water in the hydrogel in equilibrium changes with temperature discontinuously. While the aqueous solution is a liquid and cannot sustain any nonhydrostatic stress in equilibrium, the hydrogel is a solid and can sustain nonhydrostatic stress in equilibrium. The nonhydrostatic stress can markedly affect various aspects of the phase transition in the hydrogel. We adopt the Flory-Rehner model, and show that the interaction parameter as a function of temperature and concentration obtained from the PNIPAM-water solution can be used to analyze diverse phenomena associated with the phase transition of the PNIPAM hydrogel. We analyze free swelling, uniaxially and biaxially constrained swelling of a hydrogel, swelling of a core-shell structure, and coexistent phases in a rod. The analysis is related to available experimental observations. Also outlined is a general theory of coexistent phases undergoing inhomogeneous deformation. 相似文献
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《International Journal of Solids and Structures》2014,51(25-26):4440-4451
A polymer network can imbibe copious amounts of solvent and swell, the resulting state is known as a gel. Depending on its constituents, a gel is able to deform under the influence of various external stimuli, such as temperature, pH-value and light. In this work, we investigate the photo-thermal mechanics of deformation of temperature sensitive hydrogels impregnated with light-absorbing nano-particles. The field theory of photo-thermal sensitive gels is developed by incorporating effects of photochemical heating into the thermodynamic theory of neutral and temperature sensitive hydrogels. This is achieved by considering the equilibrium thermodynamics of a swelling gel through a variational approach. The phase transition phenomenon of these gels, and the factors affecting their deformations, are studied. To facilitate the simulation of large inhomogeneous deformations subjected to geometrical constraints, a finite element model is developed using a user-defined subroutine in ABAQUS, and by modeling the gel as a hyperelastic material. This numerical approach is validated through case studies involving gels undergoing phase coexistence and buckling when exposed to irradiation of varying intensities, and as a microvalve in microfluidic application. 相似文献