酚醛纤维

酚醛纤维/酚醛复合材料烧蚀防热性能研究

Research on Ablation and Thermal Protection Properties of Phenolic Fiber / Phenolic Composites

酚醛纤维具有更好的耐热性，固化操作后耐热性显著提高。

Phenolic fiber has better heat resistance , curing operation significantly improved heat resistance .

本文以毡状粘胶纤维、酚醛纤维和聚丙烯腈纤维为原料研制了活性炭纤维（ACF），并考察了它们的物化性能。

Studies have been made on the preparation and physicochemical properties of activated carbon fibers ( ACF ), prepared from felts of rayon , phenol-formaldehyde resin , and polyacrylonitrile .

通过热重分析TGA曲线研究酚醛纤维耐热性。水平离心成纤过程，在保持聚合物分子结构不变的情况下，水平离心成纤加工工艺提高了酚醛树脂的耐热性。

By thermal gravimetric analysis of the TGA curves , horizontal centrifugal fiber forming process , and maintain the structure of the polymer molecules to the same case , the level of Spun fiber processing technology to improve the heat resistance of phenolic resins .

环氧氯丙烷改性酚醛纤维的制备及性能

Preparation and Properties of Epichlorohydrin Modified Phenolic Fibers

酚醛纤维交联程度对炭纤维结构和性能的影响

Effect of crosslinking of phenolic fibers on the structure and performance of carbon fibers

用固化反应法制备酚醛纤维

The curing reaction of phenolic fibers

水平离心成纤所得酚醛纤维均匀性好，纤维长度较长。

The level of spun fiber of phenolic fiber obtained by horizontal centrifugal fiber owns uniformity and longer fiber length .

FX系列酚醛玻璃纤维模塑料部标准验证报告

Test report for ministry standards of FX series molding phenol

可生产玻璃纤维，酚醛玻璃纤维和碳纤维复材零件。

Include Glasss Fiber , Phenolic Glass Fiber and Carbon Fiber .

并结合不同加工温度下酚醛树脂纤维取向度和耐热性变化，推测加工温度对酚醛树脂纤维性能的影响，为酚醛树脂纤维新型成纤工艺的成熟奠定了基础。

And combination of different processing temperatures of phenolic resin fiber orientation and heat changes , suggesting that the influence of processing temperature on the performance of phenolic resin fiber , which lays a foundation for the mature of the new type of phenolic resin fibers into fiber technology .

改性酚醛基混杂纤维复合摩阻材料的研制

Study of Hybrid Fiber / Modified Phenolic Basis Friction Material

热固性酚醛树脂粘结纤维过滤元件的研制

The preparation of sintered filter element from fibre binding by thermosetting resin

木质素酚醛树脂碳纤维的制备及表征

Preparation and Characterization of Carbon Fiber Derived from Lignin-Phenol-Formaldehyde Resin

Al2O3/苯基倍半硅氧烷改性酚醛树脂/碳纤维烧蚀材料的研制

Research on Phenolic Resin / Carbon-Fiber Ablation Composites Modified with Al_2O_3 / Phenyl-Silsesquioxanes

结果表明，溶剂能够与酚醛树脂在石英纤维表面形成竞争性吸附，从而影响树脂在RTM模具内部不同位置的分布和复合材料的力学性能。

The results show that solvents compete with phenolic resin for the adsorbing sites on the silica fiber .

双酚A下脚酚醛树脂胶在纤维板生产中的应用

Application of PF Resin adhesive derived from Bisphenol A leftover in Fiberboard Manufacture

改性酚醛型环氧玻璃纤维压塑料的研制

Preparation of glass fiber reinforced modified novolac & type epoxy resin molding compound

热塑性酚醛树脂对碳纤维环氧树脂基复合材料性能的影响

Effect of thermoplastic phenolic resin on properties of carbon fibers reinforced resin matrix composites

酚醛基活性炭纤维孔结构及其电化学性能研究

Influence of Pore Structure of Phenolic Resin Based Activated Carbon Fibers on the Electrochemical Performance of Electrical Double-layer Capacitors

采用酚醛树脂作为炭纤维表面处理剂，可以显著提高多种炭纤维和环氧树脂界面强度。

To enhance the interfacial adhesion between the carbon fibers and the epoxy resin matrix , the phenolic resin surface treatment agent is used .

提出采用三组份改性酚醛树脂和混杂纤维冷压工艺制备离合器摩擦材料。

It is suggested in this paper that phenolic resin with three components and hybrid fiber were used to prepare clutch friction materials by cold-press process .

结果表明，采用三组份酚醛树脂和混杂纤维可以制备出摩擦性能良好，350℃不发生热衰退的离合器摩擦材料，且材料具有合适的孔隙率。

It is showed that by using the phenolic resin and the fiber , the clutch friction materials could be manufactured with good properties such as stable friction coefficient , low wear rate , high fade resistance at 350 ℃, and suitable porosity .

采用热塑性酚醛树脂经熔融纺丝和酸催化固化获得酚醛纤维。

Phenolic fibers were prepared by melt-spinning a novolac resin and then crosslinking .

对碳纤维增强SiC／酚醛树脂烧结合金的高温耐磨性能及其耐磨机理进行了详细研究.结果表明，适量的酚醛树脂及碳纤维的加入有利于烧结合金耐磨性能的提高。

The high temperature wearability and the mechanism of wearing-resistance of carbon fiber reinforced SiC / phenolic aldehyde sintered alloy were studied and discussed . The results indicate that suitable amount of phenolic aldehyde and carbon fiber is beneficial to the wearability of the sintered alloy .