纤维增强体

  • 网络fiber reinforcement
纤维增强体纤维增强体
  1. RTM成型过程中,树脂对纤维增强体的充分浸润是非常重要的一环。

    The impregnation of resin for fiber reinforcement process is a very important phase in RTM .

  2. 因此有必要对影响树脂浸润纤维增强体的速率的因素进行细致、深入地研究,以满足树脂对纤维的充分浸润及RTM工艺中的流动充模要求。

    So it is necessary to study on the factors of influencing soakage , to satisfy the resin soaking sufficiently and permeating the mold .

  3. 基于均匀化方法的单向纤维增强体渗透率预报

    Permeability estimation of unidirectional reinforcements based on the homogenization theory

  4. 本课题采用靶环法研究不同粘度的树脂对纤维增强体的浸润性能。

    The soakage of different viscosity resin using drone method was studied in this thesis .

  5. 在碳纤维增强体附近,随着距碳纤维距离的增加,材料的硬度逐渐降低。

    Carbon fiber reinforced body near the hardness decreased with increasing distance away from the carbon fiber .

  6. 作为解决问题的途径之一,介绍了几种常用的颗粒增强体表面处理方法,并与纤维增强体的表面处理方法作了简单的比较。

    As one of the solutions to the problems , the surface processing methods for particulate reinforcements are introduced and compared with those for fibre reinforcements .

  7. 采用将高能球磨、还原剂液相喷雾化学包覆及粉末冶金相结合配以适量碳纳米管做为纤维增强体的工艺,制备出新型的Ag5%C(质量分数)电接触材料。

    Applying the technique of high energy ball milling in conjunction with reducer liquid spraying chemical coating and powder metallurgy , a newly developed Ag 5 % C ( by weight including partial carbon nanotubes ) electrical contact material was fabricated .

  8. 以亚麻纤维为增强体,与聚丙烯(PP)长丝进行丝束级共混,形成PP包覆亚麻的纱线结构,利用机织工艺织成二维机织布,作为复合材料的预制件。

    Polypropylene ( PP ) was commingled with flax fiber reinforcing material to realize the mixture of two materials at the stage of yarn .

  9. 介绍以双马树脂为基体、E玻璃纤维为增强体的复合材料的优异性能及其在雷达天线罩中的应用及价值。

    In this article , we introduce the excellent performance of the composites that uses the BMI resin as the matrix and the E-fiber glass as the reinforced plastic . Their application in the radar antenna radome is also listed .

  10. 用晶化的硅酸铝短纤维作增强体,用磷酸铝作黏结剂制得预制体,用AZ91D作基体金属,通过挤压浸渗工艺制备镁基复合材料。

    A magnesium alloy matrix composite was fabricated by squeeze cast with the preform made of crystallized aluminum silicate short fibers as reinforcement and aluminum phosphate as binder .

  11. 本文研究了以硅酸铝短纤维作增强体,工业纯铝L00,铸造铝合金ZL101为基体的复合材料耐磨性。

    This paper investigates the abradabilities of commercially pure aluminum L00 matrix andBirmasil ZL101 matrix composite materials with aluminum phosphate shot fiber as reinforce .

  12. 以1KPAN基高强纤维为增强体,以调制中温煤沥青为基体前驱体,采用高压浸渍-碳化工艺制备出了不同碳化压力状诚下的沥青基碳/碳复合材料。

    With 1K PAN-based HT carbon fibers as reinforcing materials and with modulated coal tar pitch as matrix precursor , bi-directional pitch-based carbon-carbon composites were obtained by HPIC ( High-Pressure Impregnation Carbonization ) technology under different carbonization pressure .

  13. 纤维增强弹性体基复合材料单纤维拔出试验细观力学分析

    Micromechanical analysis of single-fiber pull-out test of fiber-reinforced elastomer matrix composites

  14. 钨纤维增强块体非晶复合材料压缩变形的有限元分析

    Finite Element Analysis of Compressive Deformation of Tungsten Fiber Reinforced Bulk Metallic Glass Composites

  15. 本文以竹纤维为增强体、聚丙烯为基体,采用双钢带压机成型技术,制备了竹纤维增强聚丙烯热塑性复合材料。

    In this paper , the bamboo fiber reinforced polypropylene composite was prepared using double-steel belt press .

  16. 玻璃纤维增强弹性体

    Glass fibre reinforced elastomer

  17. 本文以氧化铝短纤维为增强体,用挤压铸造技术制备了氧化铝/铝合金复合材料。

    In this paper , the structures and the properties of alumina short fiber reinforced aluminum alloy composites are studied .

  18. 本文以环氧聚氨酯树脂(反应型)为基体、以玻璃纤维作增强体、玻璃鳞片树脂为抗渗层制作弹性玻璃钢复合玻璃鳞片树脂重防腐内衬。

    A new kind of anti-corrosion liner made of epoxy / PU , elastic resin and glass fiber is described in the thesis .

  19. 以普通矾土质陶瓷材料为基体,以莫来石短纤维为增强体,研究并制备了高强度复合电瓷材料。

    The high-strength electric porcelain composite is researched and prepared by using mullite short fiber as reinforced material and aluminous electric porcelain as a matrix .

  20. 研究了炭纤维编织增强体的预处理工艺和基体致密化工艺对炭纤维增强碳化硅基复合材料性能的影响。

    S The influences of the fiber substrate pretreatment process and matrix densification methods on the properties of carbon fibers reinforced silicon carbide composites have been investigated .

  21. 纤维增强发泡体中纤维特性、长径比、用量、与基体的粘合状态、泡孔的大小、形状、发泡密度等因素对发泡体系的性能均有影响,其中粘合是非常重要的。

    Now it has been used in structural materials . The characteristics of fibers , ratios of length to diameter , quantities , bond state of fibers and matrix , the magnitude and morphology of bubbles and density , etc.

  22. 以电瓷坯料为基体,以含锆硅酸铝纤维为增强体,分别在1240℃、1250℃、1260℃及1270℃下制备了纤维加入量不同的电瓷复合材料。

    The fabrication of aluminium silicate fiber containing zirconia strengthening electronic ceramic body composites was carried out . The various composites were fabricated at 1240 ℃, 1250 ℃, 1260 ℃ and 1270 ℃ as well as with the different additions of the fibers .

  23. 纤维增强聚合物发泡体的研究进展

    Research Advancement of Fiber Reinforced Foam Polymers

  24. 在不同的应用中,可以将不同纤维混合作为增强体以发挥各种纤维的优势和特点,满足不同的设计和实际需要。

    For the different applications , hybrid method of different fiber can exert different advantages of fibers .

  25. 对玻璃纤维增强聚氨酯泡沫体的微观结构形态及增强效果进行了研究。

    The micro structural shape and the reinforcing effect of the polyurethane foam plastics reinforced by glass fibres have been studied .

  26. 对采用维纶和玻璃纤维编织的增强体的拉伸等性能进行了测试与分析。

    The mechanical properties is also tested and analyzed , such as tension properties of fabrics which were knitted with vinylon and glass fiber .

  27. 因此植物纤维在作为增强体前需物理或化学的方法进行改性预处理。

    As a result , modified pretreatment should be done before plant fiber can be used as reinforcement , according to physical or chemical methods .

  28. 丙纶纤维布作为增强体与聚丙烯基体结合的复合材料属于自增强复合材料,具有密度低,完全回收,低压热成型性好,耐冲击耐刮擦等优点。

    Self-reinforced composite materials combined with polypropylene fabric and polypropylene has the advantage of low density , complete recovery , low pressure thermoforming , scraping and impact resistance .

  29. 纤维增强铝合金气缸体的生产工艺及其特性

    Production Process and its characteristic of Reinforced Fibre Aluminium Alloy to cylinder Block

  30. 研究了金属内衬纤维增强复合材料筒体的设计方法,推导出了环向及螺旋加环向纤维缠绕的金属内衬筒体计算公式。

    The design method of fiber reinforced composite cylinder case with metal inner liner is investigated and the calculation formulae for the circumferential wound and helical-circumferential wound cylinder case with metal inner liner are derived .