樹脂基體 的英文怎麼說

中文拼音 [shùzhī]
樹脂基體 英文
resin matrix
  • : Ⅰ名詞1 (木本植物的通稱) tree 2 (姓氏) a surname Ⅱ動詞1 (種植; 栽培) plant; cultivate 2 (樹...
  • : 名詞1. (動植物所含的油質) fat; grease; tallow 2. (胭脂) rouge 3. (姓氏) a surname
  • : 體構詞成分。
  • 樹脂 : resin; jaffaite; peucine
  1. Study on properties of tde - 85 aromatic diamine matrix and carbon fiber composites

    芳香胺樹脂基體及碳纖維復合材料性能
  2. The coupling agent presumably improves the bond between the glass surface and the resin matrix in a laminate.

    偶聯劑的作用是設想能改善層壓板中纖維表面與樹脂基體的粘結。
  3. This would certainly militate against good bonding between the resin matrix and the glass.

    這當然會影響樹脂基體與玻璃間的良好粘結。
  4. Film microstructure is investigated by scanning electronic microscopy ( sem ). the micrographs showed that glass fiber distributed in epoxy resin with good dispersity, and interweaved with each other homogeneously

    並利用掃描電子顯微鏡( sem )對底材料進行了觀察,發現玻璃纖維能夠在環氧樹脂基體中形成均勻的分散,並交織成不規則的網狀結構。
  5. Toughening thermoset matrix composites with interlayered thermoplastic particles is an effective method to improve fracture toughness and impact resistance without sacrificing hot / wet properties. furthermore, transverse strength, fatigue resistance and solvent resistance can also be enhanced. drapability and tackness of interleaved prepreg is maintained as conventional level

    樹脂基體復合材料採取層間顆粒增韌是提高復合材料層壓板韌性、抗沖擊能力和抗分層能力的有效途徑,在保持原有復合材料濕熱性能的前提下,通過層間顆粒增韌,還可以改善垂直纖維方向的強度、抗疲勞性能以及耐溶劑性,並不影響原有的成型工藝。
  6. In this paper the reinforced materials used in wet winding technology are briefly introduced and study progress in the wet winding technology and suitable resin matrix are also reviewed

    本文簡要介紹了濕法纏繞用增強材料的狀況,綜述了濕法纏繞用樹脂基體和濕法纏繞工藝的研究進展。
  7. The paper introduces the characteristic of carbon fiber, and the influence of the carbon fiber surface quality on carbon cohesive to the resin and the applicability of the carbon fiber composite

    摘要介紹了碳纖維的特點以及碳纖維表面質量對纖維與樹脂基體的粘結性和碳纖維增強復合材料的使用性能的影響。
  8. Results of dsc and tga showed that thermal properties of psmn were better than ps. psmn was melt - mixed with resin mixture in which polypropylene was the main component and polypropylene - montmorillonite nanocomposites were prepared

    將制備出的psmn母料與以聚丙烯( pp )為主樹脂基體進行熔融共混,制備出聚丙烯蒙脫土納米復合材料( ppmn ) 。
  9. The blend of aramid and fiberglass was selected as reinforcement and butyronitile modified phenolic resin was selected as precursor to make high performance reinforced friction - resistance material in relacing of asbestos

    摘要針對摩阻材料無石棉化的發展趨勢,以丁腈橡膠改性酚醛為樹脂基體,芳綸漿粕玻纖混雜為增強,研製出一種混雜纖維增強摩阻材料。
  10. A high strength resin basement material from synthesizing process of resin was obtained, then the appropriate additive was added into resin to promote performance of the resin, finally, a kind of high performance phenolic resin was gained

    從酚醛的合成工藝入手,獲得高強度的樹脂基體,然後通過加入適當添加劑對進行改性,最終獲得了高性能的酚醛
  11. The factors which effect the fsmf filler to build up strength and toughness in the resin matrix composite materials include the size and the shape of fsmf grain the glue performance on the interface of resin matrix and the grain of fsmf

    同時得出fsmf顆粒與樹脂基體界面上的粘結性能、 fsmf顆粒的大小和fsmf顆粒的形狀等是影響fsmf填充復合材料增強增韌的重要因素。
  12. In order to obtain well effect on the improve the strength and toughness, the interface on the grain and the resin matrix should have a good glue performance ; the diameter of the grain should be small and the shape component of grain patch and fiber should be suitability

    要獲得好的增強增韌效果,填料顆粒與樹脂基體界面上應有好的粘結性能;顆粒粒徑應小且填料粉中粒狀、片狀和纖維狀的組分應適當。
  13. The result of ir and the tga experiment indicate that nano - sio2 can improve the heat - resistance properties evidently ( the nano - composite nearly not decompose below 400 ). through the analysis of sem, we can conclude that nano - sio2 can increase the toughness of the composite

    紅外( ir )和熱重分析( tga )研究表明,納米sio2粒子能顯著的提高樹脂基體的耐熱性能和疏水性能,改性的復合材料能在400以前無明顯的熱分解。
  14. In the resin matrix composite materials filled with fsmf, the load is undertaken by the grain of fsmf and the resin matrix. the grain of fsmf restricts the deformation of the resin matrix, so the strength is improved. furthermore, the grain of fsmf can consume the energy of strain and controls the crack expand, so build up toughness

    在fsmf填充復合材料中,載荷是由fsmf顆粒和樹脂基體共同承擔的, fsmf顆粒以機械約束方式限制樹脂基體變形,從而產生強化; fsmf顆粒可以引發銀紋和剪切帶等損傷消耗應變能,並通過鈍化和釘扎機制阻礙裂紋的擴展,從而產生增韌。
  15. The poor adhesion of non - polarity ultra - high molecular weight polyethylene ( uhmwpe ) fiber with commonly polar resin matrix limits its applications in structure composites. in order to improve adhesion of uhmwpe fiber with matrixs, three methods are explored in this work, which are uhmwpe fiber surface treatment, synthesizing ve resin and introducing carbon fiber to co - hybrid with uhmwpe fiber

    論文針對超高分子量聚乙烯( uhmwpe )纖維粘接性差,沒有合適的既能與之獲的良好粘接界面又可以獲得良好結構強度的樹脂基體的問題,展開了纖維表面的鉻酸氧化處理、合成ve以及採用碳纖維進行混雜三種途徑的研究。
  16. Evaluation of glass fiber / epoxy prepreg, aramiel fiber / epoxy prepreg and glass fiber / phenolic prepreg quality during storage was made using physicochemical analysis methods. the relation between reactive groups content in resin matrix and exposure temperature and time was studied. the changes of the mechanical properties of the composites made by the prepregs at different stages of the storage were shown

    研究了玻璃纖維環氧預浸料、芳綸纖維環氧預浸料以及玻璃纖維酚醛預浸料在儲存條件下,樹脂基體活性團含量與儲存溫度、儲存時間的關系及對復合材料力學性能的影響,取得了預浸料系的質量控制參數。
  17. The results showed that the modification made interlaminar space of the montmorillonite greater, the addition of organic montmorillonite clay improved the mechanics properties of epoxy matrix, and when its content was 1 %, the mechanics properties of epoxy resin, such as flexural strength and impact strength, would obtain the biggest enhancement

    結果表明,改性使蒙脫土層間距增大,有機蒙脫土的加入改善了環氧樹脂基體的力學性能,當有機蒙脫土質量含量為1 %時,其彎曲強度、沖擊強度等力學性能得到了最大的提高。
  18. Second, after lots of experiments for the process of glass fiber surface modified, we primely avoided the glass fiber reunite with each other, and successfully prepared the glass fiber reinforced composites film

    其次,通過大量實驗對玻璃纖維表面處理工藝進行了深入研究,避免了玻璃纖維在環氧樹脂基體中形成團聚的現象,從而成功地制備了應變片底材料,即玻璃纖維增強環氧復合材料薄膜。
  19. The physicochemical characterization was made in depth using various techniques for some resin matrices of advanced composites, such as epoxy resin matrix, phenolic resin matrix and bismaleimide resin. these techniques include infrared spectroscopy ( ir ), nuclear magnetic resonance spectroscopy ( nmr ), mass spectroscopy ( ms ), liquid chromatography ( lc ), thermal analysis ( ta ) and other techniques. the composition, structure, molecular weight, reactivity, reaction temperature and other properties related to performance of resin matrix were studied

    本論文採用紅外光譜、核磁共振波譜、質譜、液相色譜、熱分析等分析技術對實際使用的環氧、酚醛以及改性雙馬來酰亞胺等先進復合材料樹脂基體進行了物理化學表徵,尤其是對與樹脂基體性能密切相關的化學組成與結構、分子量、活性與反應溫度、固化度等進行了表徵;提出了樹脂基體的固化反應機理,獲得了樹脂基體的固化反應動力學參數;對改性雙馬來酰亞胺的熱分解機理進行了分析,並得到了其熱分解動力學數據。
  20. In this thesis, pvc / organoclay nanocomposites were synthesized by in - situ intercalation and melt - blending intercaltion. the structure and properties of the composites were investigated. furthermore, some factors, such as special synthesis method, the different clay surface modifiers and the molecular weight of the polymer matrix which can be affect the intercalation results, were discussed

    本文分別通過原位插層法和熔融插層法制備了聚氯乙烯粘土納米復合材料,通過插層結構和復合材料性能的對比,得出一系列有意義的結論;並研究了粘土表面修飾劑、插層方法以及樹脂基體分子量對插層結構的影響。
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