综述了有关导电聚合物复合材料的研究。
A review is given of the research on composites including conductive polymers.
重点介绍了炭纤维增强聚合物复合材料的力学性能和生物相容性。
Emphasis was placed on the biocompatibility and mechanical properties of carbon fiber reinforced polymers.
本发明公开了一种具有取向填料的聚合物复合材料及其制备方法。
The invention discloses a polymer composite material with oriented padding and a preparation method thereof.
公开了环境友好型聚合物复合材料和可由该复合材料形成的产品。
Disclosed are environmentally friendly polymeric composite materials and products that can be formed from the composites.
介绍了用碳纳米管与炭黑(或石墨)混合填充的聚合物复合材料的导电特性;
Conductive properties of polymer composites filled with two kinds of carbon materials (carbon nanotubes and carbon black or graphite) are introduced and the conductive mechanism is expounded.
原位成纤作为一种重要的提高聚合物复合材料力学性能的方法而受到广泛关注。
In this paper, by combining in-situ fibrillation with shear force field together to enhance their reinforcement ability, the properties of the composite are expected t.
单聚合物复合材料(SPC)是由化学结构相同而物理结构不同的基体和增强体组成的复合材料。
Abstract : In order to realize the insert injection molding of polyethylene (PE) single-polymer composite (SPC), it is important to study the interfacial morphology of the matrix and reinforcement.
碳酸钙晶须具有成本低、白度高、填充量大的特点,因而大量地用于改善聚合物复合材料的力学性能。
Calcium carbonate whiskers are characteristic of low cost, high whiteness and big package, and they are widely used for improving the mechanic performance of polymer composite.
从复合材料界面的角度,采用XPS综合方法研究了水泥基聚合物复合材料的高强特别是高抗弯强度的微观机理。
XPS comprehensive method is used to study the composition and structure of interface in high compressive strength, especially high bending strength cement-based composite material.
对氧化铁—聚合物复合材料的研究现状进行了综述,详细探讨了目前常用的各种制备方法,并对各种方法的优缺点进行了分析。
In this paper recent research progress in iron oxide-polymer nanocomposites is reviewed. Several preparation methods are analyzed, with a discussion of their advantages and disadvantages.
应用线弹性断裂力学的弹性能释放率及裂纹扩展阻力等基本概念和理论,建立起确定纤维增强高分子聚合物复合材料断裂韧性的能量方法。
An energy method for determining fracture toughness of fibrous composite laminates was based on the theory of elastic energy release rate and crack-growth resistance in this paper.
聚合物基复合材料把无机物的高模量、尺寸稳定性以及光、电等特性与高分子材料的韧性、易加工性、电绝缘性巧妙地结合起来。
Polymer based composites combined the good process property, electrical insulation and toughness of polymer with the properties of inorganic materials, such as high module, good dimension stability.
将数学上的均匀化方法与有限元法相结合,预测了颗粒增韧增强聚合物基复合材料的有效性能。
The finite element method is combined with homogenization theory based on asymptotic expansion for predicting effective properties of polymer matrix composites toughened and strengthened by particles.
根据微胶囊近年来的研究,重点阐述了微胶囊技术在聚合物基复合材料损伤自修复过程中的应用研究。
According to the recent research on microcapsules, the application of microcapsule technology to the self-healing process of polymer matrix composites is emphasized.
关于聚合物/炭黑复合材料PTC特性的机理研究,提出了许多理论模型。
Many theoretic model about the mechanism of the PTC properties of polymer/carbonblack composites are suggested.
在此基础上,对聚合物水泥基复合材料界面粘结层的结构模型进行了描述。
Based on the investigation results, the structure model of the interfacial bond layer in polymer cement based composite materials is described.
讨论了聚合物基泡体复合材料的隔热原理和性能。
In this paper, the thermal insulation properties and principles of polymer based composite with hollow particles are discussed.
探讨了接枝聚合物层对复合材料界面的影响。
The influence of carbon fiber surface grafting polymerization on the interface of polymer composite is also discussed.
因此,研究与寻找具备高介电常数的电应力控制新型聚合物基复合材料就成为工程电介质物理领域研究的重要课题。
Therefore, to develop the composite with high permittivity, which can control electrical stress, has become an important subject in the field of engineering dielectric physics.
树脂传递模塑工艺(RTM)是纤维增强聚合物基复合材料的重要制备工艺之一。
Resin transfer molding(RTM) is one of the important processes for fabrication of fiber-reinforced polymer-matrix composites.
聚合物基复合材料的固化制度是影响其性能经济指标的重要因素。
The curing cycle of polymeric composites has significant effect on its performance and economic indices.
聚合物基复合材料的动态粘弹性能在现代科学技术领域应用日益广泛。
The polymeric matrix composites are applied to the modern scientific and technical field.
近年来,由于粒子填充聚合物共混物的广泛运用,复合材料的结构研究具有重要意义。
In recent years, because of the extensive application of polymer blends filled with particles, the research of the structure of polymer composites is important.
介绍纳米材料的特性、制备方法及聚合物基纳米复合材料中纳米材料的表面处理方法。
Introduce the characteristics and preparation methods of nanometer materials as well as its surface-treating methods in the polymer-nanometer material composite.
本文综述了聚合物基纤维复合材料界面残余应力的形成、测定方法和各种理论分析方法。
In this paper, an overview of the formation, determination and various theoretical analysis methods of residual stress at the fiber - polymer interface is presented.
纳米微粒分散在基体聚合物的连续相中成为聚合物系的纳米复合材料。
Nanometer microparticle is dissipated in a continuous phase of basic polymer. It becomes a nanometer compound of polymer system.
提出了一种基于不可逆热力学和纯弯曲理论的力电耦合模型,以描述和预测离子聚合物金属复合材料的力电特性。
As a novel kind of sensor and actuator materials, Ionic Polymer Metal Composite (IPMC) has been used in more and more engineering applications fields.
本文综述了聚合物基纤维复合材料界面残余热应力的形成、测定方法和各种理论分析方法。
In this paper an overview of the formation, determination and various theoretical analysis methods of residual stress on the fiber-polymer interface is presented.
本文主要介绍了聚合物基复合材料的导热机理,以及预测二相体系复合材料热导率的理论模型方程。
The mechanism of thermal conduction and theoretical mold of forecasting thermal conductivity to two posture systems for composite of polymer of thermal conductivity are reported in this article.
本文主要介绍了聚合物基复合材料的导热机理,以及预测二相体系复合材料热导率的理论模型方程。
The mechanism of thermal conduction and theoretical mold of forecasting thermal conductivity to two posture systems for composite of polymer of thermal conductivity are reported in this article.
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