增强体

zēnɡ qiánɡ tǐ
  • Reinforcement;enhanceosome
增强体增强体
  1. 医用CT在编织复合材料织物增强体内部质量评价上的应用

    Application of medical CT in internal quality evaluation of braided fabric reinforcement for composites

  2. 增强体颗粒尺寸对SiCp/2124Al复合材料变形行为的影响

    Effects of Particle Reinforcement Size on Deformation Behavior of SiC_p / 2124Al Composites

  3. 增强体含量对Sip/LD11复合材料热物理性能影响

    The influence of the volume fraction of reinforcements on thermo-physical properties of Si_p / LD11 composites

  4. 以自蔓延高温合成SiC颗粒为增强体的光学/仪表级铝基复合材料

    Optical and Instrument Grade Aluminum Matrix Composites Reinforced with Self-Propagating High-Temperature Synthesized SiC Particle

  5. 高增强体含量SiCp/Cu复合材料制备和性能的研究

    Study on preparation and properties of SiC_p / Cu composites containing high content of reinforcement

  6. 铝基体中引入高体积分数的SiC增强体后强度显著提高。

    The strength of Aluminum alloy was improved remarkably as high volume SiC particles added in .

  7. ZnO晶须用作泡沫硅橡胶增强体应用研究

    The Applied Research of the Application of Zinc Oxide Whisker to the Reinforcement of Cellular Silicone Materials

  8. 增强体TiB和TiC在Ti中的原位生成

    In Situ Formation of TiB and TiC Reinforcements in Ti

  9. 根据溶液热力学理论对FeCTiMn体系中TiC增强体的原位合成进行了热力学分析。

    A thermodynamic analysis on in-situ TiC synthesis in Fe-C-Ti-Mn system was made on the basis of solution thermodynamics theory .

  10. Si、Mg对原位铝基复合材料中增强体Al3Ti形貌的影响

    Influence of Si and Mg on shape of al_3ti reinforcing phase in in-situ Al-based composite

  11. 本文综述了MgLi基复合材料常用的基体合金和增强体、制备方法以及复合材料的组织与性能。

    This paper reviewed the composite matrix and reinforcements and the fabricating technique and the microstructure and the properties of Mg-Li matrix composite .

  12. 多孔网状Si3N4陶瓷增强体的制备

    Fabrication of porous reticulated si_3n_4 ceramics reinforcement

  13. 碳纳米管(Carbonnanotubes,简称CNTs)由于其高模量、高强度等特性,一直被认为是理想的增强体材料。

    Carbon nanotubes ( CNTs ) are considered as an ideal reinforcement owing to their very high elastic modulus and strength .

  14. 摘要碳化硅(SiC)纤维是研制金属基、陶瓷基以及聚合物基等先进复合材料的重要增强体。

    Silicon carbide ( SiC ) fiber is the important reinforcement material for fabrication of advanced composites especially ceramics matrix composites .

  15. 它以高强度钢丝倾角错绕成型的网状骨架为增强体,以热塑性塑料(PE)为基体,并用高性能粘结树脂将钢丝网骨架与内外层塑料(PE)紧密地连接在一起。

    The mesh skeleton is formed by crossly winding high strength steel wire and tightly integrated with PE by high performance cohesive resin .

  16. 挤压变形可使材料的基体连续,增强体SiC颗粒分布均匀,梯度层间界面消失;

    ( b ) Extrusion could enhance the continuity of matrix , uniformity of SiC particle distribution and elimination of gradient boundary layers .

  17. 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 .

  18. 原位合成增强体TiB层错的透射电镜分析

    TEM Research on Stacking Faults of In situ Synthesized Reinforcement TiB

  19. 增强体含量的增加降低了α(Al)相的形核温度,对Al-Si共晶影响不明显。

    Increasing reinforcement content could decrease the nucleation temperature of α( Al ) phase , yet had no obvious effect on Al-Si eutectic reaction .

  20. 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 .

  21. 碳纳米管(CNTs)凭借其超强的力学性能成为复合材料的理想增强体。

    Carbon nanotubes ( CNTs ) have been considered to be a perfect reinforcement for composites due to its superior mechanical properties .

  22. 在成型温度180℃下,以碳布为增强体、ABS为基体,采用模压成型,生产出CB/ABS复合材料层压板。

    In the molding temperature of180 ℃, CB as reinforcement , ABS as matrix , using hot molding press to produce CB / ABS composite material laminates .

  23. 聚丙烯腈(PAN)基碳纤维已经商业化几十年了,在所有商用的先进纤维增强体中,它拥有最高的比强度和比模量。

    Polyacrylonitrile based carbon fibers have been commercialized for several decades . They possess the highest specific strength and specific modulus among all commercially available advanced reinforcing fibers .

  24. 增强体在基体中分布均匀,TiC颗粒呈四边性或近似等轴状,VC颗粒为短纤维状。

    The reinforcements were distributed uniformly in matrix alloy . The shape of TiC is quadrangle or near-equated shape , and VC has the shape of whisker .

  25. 增强体TiB、TiC、Y2O3和钛基体界面干净,没有界面反应物存在。

    The interfaces between reinforcements of TiB , TiC and Y_2O_3 and Ti matrix are clear without any interfacial reactions .

  26. 选用SiC颗粒和鳞片状石墨作为增强体,采用挤压铸造法制备SiCp+Gr/2024Al复合材料,在保证材料力学性能的前提下改善材料的加工性能。

    SiCp / Gr / 2024Al composite reinforced by SiC and graphite particle was fabricated by squeeze casting technology , in order to overcome the difficulties in machining processing and keep desired mechanical properties .

  27. 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 .

  28. 碳纤维(CF)作为功能复合材料中重要的增强体,在国防科技等领域具有重要的作用。

    Carbon fiber ( CF ) has played an important role in the field of national defense , science and technology using as an important reinforcement in the functional composites .

  29. 自碳纳米管(carbonnanotubesCNTs)发现以来,由于其极高的强度、韧性、以及极大的长径比和优良的导电性能,使其有望成为复合材料理想的增强体。

    Since the discovery of the carbon nanotubes ( CNTs ), The super high strength , ductility , large aspect ratio and excellent electrical conductivity of carbon nanotubes make it an ideal reinforcement additive for composites .

  30. 为了提高铸件表面的耐磨性,实验以低铬铸铁为基体,WC颗粒为增强体,制备出颗粒增强表面耐磨复合材料。

    In order to improve the abrasion-resistant on the casting surface , the low-Cr cast iron matrix composite reinforced by WC particles in sand mold was made in the experiment .