structural ceramics 中文意思是什麼

structural ceramics 解釋
結構陶瓷
  • structural : adj. 構造上的,結構上的,組織上的。adv. -ly
  • ceramics : n. 1. 陶瓷學;陶瓷工藝,制陶術,窖業。2. 〈總稱〉陶器。
  1. Preparation and structural characterization of ce - doped barium titanate ceramics

    3陶瓷顯微結構的影響
  2. Therefore, the purpose of this thesis is to look for a suitable preparing process for 3 - tcp with their micro - construction controlled more easily and the porosity rate and strength uniform. this paper created a new preparing method of porous ceramics, i. e. foam gel - casting technique, which integrated foam technique in porous ceramics preparing and gel - casting technique in structural ceramics preparing was applied to improve the preparing technique of porous p - tcp bioceramics in order to prepare ceramics bodies with high body intensity, controllable porosity and easily machining performance

    因此,本論文努力尋求一種適合於- tcp多孔陶瓷的制備工藝,使其微觀結構易於調節控制,空隙率和強度達到平衡同一。在實驗中,結合了制備多孔陶瓷常用的發泡法和結構陶瓷制備中的注凝法,創新設計了一種新的多孔陶瓷成型方法? ?泡沫注凝法,對多孔- tcp生物陶瓷的成型工藝加以改進,制備出高強度、氣孔率可控以及易加工的陶瓷坯體。
  3. The company is mainly engaged in structural ceramics, functional ceramics, domestic ceramics, sanitary ceramics, special refractories. inorganic non - metallic materials such as ceramic and glass decorative materials r & d and production

    公司主要從事結構陶瓷、功能陶瓷、日用陶瓷、建築衛生陶瓷、特種耐火材料、陶瓷及玻璃裝飾材料、貴金屬制劑、陶瓷原輔料等無機非金屬材料的研發和生產經營。
  4. Silicon resins used as joining material for structural ceramics

    用作結構陶瓷連接劑的有機硅樹脂
  5. When the stress at the tip of crack is inflicted on the m - type ferrite particle dispersed in matrix as a second particle, not only the toughness of composites will be pro ved because of the non - elastic area produced by the particle but also the strength change of magnetic field and the stress distribution in the structural ceramics will be detected by the strength of spontaneous magnetization varying while magnetic materials being pressed or drawn

    這是因為當結構陶瓷中裂紋尖端的應力作用在彌散於基體內的鐵磁體二相粒子上時,鐵磁粒子不僅在裂紋尖端周圍產生的非彈性區域使復合材料的韌性提高;而且還能利用鐵磁材料在外應力作用下自發磁化強度發生變化的性質,通過測量復合材料在應力作用下磁場強度的變化,探測出結構陶瓷中的應力分佈情況。
  6. Case studies and examples drawn from structural and functional applications that include a variety of material classes : metals, ceramics, polymers, thin films, composites, and cellular materials

    個案研究及範例則取自於各種結構及功能上之應用,涵蓋數個不同材料類別:金屬、陶瓷、高分子、薄膜、復合材料及蜂巢狀材料等。
  7. Tightsen structural adhesives have excellent tensile, shear and peel strength combined with maximum impact, stress and vibration resistance. mainly for bonding metals, glass, ceramics, ferrites and so on

    泰盛結構膠具有較強的拉伸、剪切與剝離強度,耐沖擊、耐壓、抗振動。主要用於粘接金屬、玻璃、陶瓷、鐵氧體等材料。
  8. The early studies are mostly focused on the method of gluing piezoceramics on structural surfaces, which has some disadvantages such as difficulties to protect the ceramics and the connection wires, bad coupling with only one surface glued on the base materials, low signal - to - noise ratio etc. these problems can be solved using the embedded piezoceramics, and furthermore, the piezoceramics can be placed in the optimal positions, especially in the optimal deepness for the piezo - actuators, according to an optimization algorithm befor e they are embedded, so the actuator effects and sensor signals are thereby enhanced

    早期的研究主要集中在表面粘貼壓電片的結構,表面粘貼壓電片具有一些無法克服的缺點。本文著重進行利用埋入復合材料結構的壓電傳感器和壓電驅動器對其振動進行主動控制的相關理論和實驗研究,並介紹其相應結果。埋入型壓電材料的優點主要是能保護壓電傳感器和作動器及其連線、增強壓電材料和基體材料的耦合、優化埋入壓電陶瓷的深度和厚度可增強壓電傳感器的測量信號並提高信噪比等。
  9. This dissertation deals with the active vibration control strategy using the embedded piezoceramics as both actuators and sensors. with several ceramics embedded into the composite material structures during the manufacturing process without knowing the structural behavior in advance, this dissertation makes use of a self identification procedure to get the models of the system. apparently, the on - line self identification method enable people to update the models of system

    另外本文利用埋入復合材料結構中的壓電傳感器和驅動器對其進行模型識別而得出結構的動力學模型,再將該模型用於控制器的設計,這樣做的好處是如果結構本身或者約束、環境等發生變化后,可以很方便地對結構的模型重新進行在線識別,及時更新控制參數,避免控制失效,而且不需要事先知道結構的其它屬性。
  10. Abstract : the present paper experiments with and models the machinability of structural ceramics by edm, providing a new method of analysing the machinability of stuctural ceramics by edm. on certain conditions

    文摘:對常用結構陶瓷材料的電火花可加工性進行了實驗研究和模型化分析,為預測特定條件下結構陶瓷材料的電火花可加工性提供了新的分析方法。
  11. Ductile structural ceramics. part 14 in : “ physical mesomechanics of heterogeneous media and computer - aided desing of materials ”. cambridge interscience publishing, 1998

    陶瓷的可塑結構」 ,第14部分在: 」材料的多相介質物理技術及電腦輔助設計」 ,劍橋世界科學刊物。 1998年。
  12. Included in ceramics are porcelain such as pottery ; abrasives such as emery used on sand - paper, refractories such as tantalum carbide, with a melting temperature of about 3870 centigrade, and structural clay such as brick

    陶瓷內部包括瓷器,砂紙一樣的研磨劑,熔點達到3870攝氏度的難融鉭化物和象磚塊一樣的結構黏土。
  13. The structural ceramics edm - processing is prospected and analysed with the mechanisms

    利用蝕除機理對加工過程進行了預測和分析。
  14. Abstract : this paper deals with the regularities of the thickness of thermal damage surface and effect of all of the mechanisms in edm of structural ceramics

    文摘:研究了結構陶瓷電火花加工熱影響層厚隨脈沖參數變化的規律以及蝕除機理的各種分離方式作用效應的變化規律。
  15. Abstract : on the basis of investigating the properties of hole edm drilling of structural ceramics, the mechanisms of edm - machining in structural ceramics processing were studied

    文摘:在深入研究常用結構陶瓷材料電火花小孔加工工藝規律的基礎上,分析總結了結構陶瓷材料的電火花加工蝕除機理。
  16. The laminated ternary carbide ti3sic2, which is a new kind of structural ceramics material, becomes the focus of material researchers attributing to its perfect combination of both merits of metals and ceramics

    Ti _ 3sic _ 2是一種新型的結構陶瓷材料,由於其兼具了金屬和陶瓷材料的諸多優異性能而成為材料研究人員的研究的焦點。
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