共查询到18条相似文献,搜索用时 78 毫秒
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粘弹性阻尼材料中互穿聚合物网络技术的应用 总被引:3,自引:0,他引:3
阐述了粘弹性材料在振动波作用下的阻尼机理,指出声波法和模量法的统一性。综述了互穿聚合物网络技术要点,并解释相分离体系宽玻璃化转变区间的形成机理;介绍了互穿聚合和网络技术形成的新途径及梯度互穿聚合物网络技术要点。 相似文献
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丙烯酸酯共聚物改性聚氨酯胶粘剂性能的研究 总被引:3,自引:0,他引:3
以2402酚醛树脂/聚氨酯为胶粘剂组分,得到具有优秀粘接强度的胶粘剂体系。通过自由基无规共聚合的方法合成出一系列不同玻璃化温度(-40~80℃)的聚丙烯酸酯,并对胶粘剂进行改性。结果表明:2402酚醛树脂的适量加入不仅可以改善胶粘剂对被粘面的浸润性、调节胶粘剂的粘度,还可以提高胶粘剂的粘接性能;使T剥离强度达到45N/cm;而丙烯酸酯共聚物的加入虽然降低了胶粘剂的粘接性能,使T剥离强度降至20~30N/cm,却可拓宽胶粘剂的阻尼温域,达到50℃。用SEM研究了不同组分对胶粘剂微观形貌的影响,用DMA研究了聚丙烯酸酯的改性对胶粘剂的阻尼性能的影响。 相似文献
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本文制备了一系列不同色浆质量分数的水性聚氨酯涂料,并将其喷涂在汽车仪表板聚氯乙烯(PVC)表皮的背面形成复合材料。 用旋转流变仪表征了涂料的粘度以评价其喷涂性能;用差示扫描量热仪表征了材料的玻璃化转变温度(Tg);利用万能材料试验机表征了材料在-30 ℃条件下的拉伸性能及抗撕裂性能;用动态热机械分析仪表征了材料的损耗比随温度的变化。 结果表明:不同色浆质量分数的涂料都能喷涂,含有涂层材料PVC表皮在-30 ℃低温爆破性能与涂层材料的Tg、低温拉伸性能、抗撕裂性能的关系并不大,而与涂层材料的阻尼性能直接相关。 材料的阻尼性能越好,其低温爆破性能越好。 相似文献
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本文研究了聚甲基丙烯酸甲酯/聚丙烯酸乙酯互穿网络体系(PMMA/PEALIPN)相分离和组分配比对其相逆转、相态结构及动态力学性能的影响.同时,对LIPN与其相应的混合乳液体系的结构和阻尼特性进行比较.结果表明,LIPN体系由于存在网络的相互贯穿,与混合体系相比其相分离程度低,出现精细结构,密度较高.当丙烯酸乙酯(EA)含量低时,PEA呈细胞结构分散在PMMA连续相中,随EA量的增加,体系出现相逆转并在EA体积含量为48%至86%范围内呈两相连续,各种性能发生突变和具有高阻尼特性.实数模量的实验点服从用Halpin-Tsai-Nielsen模量上、下限方程和描述两相连续的对数混合律三个方程结合计算的理论曲线. 相似文献
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丁腈橡胶/聚氯乙烯/酚醛树脂/受阻酚AO60共混阻尼材料研究 总被引:1,自引:0,他引:1
主要研究了丁腈橡胶(NBR)/聚氯乙烯(PVC)/酚醛树脂(PR)/受阻酚AO60共混体系中PR、AO60和增塑剂癸二酸二丁酯(DS)的用量对硫化橡胶力学性能和阻尼性能的影响。在共混体系中添加不超过50phr的AO60,其硫化胶损耗因子-温度曲线仍呈现单峰特征,体系相容性良好。随着AO60含量的增加,硫化胶的玻璃化转变温度提高,阻尼峰值增大。拉伸强度及动态模量先随之增高,然后降低。随着PR含量的增加,硫化胶的拉伸强度随之增加,tanδ峰值温度升高,而阻尼峰值则先提高后降低。加入增塑剂,硫化胶的力学性能、储能模量及玻璃化转变温度都有不同程度的降低。 相似文献
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为降低船舶甲板的振动和空气噪声,以支化和线性多元醇,低粘度聚合多异氰酸酯(PMDI)为主要原料制得阻尼聚氨酯,并将其铺设于钢甲板与浮动甲板之间。 探讨了基体结构、阻尼填料等对阻尼层固化时间、流平、阻尼和力学等性能的影响,以及铺设阻尼层前后甲板整体的隔声性能。 结果表明,调节支链和线性多元醇的质量比,可以改变基体的交联程度与结构,支化多元醇提高了聚氨酯的固化速率,硬度,以及力学性能;线性多元醇降低了体系的玻璃化转变温度,使阻尼温域移向低温,损耗因子峰值提高。 铺设于现有浮动甲板结构下2 mm聚氨酯阻尼层,可以有效增加整个甲板平均3 dB的隔声量,且在低频区增加量更大。 制得的聚氨酯阻尼层流动性优越,室温固化时间可控,可方便快捷的一次性自流平施工,对于提高现有浮动甲板的降噪性能具有实际的意义。 相似文献
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Effects of defects and element diffusion at coating/substrate interface on damping capacity
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In this work, the effects of the microstructures at the coating/substrate interface and in coating on damping and dynamic modulus by using low pressure plasma spray process and electro‐deposition (ELD) technology to deposit the Ni coating onto the Cu substrate were studied, and also research was conducted to explore the influence of elements diffusion on damping after ELD Ni/Cu coating system was heat treated. The microstructure of the coating system was observed using a scanning electron microscopy (CS3400) with an energy dispersive X‐ray spectrometer. The dynamic mechanical properties were tested using a dynamic mechanical thermal analyzer IV. The results indicated that there was a negative correlation between the modulus and the damping capacity for a coating structure. The difference between the damping values of the low pressure plasma spray coating system with more defects and ELD coating systems with few defects approximately equals to the damping value produced by defects. Defect can affect the value of pure damping peak (high temperature background damping subtracted) at around 150 °C. The higher the defect rate was, the higher the value of pure damping peak was. Elements diffusion at interface could change the amplitude and temperature of damping peak. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
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We present results for step‐strain experiments and the resulting damping functions of polyethylene blends of different structures, including solutions of linear, star and comb polymers. Remarkably, an entangled melt of combs exhibits a damping function close to that for entangled linear chains. Diluting the combs with faster‐relaxing material leads to a more nearly constant damping function. We find similar behavior for blends of commercial low density polyethylene LDPE. Our results suggest a simple picture: on timescales relevant to typical damping‐function experiments, the rheologically active portions of our PE combs as well as commercial LDPE are essentially chain backbones. When strongly entangled, these exhibit the Doi‐Edwards damping function; when diluted, the damping function tends toward the result for unentangled chains described by the Rouse model – namely, no damping. © 2007 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 45: 3117–3136, 2007 相似文献
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Muramatsu H Yamamoto Y Shigeno M Shirakawabe Y Inoue A Kim WS Kim SJ Chang SM Kim JM 《Analytica chimica acta》2008,611(2):233-238
We have fabricated polymer tips for atomic force microscopy in order to elucidate the effects of tip length and shape on cantilever vibration damping in liquids. The vibration damping is investigated by measuring the vibration amplitude of cantilevers as a function of tip-sample distance. The cantilever with a short tip provides a higher damping effect over long tip-sample distances. When the vibration amplitude was rescaled to show the effect of the cantilever width on oscillation damping, the vibration amplitude of cantilevers with various tip lengths was similarly obtained in a long distance range over 50 μm. This similarity is explained by an acoustic damping model in which an acoustic wave is generated by the cantilever. Finally, the results indicate a cantilever with a sufficiently long tip compared to the cantilever width can dramatically reduce the long-range damping effect in a liquid environment. 相似文献
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The damping property of magnetorheological (MR) elastomers is characterized by a modified dynamic mechanical-magnetic coupled analyzer. The influences of the external magnetic flux density, damping of the matrix, content of iron particles, dynamic strain, and driving frequency on the damping properties of MR elastomers were investigated experimentally. The experimental results indicate that the damping properties of MR elastomers greatly depend on the interfacial slipping between the inner particles and the matrix. Different from general composite materials, the interfacial slipping in MR elastomers is affected bythe external applied magnetic field. 相似文献