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介绍一种新型酚醛--丁腈并用耐高温高强度单组分浆状结构胶粘剂和组成比例以及固化条件对粘接强度的影响,该胶适用于粘接刹车制动蹄和飞机轻金属结构等。 相似文献
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为了分析影响耐高温聚酰亚胺类胶粘剂性能的因素,使用C12H12N2O和C27H26N2O2作为二胺单体,C17H6O7作为二酐单体,通过封端剂C4H2O3和反应溶剂C5H9NO的共同作用制备了一种聚酰亚胺胶粘剂,测试了不同因素对胶粘剂粘接性能的影响。结果表明,固体质量分数、粘结件表面粗糙度、C12H12N2O和C27H26N2O2单体的摩尔比、二酐与二胺单体的摩尔比、聚酰胺酸固化工艺、亚胺化程度和亚胺化方式都会对耐高温聚酰亚胺类胶粘剂的性能产生影响。当胶粘剂固体质量分数为30%、表面粗糙度的打磨砂纸型号为600... 相似文献
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本文用X射线光电子能谱仪(XPS),对铝箔和聚酰亚胺粘剂的粘接界面进行了较详细的研究,分析了铝箔经几种方法预处理后改性表面的化学状态和化学组成及其对粘接强度的影响,讨论了可能的粘接机理及断裂机理。 相似文献
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研究了含2,3,3',4'-联苯四酸二酐(a-BPDA)的聚酰亚胺(PI)泡沫材料体系中,泡沫前驱体树脂的热处理温度、计算分子量、二酐分子结构对聚酰亚胺前驱体树脂熔体粘度和泡沫形貌的影响。研究发现,对于a-BPDA/m-PDA/NA体系,计算分子量为1500、密度为100 kg/m3时,前驱体树脂经过260℃/1 h的热处理得到的泡沫材料泡孔均匀、闭孔率可达89%,压缩强度为1.34 MPa,压缩模量为37.1 MPa;在该体系中,部分引入ODPA或BTDA,可降低材料制备成本,同时拥有PI泡沫原有的形貌和闭孔率。 相似文献
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针对现有软质聚酰亚胺泡沫强度低的缺点,通过一步法制备了短切碳纤维增强聚酰亚胺泡沫,研究了短切碳纤维的添加量对聚酰亚胺泡沫的化学结构、微观形貌、压缩强度及热导率的影响。结果表明,短切碳纤维在发泡过程中起到成核剂的作用,随着其添加量的增加,泡沫的泡孔平均尺寸先减小后增加;当短切碳纤维质量分数为20%时,泡孔的最小平均尺寸为507μm;泡沫密度随着短切碳纤维用量的变化没有明显的改变;泡沫的压缩强度随着短切碳纤维的用量先增大后逐渐减小,压缩强度最大为54.52 kPa;短切碳纤维的加入对聚酰亚胺泡沫材料的化学结构和热稳定性没有明显的影响,但是材料的热导率随着短切碳纤维含量的增加有一定的增加。 相似文献
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本文研究了不同种类的粘合剂在100℃至150℃温度下,预固化5分钟至15分钟对于天然橡胶金属复合件的粘合强度的影响。结果表明:预涂在金属表面的粘合剂经过适当的预固化处理后,对于成品取得高强度粘接性能是有帮助的。最佳的预固化温度不宜高于120摄氏度,时间不超过10分钟。 相似文献
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以环氧E-51、增韧剂R-1000、偶联剂KH-560、聚酰胺651、酚醛胺和促进剂DMP-30为原料,制备了一种高粘接性能、双组分室温固化环氧胶。研究了DMP-30的用量对环氧胶适用期的影响;R-1000、KH-560的用量和A、B组分配比对环氧胶粘接性能的影响。结果表明,m(聚酰胺+酚醛胺/mDMP-30=100/12时,环氧胶的适用期为40~45min;mE-51/mR-1000=100/16、mE-51/mKH-560=100/2,mA/mB=3.0/1.0时,环氧胶的粘接性能最佳。 相似文献
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Preparation and properties of rigid polyimide foams derived from dianhydride and isocyanate 总被引:1,自引:0,他引:1
A series of rigid polyimide (PI) foams were synthesized via the reaction of a first solution with a second solution. The first solution was isocyanate‐terminated polyimide prepolymers; the second solution contained deionized water and surfactant. The effect of different water contents and isocyanate index on the structures and properties of rigid PI foams were investigated. The apparent density, hardness, compressive strength, and the 5% weight loss temperatures (T5%) decreased with the increase of water content. With the increase of isocyanate index, the apparent density and the T5% values decreased, whereas the glass transition temperatures (Tg) increased and the hardness, compressive strength first increased and then decreased. The rigid PI foams composed of closed‐cells were confirmed by scanning electron microscopy. The maximum compressive strength of rigid PI foams prepared was up to 1.31 MPa. Moreover, excellent thermal stability was presented with the T5% values were all above 360°C and the residual weights of the foams (Rw) were more than 50% at 800°C. © 2012 Wiley Periodicals, Inc. J. Appl. Polym. Sci., 2013 相似文献
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聚酰亚胺改性环氧树脂胶黏剂的研究 总被引:1,自引:0,他引:1
环氧树脂和聚酰亚胺的性能具有一定的互补性,用聚酰亚胺对环氧树脂进行改性可以综合两者的优点,得到具有良好机械性能和粘结强度的耐高温环氧胶黏剂。用聚酰亚胺中间体聚酰胺酸(PAA)对环氧树脂(EP)进行改性,加入一定量的端羧基丁腈橡胶(CTBN),用4,4’-二氨基二苯砜(DDS)做固化剂,先在一定温度下进行预反应,然后在一定的工艺条件下固化,通过调节不同的配比,得到具有较高耐热性的环氧树脂胶黏剂。具体研究了PAA用量、DDS用量、CTBN用量对胶黏剂力学性能的影响,筛选较好的配方。采用热重分析仪(TG)和差热扫描量热仪(DSC)等研究胶黏剂的耐热性能,并利用傅立叶变换红外光谱(FTIR)对各树脂进行结构表征,采用扫描电镜(SEM)对固化后胶黏剂的断面形貌进行了分析。 相似文献
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《Journal of Adhesion Science and Technology》2013,27(1):527-549
A new linear, aromatic, thermoplastic polyimide, identified as LARC-IA, has been synthesized and evaluated, primarily as an adhesive, which is physiologically safe and relatively inexpensive. The polymer was prepared from oxydiphthalic anhydride (ODPA) and 3,4-oxydianiline (ODA) in diglyme. In order to obtain optimal flow properties, which improves wetting, the molecular weight of the polymer was controlled by use of a monofunctional anhydride, phthalic anhydride (PA). Adhesively bonded lap shear specimens, using Ti-6AI-4V adherends, were prepared and tested to assess its adhesive potential. Specimens were exposed to water boil and thermal aging to determine the adhesive system's durability. Flatwise tensile strength and critical fracture energy were also determined. Results were compared to data for LARC-TPI. Preliminary flexural strength and modulus results were also obtained for composites fabricated from LARC-IA (5% PA) and graphite fibers (AS4, 12K). Initial results of this study indicate considerable promise for this material as a structural adhesive for applications for temperatures up to 200°C. 相似文献
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聚酰亚胺树脂是一种耐热性好、介电性能优异、机械强度高的高分子材料,可以作为结构胶粘剂的主体材料。本文综述了近年来聚酰亚胺胶粘剂的研究进展。 相似文献
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介绍了近年来聚酰亚胺(PI)胶粘剂的常见改性方法。重点分析和总结了PI胶膜表面化学改性方法(包括等离子体改性、离子束改性、化学试剂改性和表面接枝聚合改性等)和PI胶粘剂材料化学改性方法,并对PI胶粘剂改性技术的未来发展趋势进行了展望。 相似文献