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采用耐热酚醛树脂杂化了磷酸盐胶黏剂,以纳米氧化铝、氧化锆和氧化锌为固化剂,制备了一种对C/C和C/SiC复合材料具有良好粘接性能的胶黏剂。通过不同测试温度下的剪切强度,差示扫描量热仪(DSC),热失重(TG)以及扫描电子显微镜(SEM)探究了杂化胶黏剂的力学性能、固化行为、耐热性能以及高温下胶黏剂结构的变化。结果表明:酚醛树脂的加入,保持了耐热性能,降低了体系固化的固化温度,有效地提高了磷酸盐胶黏剂对C/C、C/SiC两种复合材料力学性能,室温下剪切强度均高于10MPa。 相似文献
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综述了国内外耐高温胶黏剂的发展概况。对环氧树脂、酚醛树脂、有机硅树脂、聚酰亚胺及其他含氮杂环聚合物等耐高温有机胶黏剂和磷酸盐、硅酸盐、金属、陶瓷等耐高温无机胶黏剂的性能、改性方法和应用进行了详细地论述,并对耐高温胶黏剂的发展趋势做了展望。 相似文献
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耐高温胶黏剂广泛应用于航空航天、汽车、电子电器等领域,其中环氧树脂胶黏剂具有成本低廉、粘接强度高、综合性能好等优点,经常被作为耐高温胶黏剂的基体,但是固化后的环氧树脂存在耐热性不高等缺点,限制了它的广泛使用。为此,文章介绍了近年来通过无机填料、热塑性树脂、橡胶等方法改性环氧树脂制备耐高温环氧胶黏剂的研究成果,并对其发展前景进行展望。 相似文献
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耐高温环氧树脂胶黏剂具有胶结强度高、综合性能好、使用工艺简便等特点,广泛应用于工业和生活的各个领域。环氧胶黏剂的耐高温性取决于固化物的热变形温度和热氧化稳定性,固化物中交联点间的距离越短,交联密度越大,分子链上的芳环、脂环、杂环等耐热刚性基团越多则热变形温度越高,高温力学性能越大,耐热性越好。可以通过改性环氧树脂,使用多官能度固化剂来提高环氧树脂胶黏剂的耐温性。主要从组成方面介绍影响环氧树脂胶黏剂耐高温性的影响因素,并就目前在制备耐高温环氧树脂方面的研究成果进行了综述。 相似文献
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介绍了用扩链剂A、混合多元醇和异氰酸酯等材料合成了适合服装面料行业所需的聚氨酯胶黏剂。简单介绍了聚酯多元醇和聚氨酯的合成工艺。研究讨论了多元醇的类型、扩链剂的结构、异氰酸酯指数、溶剂等方面对聚氨酯胶黏剂性能的影响。最终确定的以混合多元醇、扩链剂A、异氰酸酯和混合溶剂等原料合成的聚氨酯胶黏剂其外观澄清透明、软化点在1 0 0~ 1 1 0℃、固含量 35 %时黏度在 1 0 0 0 0~ 2 0 0 0 0mPa·s之间、硬度为 70~ 80邵氏A ,且贮存稳定 相似文献
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介绍了苯胺二苯醚树脂与双马来酰亚胺共聚物的合成,并研究了其热性能及在胶粘剂方面的应用 相似文献
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本文对磷酸氧化铜无机胶进行了套接抗拉疲劳寿命的试验研究,测出了该胶的S-N曲线及疲劳极限。结果表明:磷酸氧化铜无机胶的抗拉疲劳特性与金属材料的特性较相似,该无机胶的抗拉疲劳极限为其静拉伸剪切强度的41.25%。本研究结果为将该无机胶更有效地应用于疲劳构件的粘接提供了理论依据。 相似文献
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Adhesive bond strength and durability were investigated for steel substrates which had been cathodically electroprimed before bonding. Lap shear and torsional impact strengths of two model epoxy adhesives were evaluated. Very poor strengths and durability were found for one adhesive, which was cured with a mixture of three amine curing agents. Scanning electron microscopy and analysis of primer susceptibility to interaction with the curing agents suggested that, for the high concentrations of curing agent in the amine-cured adhesive, chemical and physical degradation of the primer occurred during cure at elevated temperature.
For the second adhesive, which was cured with a single imidazole catalyst, excellent strength and durability were obtained, with no evidence of primer degradation. Surprisingly, for this adhesive, strengths to primed steel were up to 88% higher than to cleaned (i.e., degreased) bare steel. The concurrent improvements in environmental durability over bare steel, as assessed by water immersion and salt spray accelerated exposures, were attributed to the more favourable surface energetics of the adhesive/primer interface. 相似文献
For the second adhesive, which was cured with a single imidazole catalyst, excellent strength and durability were obtained, with no evidence of primer degradation. Surprisingly, for this adhesive, strengths to primed steel were up to 88% higher than to cleaned (i.e., degreased) bare steel. The concurrent improvements in environmental durability over bare steel, as assessed by water immersion and salt spray accelerated exposures, were attributed to the more favourable surface energetics of the adhesive/primer interface. 相似文献
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《Journal of Adhesion Science and Technology》2013,27(9):711-726
Studies at NASA Langley Research Center had shown that the processability of aromatic polyimides can be improved by the addition of bis(amide acids) or bisimides to LARC-TPI. These low-molecular-weight additives apparently lower the melt viscosity of aromatic polyimides without affecting their glass transition temperatures. Well-consolidated, fiber-reinforced composites have been fabricated using this technology. LARC-TPI can be processed as a thermoplastic polyimide to form high strength bonds. However, this is generally accomplished by processing at relatively high bonding pressures, i.e. 2.07 MPa (300 psi). This paper covers the investigation of the effects of two bisimide additives to LARC-TPI adhesive in an attempt to improve the bonding process by lowering the viscosity of the material to achieve improved bond strength properties at lower bonding pressures. The results indicate some improvement in room temperature lap shear strength for the doped adhesives for the lowest bonding pressure, 0.34 MPa (50 psi), but some decrease in elevated temperature strength (232°C) for the phthalic anhydride-p-phenylenediamine-phthalic anhydride (C-PDA) system. The aniline-pyromellitic dianhydride-aniline (C-PMDA) system, bonded at 2.07 MPa (300 psi), exhibited comparable strengths to LARC-TPI after thermal and water boil exposures. The high flow exhibited by the additive in the melt state was not effective in lowering the viscosity of the more viscous LARC-TPI at the additive levels investigated. 相似文献
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本文介绍了淀粉磷酸酯粘合剂的合成方法、基本原理和机械强度等。试验表明本粘合剂对纸板和型砂有良好的粘接性。 相似文献