热塑性聚合物

  • 网络thermoplastics;thermoplastic polymer
热塑性聚合物热塑性聚合物
  1. 在热塑性聚合物研究中,其熔化特性在温度燃烧阶段影响了质量损失速率。

    For the thermoplastics studied , the melting behavior affected the mass loss rates during the steady burning stage .

  2. 碳纤维增强高性能热塑性聚合物基复合材料在国际上公认为先进复合材料(AdvancedCompositeMaterial,简称ACM),是国内外复合材料领域的研究重点和发展方向。

    Carbon fiber reinforced high performance thermoplastic polymer composite is recognized as advanced composites ( Advanced composite material , ACM ) in the world . It is the emphases of research and development direction of the fields of composites both at home and abroad .

  3. 木塑复合材料(Wood-plasticcomposites,简称WPC)是一种用木质材料(木质素(Lignin),木粉,木纤维或植物纤维等)填充热塑性聚合物的复合材料,兼有木材和塑料的优点。

    Wood-Plastic Composites , which use of wood material ( lignin , wood flour , wood fiber or plant fibers , etc. ) filled thermoplastic polymer , have the advantages of both wood and plastic .

  4. 将其加入到热塑性聚合物(TP)中,可明显改善体系的加工特性,并能原位生成高长径比、高模量和高强度的微纤,形成自增强的原位复合材料。

    In situ composites containing fibrils with high aspect ratios , high strength and high modulus as self reinforcing components were prepared via incorporation of TLCP into thermoplastic polymers ( TP ), which led to significantly improve the processability due to the reduction in viscosity .

  5. 研究发现,在火灾情况下,有些热塑性聚合物如PP,LDPE,EVA-18和PA6等与PMMA相比熔化得较快,并且熔化物很快汽化,很少有熔化物遗留。

    It was found that in a fire situation some thermoplastic polymers such as PP , LDPE , EVA-18 and PA6 melted significantly compared to PMMA for which the resulting melt vaporized rapidly and as a consequence there was little melt observed .

  6. 另外,高比表面积炭黑CB-K600填充聚丙烯复合体系的PTC效应弱,电发热温度可以高于聚丙烯基体熔融温度,因此可用于热塑性聚合物及其复合材料的电阻焊接领域。

    In addition , the PTC effect of CB-K600 / PP composite was weak , and the electrical heating temperature could be higher than the melting temperature of PP matrix , so it could be applied in resistance welding field to join thermoplastic polymers and its composites .

  7. 硼酸铝晶须及其在增强热塑性聚合物中的应用

    Aluminium Borate Whisker Crystal and Its Application in Reinforced Thermoplastic Polymer

  8. 注塑成型的绝大多数都用于热塑性聚合物。

    The vast majority of injection molding is applied to thermoplastic polymers .

  9. 纤维热塑性聚合物热压复合工艺的研究

    Study on the Hot-Press Process of Wood Fiber-Polymer Composites

  10. 热塑性聚合物红外定性分析快速制样方法的研究

    Study on a Quick Preparation Method of Thermoplastic Polymer Samples for Infrared Analysis

  11. 热塑性聚合物原位成纤研究进展

    Advance in Study of In-situ Fibrillating of Thermoplastic Polymer

  12. 热塑性聚合物的反应挤出与双螺杆挤出机

    Reaction Extrusion of Thermoplastic Polymer and Twin-screw Extruder

  13. 多壁碳纳米管表面修饰及其热塑性聚合物基复合材料的研究

    Research on Modification of Multiwalled Carbon Nanotube Surfaces and Composites Based on Thermoplastic Polymer

  14. 介绍了17种热塑性聚合物基体在离子敏感膜制备中的应用。

    17 Kinds of thermoplastic Polymer matrices used for preparing the ion sensi-tive membranes are introduced .

  15. 综述了近年来热固、热塑性聚合物反应加工过程中的化学流变学模拟进展。

    In this paper , the advances in chemorheological modeling of reactive processing for thermoplastics and thermosets were reviewed .

  16. 他们研制的新型机器人的“骨骼”是由热塑性聚合物和促动器构成的,响应每一块肌肉和类似筋腱的线路的运动。

    There 's a skeleton made of thermoplastic polymer , actuators that correspond to each muscle and kiteline as tendons .

  17. 介绍了热塑性聚合物/热致液晶聚合物原位复合材料(TP/TLCP)的加工。

    The processing of the in situ composites of thermotropic liquid crystalline polymers and thermoplastics ( TP / TLCP ) was reviewed .

  18. 粘接纤维是一种纤维状的热塑性聚合物,广泛应用于非织造布、硬质棉(无胶棉)、粘合衬等领域。

    Hot-melting adhesive fibers , a fiber-like thermoplastic polymer , has been widely used for non-woven fabric non-collodion , solid-quality cotton and interlining .

  19. 针对热塑性聚合物在锥形量热仪中燃烧测试时的熔融行为,提出了有限厚度的聚合物固体一维不稳态燃烧微分模型。

    Based on the study of melting behavior of thermoplastic polymers tested in the cone calorimeter , a differential numerical model for one-dimensional unsteady burning of polymers was put forward .

  20. 纤维与可结晶热塑性聚合物组成的复合材料的性能很大程度上取决于聚合物基体的结晶形态,由于纤维的表面具有较高的活性,能对聚合物的结晶产生较大的影响。

    The performance of the composite which was composed of fiber and thermoplastic depends on the crystal morphology , as the fiber has a high surface activity , the crystallization of the polymer can have a greater impact .

  21. 热塑性聚合物微流控芯片制作成本低,表面可采用多种物理或化学的方法进行改性,具有较好的生物适应性,易在片集成多种用途的功能组件等特性,已为人们所关注。

    Thermoplastic microfluidic chips have recently attracted considerable attention because of their favorable mechanical and chemical properties , low cost , ease of fabrication , versatility for physical and chemical surface modification , biocompatibility , and easy integration with other components .

  22. 结果表明:改性剂的加入能使木材纤维与各种热塑性高分子聚合物很好地胶接;改性剂不同对木塑复合材料的性能产生不同的影响;

    The results showed that modifiers can make the bond strength between wood fiber and polymer better and different modifiers produce different effects on wood-polymer composites properties .

  23. SBS/P(St-MMA)热塑性互穿聚合物网络结构与力学性能

    Structure and mechanical properties of SBS / poly ( styrene-methyl methacrylate ) thermoplastic interpenetrating polymer networks

  24. 热塑性/热固性聚合物共混体系研究&乙炔端基砜/聚砜共混物的动态固化动力学

    STUDIES ON THERMOPLASTIC / THERMOSETTING POLYMER BLEND SYSTEMS & Dynamic Cure Kinetics of Acetylene-Terminated Sulfone and Polysulfone 's Blends

  25. 离子化对SBS/聚(苯乙烯-甲基丙烯酸甲酯)热塑性互穿聚合物网络结构与力学性能影响的研究

    Study on the effects of ionization on the structure and mechanical properties of SBS / poly ( styrene-methylmethacrylate ) thermoplastic interpenetrating polymer network

  26. 介绍了世界乙丙橡胶在汽车、建筑、电线电缆、聚烯烃类热塑性弹性体、聚合物改性和油品添加剂等方面的应用技术进展。

    The advance in application technique of ethylene propylene rubber in automobile , construction , wire and cable insulation , olefinic thermoplastic elastomer , polymer modification and oil additives were reviewed with 14 references .

  27. 结果表明,具有离子微区的上述弹性体与含有结晶微区的聚丙烯或聚乙烯生成热塑性互穿网络聚合物,在抗张强度上表现出明显的协同效应。

    It was shown that the blends form thermoplastic interpenetrating polymer networks , showing obvious synergistic effect with respect to tensile strength , lowering of melting point of the blended crystalline polymer and cocontinuous phases under transmission electronic microscope .

  28. 概述了近年来橡胶弹性体、刚性粒子、热塑性树脂、液晶聚合物及核-壳结构聚合物增韧环氧树脂的研究现状,并展望了环氧树脂增韧改性研究的发展前景。

    A number of important achievements in promoting the toughness of epoxy resin with rubber elastomer , rigid particle , thermoplastic resin , liquid crystalline polymer and core-shell polymer in recent years were reviewed , and its future prospect was also pointed out in this paper .

  29. 热成型是指将热塑性聚合物片材加热,使其成型为模塑制品的过程。

    Thermoforming is a process in which a flat sheet of plastic material is heated and then formed into useful tub-shaped plastic parts .

  30. 热熔胶&在室温下坚硬的固体热塑性聚合物,但是随着温度的提升而液化。

    Hot Melt – are thermoplastic polymers that are rough and solid at room temperature , but are very liquid at elevated temps .