铁橄榄石

tiě gǎn lǎn shí
  • fayalite
铁橄榄石铁橄榄石
铁橄榄石[tiě gǎn lǎn shí]
  1. 该工艺将铁橄榄石转化为磁铁矿,大大提高了铁的回收率。

    Iron recovery was greatly improved by transforming fayalite to magnetite .

  2. 强化直接还原后,球团内部显微结构不再出现浑圆状的浮氏体,铁橄榄石的含量明显减少,还原效果明显得到提高。

    After the enhancement of direct reduction in microwave shaft furnace , the pellets will not occur " round spherical " wustite , the content of fayalite is significantly reduced , reduction efforts are significantly improved .

  3. 镁铁橄榄石系列的高压合成及其X射线衍射和红外光谱研究

    Synthesis , infrared spectra and X-ray diffraction of Mg-Fe olivine

  4. 从霞霓钠辉岩→霓霞岩→磷霞岩,橄榄石的Fo值逐渐降低,其亚种从靠近镁橄榄石端元的贵橄榄石→靠近透铁橄榄石端元的贵橄榄石→低铁镁铁橄榄石。

    From melteigite to ijolite to urtite , the Fo value of olivine is gradually decreased and its subspecies is from chrysolite near to the end point of forsterite to chrysolite near to the end point of hyalosiderite to ferrohortonolite .

  5. 铁橄榄石-莱河矿组矿物的热力学研究

    Thermodynamic studies of fayalite - laihunite group minerals

  6. 商南镁橄榄石矿床采选工艺地质因素的研究镁橄榄石-铁橄榄石系列

    A Study of the Geological Factors of Shangnan Shaanxi Forsterite Deposit for Mining and Concentrating Technology

  7. 接近于铁橄榄石端员组份的铁橄榄石集合体的发现及其初步研究

    The Discovery and Preliminary Study of Fayalite Aggregates with Composition Approaching the End Member of Fayalite

  8. 从而得到了含铁量对橄榄石的粘性(强度)影响的初步试验结果。

    Therefore , this paper gives a preliminary test result of effect of iron content on the viscosity of olivine aggregates .

  9. 分析结果表明,在实验温压范围内,橄榄石中的水含量随铁含量的增加而增加。对于同样铁含量的橄榄石,则随温度的增加,橄榄石的水含量也增加。

    From the FTIR analysis , it is observed that water content increases with iron content as well as temperature under the experimental condition we used .

  10. 光学显微镜和X-射线衍射分析表明,合理控制铁料搭配,生成较多的铁酸钙和铁橄榄石,得到以熔蚀结构或粒状结构为主的烧结矿,可以提高强度。

    The analysis of optical microscope and x-ray diffraction indicates that through the reasonable iron-bearing material proportioning to promote the calcium ferrite and iron olivine formation , and to obtain the melting corrosion structure or the granular structure as primarily sinter , the sinter strength could be increased .