A toughness design principle of fiber composites was developed.
提出了复合材料韧度设计的基本原理。
Disclosed is a production method for molded articles made of fiber composites.
公开的是由纤维复合材料制成的模制品的生产方法。
Carbon fiber and carbon fiber composites are widely used in stealth technology.
炭纤维和炭纤维复合材料在隐身技术中已经得到了广泛应用。
Particle composite is of isotropy and low cost, it is supplement to fiber composites.
颗粒复合材料具有各向同性、成本低等特点,对纤维复合材料是一种补充。
This thesis researched concretely on application of EMR in fiber composites structure.
本文对电磁铆接在复合材料中的应用进行了具体研究。
Mechanical propertys of fiber composites largely depend on stress transfer of fiber and matrix.
纤维复合材料的力学特性很大程度上依赖于纤维和基体的应力传递。
The investigation shows that FHDBC can reflect the real structure of 3 D braided fiber composites.
研究表明枝状胞体模型能较为真实的反映三维四向编织复合材料的结构构形;
Classification and characterization of fiber composites as well as their applications are presented.
介绍了纤维复合材料的分类、特点及其在现代国民经济中广泛的应用领域。
The results showed that the physical and mechanical properties of bio-fiber composites can be improved though foaming.
研究结果表明:以碳酸氢钠为发泡剂对生物质纤维基复合材料进行发泡可以有效提高材料的物理力学性能。
We have to find out how to do EMR successfully without causing damage in high modulus carbon fiber composites structure.
研究了高模量碳纤维复合材料结构的电磁铆接工艺。
The paper introduces mainly the advanced preparation technology of carbon fiber composites and their new application areas.
主要论述制备碳纤维复合材料的先进工艺及碳纤维复合材料的应用新领域。
The paper describes the application status and future trend of natural fiber composites in domestic and international auto industry.
本文介绍了天然纤维复合材料在国内外汽车工业上的应用现状及发展趋势。
The property characteristics of bulletproof fiber composites and the applications in armor protection field are reviewed in this paper.
综述了防弹纤维复合材料的性能特点及其在装甲防护领域的应用,并对其应用前景进行了展望。
As technologies develop, in recent years, carbon fiber composites are also used in automobile, mainly as body panels, roof, door and inlettake, etc.
碳纤维复合材料近年来也日益增多的用于汽车上,主要用作车身外板、车门、进气路管和活门盖等。
By using an improved generalized self-consistent model, a group of equations to predict effective modulus of multiphase fiber composites was obtained.
利用新型广义自洽模型推导混杂纤维复合材料有效模量的预测公式。
Made of carbon fiber composites, the materials shift between two or more shapes in response to changes in heat, air pressure, or other environmental factors.
该材料由碳纤维复合材料构成,在热、气压或其他环境因素发生变化时,可改变到多种形态。
The stochastic finite element method is used to analyze the composite structural reliability. Here the laminate structure is made of unidirectional fiber composites.
运用随机有限元法,对单向纤维复合材料组成的层合板结构进行了可靠性分析。
Skylar Tibbits, director of MIT's Self-Assembly Laboratory, begins with novel carbon fiber composites developed by the startup Carbitex, based in Kennewick, Washington.
总部设在华盛顿·肯纳·威克的Carbitex公司开发出了新型碳纤维复合材料,之后麻省理工学院自组装实验室的主任斯凯勒·蒂比茨开始了基于此材料的研究。
With introduced the situation and development of natural fiber composites, this paper explained that flat fiber composites has expansive application development foreground.
本文阐述了天然纤维复合材料的现状及发展趋势,说明了麻纤维在复合材料应用领域有着广阔的发展前景。
The results shows that the stress-strain curves of the composites were nonlinear and the hybrid fiber composites had a positive hybrid effect when the brittle matrix was used.
结果表明,玻璃、碳及其混杂纤维复合材料的平面剪切应力-应变曲线均具有非线性特征;在脆性基体中选用混杂结构,其复合材料的剪切性能具有正的混杂效应。
Further a group of algebraic equations to predict effective longitudinal shear modulus of multiphase fiber composites were obtained by virtue of the averaged stress strain theorem.
根据复合材料平均应力与应变关系,获得了预测有效轴向模量的形式简单的代数方程。
The property characteristics of bulletproof fiber composites and the applications in armor protection field are reviewed in this paper. The application prospects are also discussed.
综述了防弹纤维复合材料的性能特点及其在装甲防护领域的应用,并对其应用前景进行了展望。
The performance and application of intelligent material systems and structures invlved piezoelectric materials as sensors, actuators and piezoelectric fiber composites are reviewed.
综述了压电材料和含有压电材料作为驱动器、传感器以及压电纤维复合材料等不同智能材料系统和结构的性能及应用特征。
The self-impacted drilling equipment and processing technology for the drilling of aramid fiber composites are developed, and the key technology and processing points are presented.
研制开发了一种用于芳纶纤维复合材料钻孔的自压紧钻孔装置及加工工艺,阐述了研制的关键技术及加工工艺要点。
The methodology of fracture mechanics based on continuous crack growth was applied to the investigation of the microscopic damage evolution and toughness calculation for fiber composites.
文中以裂纹连续扩展的断裂力学方法,研究单向纤维复合材料的细观损伤演化与韧度计算。
The analytical results show that the curing residual stresses of the twisted fiber composites in which there are different coefficient of thermal expansion due to curing can be decreased greatly.
分析结果表明:加捻纤维束构成的复合材料,由于纤维适当加捻,可以大大减弱纤维与基体各具不同的热膨胀系数而产生的固化残余应力。
The analytical results show that the curing residual stresses of the twisted fiber composites in which there are different coefficient of thermal expansion due to curing can be decreased greatly.
分析结果表明:加捻纤维束构成的复合材料,由于纤维适当加捻,可以大大减弱纤维与基体各具不同的热膨胀系数而产生的固化残余应力。
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