橡胶粒子

  • 网络rubber particle
橡胶粒子橡胶粒子
  1. 借助透射电子显微镜发现:橡胶粒子在SAN基体中分散均匀,达到共混分散的目的。

    Scanning electron microscope results experienced that PBA rubber particle uniformly disperse in SAN matrix .

  2. 橡胶粒子的粒径及粒径分布对ABS性能和结构的影响

    Effects of Rubber Particle Size and Its distribution on Property and Structure of ABS Materials

  3. 红外光谱结合X射线荧光光谱分析鉴定合成橡胶粒子

    Identification of a Kind of Synthesized Rubber by IR Spectrometry and X-Ray Fluorescence Spectrometry

  4. 小粒橡胶粒子对SAN树脂的增韧作用

    Toughening of Small Rubber Particles for SAN Resins

  5. 利用超声波萃取技术,对合成橡胶粒子中的高聚物和其他成分进行分离,然后利用红外光谱和X射线荧光光谱对分离后的组分进行分析鉴定,获得了较好的结果。

    A kind of synthesized rubber was separated by ultrasonic extraction and identified by FT-IR spectrometry and X-ray fluorescence spectrometry .

  6. 提出AIM增韧PVC的机理是橡胶粒子的空洞化与塑料基体剪切屈服协同作用。

    The toughening mechanism of PVC is synergistic toughening by cavitations of the rubber particles and shear yielding of the matrix .

  7. SBR与亚微米核壳橡胶粒子协同改性沥青

    SBR and sub-micron core-shell rubber particles modified asphalt

  8. 橡胶粒子对HIPS性能的影响

    The Effect of Rubber Particle on the Properties of HIPS

  9. 从SBR橡胶粒子出发,采用乳液原位悬浮聚合方法合成了一系列透明ABS树脂。

    A series of transparent ABS ( T-ABS ) resins have been prepared by emulsion in situ suspension polymerization process .

  10. 有机硅&丙烯酸酯橡胶粒子改性CPVC的研究

    Study on the Modification of CPVC by Silicone-Acrylate Rubber Particles

  11. HIPS性能与橡胶粒子结构的关联及落锤冲击断裂的增韧机理

    Influence of the Microstructure of the Rubber Particles on the Properties and Alterable Falling Dart Impact Fracture Mechanism of HIPS

  12. 对共混物损伤机制的研究表明,MBS增韧PC共混物的增韧机理为橡胶粒子的空洞化引发基体的剪切屈服。

    Studies of the fracture showed that the mechanism of MBS toughening PC was that the cavitation of rubber particles induced the shear yielding of matrix .

  13. 采用小粒径SBR橡胶粒子虽然可以获得透明性良好的透明ABS树脂,但树脂的抗冲性能较差。

    It was found that the transparence of T-ABS was satisfactory but the impact strength was lower when smaller SBR particles was used as rubber phase .

  14. 结果发现,PB和SBR橡胶粒子均匀地分散在SAN基体中,其粒径分别为028μm和005μm左右。

    It was found that PB and SBR rubber particles were dispersed homogeneously in SAN matrix , and their particle sizes were about 0.28 μ m and 0.05 μ m respectively .

  15. 应用ANSYS软件对橡胶粒子改性聚丙烯(PP)合金拉伸过程中界面应力分布进行了有限元分析。

    The two dimension ( 2D ) finite element analysis ( FEM ) of the interfacial stress distribution during tension of rubber modified polypropylene ( PP ) alloy was made by means an ANSYS software .

  16. 橡胶粒子(RP)是天然橡胶生物合成与储存橡胶烃的细胞器,橡胶生物合成主要由橡胶粒子膜蛋白来完成。

    Rubber particle ( RP ) is an organelle for the biosynthesis and storage of natural rubber . Proteins associated with rubber particle membrane are mainly involved in rubber biosynthesis .

  17. 力学性能结果表明,在SAN树脂中随着PBgSAN含量的增加,ABS的冲击强度不断提高,而SBR小橡胶粒子不能增韧SAN树脂。

    The determination of mechanical properties showed that the impact strength of ABS resins increased gradually with increasing PB g SAN content in SAN matrix , and SAN resins could not be effectively toughened by SBR rubber particles .

  18. 自由升温实验表明:CB/TPV复合材料具有NTC现象,即使在结晶熔化区也未展示PTC行为,这与橡胶粒子的热膨胀排斥效应有关。

    CB / TPV composite exhibits the NTC behavior even though the temperature is in the melting region of composite , which is attributed to the exclusive effect brought by the thermal expansion of rubber particles .

  19. 采集到新鲜胶乳经高速离心后得到橡胶粒子,并用percoll梯度离心方法得到大、小橡胶粒子。

    Rubber particles were separated by high-speed centrifugation of the collected fresh latex samples , followed by percoll gradient centrifugation to obtain the samples of small rubber particles and large rubber particles .

  20. 系统研究了乳化剂、交联剂、引发剂等因素对PBA乳液聚合反应及胶乳性质的影响,发现可以用种子乳液聚合方法成功控制橡胶粒子的直径。

    The influences of emulsifier level , crosslinking agent level , initiator level had been studied systematically . It was found that the rubber particle size can be controlled by using the seed emulsion polymerization technique .

  21. 从银染2-DE胶上可以看出,REF在橡胶粒子膜蛋白中占有很大的比例,这表明REF在橡胶生物合成中可能具有非常重要的作用。

    From the silver stained gel , it could be seen that the REF contributed substantially to the membrane proteins of rubber particles , indicating that REF might have a very important function in the rubber biosynthesis .

  22. PLM和FESEM研究结果表明,HIPP中存在大量均匀分散的橡胶粒子,其直径约1~2μm,并具有核-壳结构。

    The PLM and FESEM images of HIPP reveal that there are uniformly dispersed rubbery particles ( ca. 1 ~ 2 μ m in diameter ) with a core-shell structure in the matrix of HIPP .

  23. 橡胶粒子-PVA纤维复合改性水泥砂浆抗裂性能的研究

    Cracking Resistance Properties of Cement Mortar Incorporating Rubber Particles and PVA fiber

  24. 一种体外检测橡胶粒子凝集技术的建立

    Establishment of an Improved Technique for Assay of Rubber Particle Aggregation in vitro

  25. 将复合乳液破乳、抽滤并干燥,得到了核/壳结构的硅橡胶粒子。

    After demulsifying , filtering and drying , we got the core-shell particles .

  26. 形变取向的橡胶粒子和有机蒙脱土增韧增强尼龙6的机理

    Study of Oriented Rubber Particles and Organoclay on Toughening and Reinforcing Mechanism of Nylon 6

  27. 本文是研究关于通过附聚方法制备大粒径橡胶粒子的技术。

    This paper is about the technology of preparing large rubber particle by agglomeration method .

  28. 亚微米核壳橡胶粒子改性聚苯乙烯&接枝度对形态结构及力学性能的影响

    Sub-micron core-shell rubber particles modified polystyrene & Effects of grafting degree on morphology and mechanical property

  29. 橡胶粒子是橡胶树乳管细胞中进行橡胶生物合成的一种特殊细胞器。

    Rubber particles are important organelles in latex for rubber biosynthesis in rubber tree ( Hevea brasilensis ) .

  30. 橡胶粒子膜蛋白双向电泳体系的建立和质谱初步分析

    Establishment of 2-DE System and Primary Analyses on the Membrane Proteins of Rubber Particles in Hevea brasiliensis by MALDI-TOF