因此研究与开发耐电弧烧蚀性能和介电性能优异的环氧树脂复合材料具有重要意义。
It is significance to study and exploit epoxy resin composite with excellent arc resistance and dielectric properties.
以贝壳微粉为刚性填料,研究了硅烷偶联剂对贝壳微粉改性环氧树脂复合材料性能的影响。
The effects of silicane coupling agent on the properties of epoxy matrix composites filled with rigid shell powder were studied.
制备了空心玻璃微珠(HGM )填充环氧树脂复合材料,对材料进行了单轴静态压缩实验。
Uniaxial static compression behavior of composites of epoxy resin (E-51) and hollow glass microspheres (HGM) was investigated.
叙述了用玻璃纤维增强的环氧树脂复合材料等来复制古代大型天文简仪龙柱的工艺试验和制作过程。
This paper describes the technological test and the making process of the Abridged Armilla with the ancient large astronomy in epoxy-glassfiber reinforced composites, etc.
通过使用本实验室设计的低温拉伸夹具,测定了纳米二氧化硅改性环氧树脂复合材料在室温和液氮(77K)环境下的拉伸强度、弹性模量和延伸率。
Measurement of tensile strength , modulus and strain of nanometer SiO2/epoxy composite materials was conducted using self-designed tensile testing jigs at room temperature and 77K.
研究了玻璃粉/环氧树脂封接复合材料的制备与性能。
The preparation and properties of superfine glass powder/epoxy resin composites were studied.
利用NYL-200D型压力实验机和落锤装置对圆筒形碳纤维增强环氧树脂基复合材料结构进行了准静态和动态冲击压缩实验。
Quasi-static and dynamic compression experiments of carbon fiber reinforced epoxy resin matrix composite cylinder structures are implemented by NYL-200D testing machine and drop weight equipment.
选用13型压电复合材料作为研究对象,压电相为PZT5H,环氧树脂作为基体相。
Type 13 composite piezoelectric material is used as research object, which composed of PZT5H is piezoelectric component and epoxy.
利用超声波和偶联剂处理的方法,制备了纳米微粒填充环氧树脂基复合材料。
Three kinds of nanoparticles were efficiently dispersed into the epoxy resin by using coupling agents and ultrasonic wave.
研究了以环氧树脂ep为基的TGS铁电复合材料的热电驰豫现象。
The pyroelectric relaxation of TGS ferroelectric composites based on EP has been studied.
介绍了环氧复合材料拉挤的设备、模具及工艺,并对环氧树脂拉挤的基本原理及最佳工艺参数进行了探讨。
This paper describes the device, mold and technology for pultrusion of epoxide composite. The principle and optimum parameters were probed.
用全动态dsc研究了先进复合材料用高性能双组份环氧树脂的固化反应动力学,获得了固化反应的动力学参数,并建立了固化动力学的唯象模型。
The cure kinetics of a bicomponent high performance epoxy resin was studied by dynamic DSC analysis, and the parameters of the cure reaction were obtained to establish a phenomenological model.
以环氧树脂为基体,以玻璃布和碳布为增强材料,采用模压成型工艺制备了某型无人机机翼环肋复合材料结构件。
The aerofoil rib parts for pilotless aircraft was manufactured by using mold pressing process with epoxy resin as matrix materials and glass cloth as enhancement materials.
研究了电子束固化eb 99 - 1环氧树脂及其as4碳纤维增强复合材料。
The properties of epoxy resin matrix EB99-1 and its composites reinforced by AS4 carbon fiber were investigated.
从大庆油浆得到的COPNA树脂为基体的炭纤维复合材料,表现出的力学性能优于酚醛、环氧树脂,间接证明了COPNA树脂与炭纤维有较强的亲和性。
Results showed that the mechanical properties of the composites from COPNA resins from Daqing slurry are better than those from conventional bakelite and epoxy resin.
双酚A甲醛多环氧树脂是一种用于制备高级复合材料的树脂基体。
Polyglycidylether of Bisphenol A-Novalac is an epoxy matrix of high performance composites.
为了满足传感器的使用要求,本文以玻璃纤维增强环氧树脂基复合材料薄膜作为传感器应变片的基底材料。
A study of milled glass fiber reinforced composites used as the strain gage backing material is present in this paper, which made it suitable more well for the demands of load cell.
研究了以环氧树脂ep为基的TGS铁电复合材料的热电弛豫现象。
The Pyroelectric relaxation of TGS ferroelectric composites based on EP has been studied.
介绍了环氧树脂基纳米复合材料的制备方法、性能、作用机理及研究进展。
Recent research advances in fabrication methods, the properties and the function mechanism of the epoxy resin-based nanocomposites were introduced in this paper.
阐述了在降低复合材料成本和提高复合材料性能方面,中温固化环氧树脂基体研制的重要性和必要性。
The paper describes the importance of developing the epoxy resin cured at moderate temperature to reduce the production cost and improve the performance of composites.
测试了改性环氧树脂胶膜熔体粘度对固化温度和时间的依赖性,将缝合与未缝合复合材料层合板试样的基本力学性能进行了试验对比。
Viscosity of the RFI resin film as a function of curing temperature and time were tested respectively. The mechanical properties of stitched and unstitched composite laminates were evaluated.
采用气流磨粉碎的方法制备了平均粒径在微米尺寸的三角蚌贝壳粉,将此贝壳粉与环氧树脂进行熔融共混得到一系列不同配比的复合材料。
Shell particles in micrometer level have been prepared by a jet milling, and it was used as filler to modify the properties of epoxy resin (EP) by melting-blending.
本文制备了可二阶段固化的形状记忆环氧树脂基体,研究了形状记忆环氧树脂及其复合材料的形状记忆特性和力学性能。
From the design of epoxy resin system, two-stage rigidization epoxy resin matrix with thermal induced shape memory property was prepared.
研究表明,5228A环氧树脂膜具有良好的工艺性,RFI工艺能够应用于复合材料复杂结构件的制造。
The research shows that epoxy film 5228a has a good processibility, and RFI is suitable for manufacturing complex composite material parts.
以酚醛树脂、环氧树脂与石墨作为基本原料,采用热压成型制备了几种导电复合材料。
Different kinds of conductive composites have been prepared from the raw materials of phenolic resin, epoxy resin and graphite by the hot pressing process.
作为基体材料,环氧树脂在微波辐射下的固化机理、固化特性及固化产物性能对探索其复合材料的微波固化成型工艺具有重要的参考价值和指导意义。
The paper focused on the effect of microwave curing on the curing rate of epoxy resin and its composites as well as the mechanical and thermal properties of cured products.
以合成的木质素基环氧树脂为基体,蒙脱土为增强材料,采用插层复合法制备了酶解木质素基复合材料。
Based on the resin with the montmorillonite as reinforcing material, the lignin-based composite material was acquired by the intercalation compounding method.
通过力学测试、DSC、DMA和SEM等分析,研究了聚乳酸和淀粉在不同质量配比下,复合材料力学性能、热性能、吸水率的变化,并研究了增容剂环氧树脂对复合材料性能的影响。
The changes of mechanical, thermal properties and water absorption of blends were analysed with mechanical test, DSC, DMA and SEM. The influence of epoxy resin in blends was also studied.
但环氧树脂传统的热固化方法由于存在着传热速度慢、温度梯度大、固化不均匀和固化速率低等问题,严重影响了环氧树脂基复合材料的固化质量。
The effect of microwave curing on the curing velocity, mechanical and thermal properties of epoxy and epoxy matrix composites were discussed emphatically and in detail.
但环氧树脂传统的热固化方法由于存在着传热速度慢、温度梯度大、固化不均匀和固化速率低等问题,严重影响了环氧树脂基复合材料的固化质量。
The effect of microwave curing on the curing velocity, mechanical and thermal properties of epoxy and epoxy matrix composites were discussed emphatically and in detail.
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