并对细观力学的未来发展趋势加以展望。
The future research trends and opportunities of meso-mechanics are outlined in the final part of the paper.
模拟结果为混凝土细观力学分析提供了前提和基础。
Simulated results provided the precondition and foundation for mesoscopic mechanical analysis in concrete.
本文从细观力学角度研究了高脆性材料亚临界裂纹扩展机制。
The subcritical crack growth mechanism in brittle materials is studied from the viewpoint of mesomechanics.
建立了一种细观力学模型用于预报复合材料的有效热膨胀系数。
A micromechanical model was proposed to predict the thermal expansion coefficient of composite.
首先在考虑界面过渡区的情况下建立混凝土三相细观力学模型;
First of all, concrete three-phase micro-mechanics model is built .
并表明该方法能用以建立复合材料细观力学与宏观力学间的联系。
The paper shows that the method can be used to establish the relation between micromechanics and macromechanics of composites.
界面层(或界面相)断裂行为是复合材料细观力学的一个重要问题。
Mechanics model in consideration of interface layer effects on fiber reinforced ceramic composites;
基于细观力学方法建立了两种预测单向复合材料的热膨胀系数的方法。
Two methods are established to predict the thermal expansion coefficient of Unidirectional composite based on micro-mechanics.
采用细观力学方法提出一个岩石各向异性损伤和渗流耦合的细观模型。
A coupled model for anisotropic damage and permeability variation by using a micromechanical approach is presented.
利用理论和数值方法研究了形状记忆合金增强复合材料的宏细观力学性;
The macro and micro mechanical behavior of smart composite materials reinforced by SMA was described by an analytical and numerical approach.
介绍了本文作者所开发的《细观力学图象处理》软件的编制和应用情况。
The compilation and application of the software "Macro-mechanical Image processing" were introduced.
用细观力学方法分析了工艺参数和尺寸效应对材料有效性能的影响规律。
The effects of the processing parameters and the dimension of the structure on the effective elastic properties of the composite were also studied by the meso-mechanical method.
经典的细观力学方法虽然可以较好地描述混凝土的性质,但计算比较复杂。
Classic micromechanics can accurately describe concrete properties, but the analyses require complex computations.
利用细观力学模型和有限元法研究纤维束复合材料的横向弹塑性力学性能。
The transverse elastoplastic mechanical properties of fiber bundle reinforced composites were studied by using the micro mechanical model and finite element method.
建立了超导复合带材的细观力学假设和模型、以及成型过程的有限元分析模型。
The mechanical hypothesis and geometry model of the composite tapes were set up. The finite element analysis models in the process of the composite tapes' shaping were established.
从砌体细观结构出发,提出了用于砌体复合剪压受力过程模拟的细观力学模型。
A mesoscopic mechanics model for masonry structures is established based on elastic damage mechanics and the tests of masonry structures under shear-compression loading.
研究成果对于揭示砂土变形的细观机理以及建立砂土的细观力学模型都具有意义。
The results were valuable for the studies on the micro regularity of sand deformation and the establishment of micro models.
本文着重论述考虑涂层效应的纤维增强金属基复合材料的热机械加载细观力学模型。
In this paper a micromechanical model of fiber-reinforced metal matrix composites is established with considering the coating effects.
将细观力学和计算力学方法相结合用以确定复合材料中的局部和平均应力-应变场。
The method of cells and micromechanics in conjunction with the computational method is employed in this investigation to determine the local and average stress strain fields within the composite.
同时,多域边界元法也从细观力学的角度被用来探索这种不连续系统的平面应变问题。
In the point of view of meso - mechanics, the multi-zone boundary element method is used to analyze the behavior of the discontinuous system.
本文以应用较多的光测技术为主,综述了细观力学测量中光、声、磁、射线等试验技术。
In this paper the measurement methods based on optics, acoustics, magnetics and radiology are mentioned for research of mesomechanics.
应用细观力学的模型,根据纤维断裂段的长度,可确是纤维和基体之间的界面剪切强度。
Using a micromechanical model, it is possible to determine from the fragmentation lengths a measure of the interracial shear strength between the fiber and the matrix.
基于复合材料宏、细观场量之间的联系,建立了一种纤维增强复合材料宏—细观力学模型。
A macro and micro mechanics model is presented based on the relation between macroscopic and microscopic stress and strain fields, in which composite macroscopic stress strain relation is obtained.
运用细观力学中的均匀化方法和塑性力学中的极限分析理论,分析了复合材料的屈服准则。
The yield criterion of composite materials is simulated by using the homogenization method of micromechanics and the plastic limit analysis theory.
复合材料细观力学的核心任务是建立复合材料宏观性能及其组分和细观结构之间的定量关系。
The key assignment of composite micro-mechanics is to build the quantitative relation of various macro-performance and the microstructure.
本文从复合材料细观力学的角度,对植物根系加固土壤的力学机理进行了数值计算和实验研究。
In this dissertation, the mechanical mechanism of soil-roots composites is studied through numerical simulation and experimental study.
此外,在已有的宏细观力学实验基础上,进一步分析了空心玻璃微珠对复合泡沫塑料的增强机理。
In addition, based on the macroscopic and microscopic experiments, the reinforced mechanism of hollow glass micro-spheres for polyurethane syntactic foams is discussed also.
针对增强相在基体材料中的分布方式的不同,建立了一个研究复合材料有效性能的细观力学模型。
For different distribution of the reinforced phase in matrix material, a micromechanical model was developed to investigate the effective properties of composites material.
在细观力学和统计强度理论基础上,将损伤力学与计算机技术相结合将是一种有前途的分析方法。
The combination of damage theory and computing method is a promising approach to resolve the stochastic problems due to the heterogeneities in quasi-brittle materials.
在细观力学和统计强度理论基础上,将损伤力学与计算机技术相结合将是一种有前途的分析方法。
The combination of damage theory and computing method is a promising approach to resolve the stochastic problems due to the heterogeneities in quasi-brittle materials.
应用推荐