intermetallic compound 中文意思是什麼

intermetallic compound 解釋
金屬互化物
  • intermetallic : adj. 金屬間的,金屬間化合的。
  • compound : vt 1 使混合,調合,配合;【語言學】復合,合成。2 (通過互相讓步等)解決(糾紛);用錢了結(債務等...
  1. Abstract : the current status of research work on intermetallic compound dispersoid in rapidly solidified elevated temperature aluminum alloys is reviewed. the dispersoid existing in common elevated temperature aluminum allo ys, effect of rapid solidification processing on the formation of dispersoid and their thermal stability are discribed

    文摘:綜述了快速凝固耐熱鋁合金中金屬間化合物彌散相的研究現狀,介紹了常見耐熱鋁合金中存在的彌散相、快速凝固工藝對彌散相形成的影響和彌散相的熱穩定性及其影響因素。
  2. Preparation process of intermetallic compound sbsn and its desulfurization performance

    的合成及脫硫性能研究
  3. Study on microstructure and formation of intermetallic compound in rs al - ti - re alloy

    合金化合物相結構及形成的研究
  4. Preparation of ordered intermetallic compound of fe3si with mechanical activation and sintering

    有序金屬間化合物的制備
  5. Molecular field theory analysis of magnetic properties and magnetic phase transitions of intermetallic compound

    2化合物的磁性和磁相變的分子場理論研究
  6. Subsidized by the national natural science foundation of china, " tenth five - year " plan of hubei province and so on, this dissertation systematically discussed the author ' s researches on synthesis and deformation of ni / al and ti / al system intermetallic compound

    本文在國家自然科學基金、湖北省「十五」重點攻關計劃等基金支持下,系統地論述了作者在ni al系和ti al系金屬間化合物合成與成形的電脈沖效應方面研究成果。
  7. The effects of the fabrication and heat - treatment methods on the microstructures and properties of the nb - si system intermetallics have been studied and the optimized nb - si intermetallic system as well as the optimized fabrication and processing procedures have been selected. the presence of alloying elements as well as the morphology and microstructure of the compound phases with these elements has been investigated. the effects of the alloying elements on the high - temperature oxidation behavior of the nb - si system intermetallics have also been studied

    本文研究了不同的制備工藝和熱處理制度對nb - si系金屬間化合物顯微組織和性能的影響,優選了合適的材料體系、制備工藝和熱處理制度,分析了微合金化元素及其形成相的組織、結構、形態、存在形式等及其對材料高溫抗氧化行為的影響,提出了材料高溫抗氧化行為和室溫斷裂行為的微觀機制,為研製nb - si系金屬間化合物基高溫結構材料奠定了一定的基礎。
  8. Between metal, alloy nanopowder as well as nanocrystalline intermetallic compound has extremely extensive application prospect in a lot of high - tech fields. the demand of nanosize particle will increase increasingly with technology to develop

    金屬、合金納米粉體材料以及金屬與金屬間化合物納米復合材料在許多高科技領域有著極其廣泛的應用前景,隨著工藝水平的發展,對微粒尺寸在納米級的超細粉末的需求將日益增加。
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