釩鈦磁鐵礦 的英文怎麼說

中文拼音 [fántàitiěkuàng]
釩鈦磁鐵礦 英文
vanadium titano-magnetite
  • : 名詞[化學] vanadium (23號元素,符號v)
  • : 名詞[化學] (金屬元素) titanium (ti)
  • : 名詞1. [物理學] (磁性; 能吸引鐵、鎳等的性質) magnetism 2. (瓷) porcelain; china
  • : Ⅰ名詞1 (金屬元素) iron (fe) 2 (指刀槍等) arms; weapon 3 (姓氏) a surname Ⅱ形容詞1 (形容...
  • : 名詞1. (礦床) ore [mineral] deposit 2. (礦石) ore 3. (開采礦物的場所) mine
  • 鐵礦 : iron ore; plumboniobite; iron mine
  1. At last, based on above, the mine - exploiting model, which might made the recycling of titanium among vanadic titano - magnetite best, was figured out by using of optimum principle

    最後,在此基礎上,利用最優化原理,建立了使釩鈦磁鐵礦回收率達到最佳的山開采模型。
  2. In the aspect of application research, through analyzing the existing state and selection - smelting feature of iron, titanium and vanadium which were mainly applied elements in panzhihua vanadic titano - magnetite deposit, the mine - exploding mode of zhujiabaobao section could be figured out by combining the rhythmic change feature of ore chemical composition, mineral composition and content and mineral chemical composition

    在應用研究方面,通過分析攀枝花釩鈦磁鐵礦主要利用元素的賦存狀態及選冶特性,結合石化學成分、物成分及含量、物化學成分呈韻律式變化這一特徵,建立了朱家包包段的開采模型。
  3. Taking it for example that zhujiabaobao section of panzhihua vanadic titano - magnetite deposit, the paper detailedly analysed its change regularity in ore texture and structure, mineral composition and content, ore chemical composition, mineral chemical composition, rare element " s change feature of rock and ore, exploding temperature of mineral inclusion. on the basis of above, the feature of rhythmic texture of ore body in panzhihua vanadic titano - magnetite deposit was researched

    本文以攀枝花釩鈦磁鐵礦朱家包包段為例,詳細分析了該段中石組構、物成分及含量、石化學成分、物化學成分、巖石及石稀土元素變化特徵、物包裹體爆裂溫度等的變化規律,進而研究了攀枝花釩鈦磁鐵礦體中的韻律結構特徵。
  4. Through researching the rhythmic change regularity of ore texture and structure, mineral composition and content, rare element " s change feature and the exploding temperature of mineral inclusion, combining the theory of magmatic ore - forming, the forming process of panzhihua vanadic titano - magnetite deposit could be divided into four periods : rock - forming period, main ore - forming period, hydrothermal period and surficial processing period

    通過對石組構、物成分及含量、稀土元素變化特徵、物包裹體爆裂溫度的韻律式變化規律的研究,結合巖漿成理論,將攀枝花釩鈦磁鐵礦床的形成過程劃分為四個期:成巖期、主成期、熱液期、表生期。
  5. Investigation on iron separation from a yunnan huili vanadium - titanium magnetite ore

    雲南會理某釩鈦磁鐵礦試驗研究
  6. Influence of cooling mode on sintering process and strength of vanadium - titanium sinter

    冷卻方式對釩鈦磁鐵礦燒結過程和燒結強度的影響
  7. This text describes the project basic principle and system structure and capabilities of production equipment for mechanism and electric, according as require of blast furnace automation, analyzes the chemical reactions in blast furnace by principle, according as mass and energy balance principle build on process models and technology calculate, according as process optimization principle build on process system optimization models, and technology calculate, as one time, expert system command any model. the expert system contains a knowledge base, which already represents the concentrated know - how of blast furnace operation, gathered from many installations world - wide

    本文在介紹了項目的基本原理和系統構成以及相關的生產工藝的基礎上,根據高爐過程優化的要求,從機理上分析了高爐冶煉過程的化學反應,並依據質量能量平衡原理建立了工藝模型和技術計算,按照優化原理建立了過程系統優化模型,並在專家系統的調度下協調工作。系統還包括知識庫,它總結了普通高爐操作的理論知識和控制理念,同時,結合釩鈦磁鐵礦的冶煉知識,形成具有攀鋼冶煉特點的知識庫。
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