微量杂质对硅酸二钙转化的影响

Kazutaka Suzuki, M. Tsujita
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引用次数: 1

摘要

在温度高于α_??_α的转换。然而,在这种情况下,批次中应该含有杂质,这些杂质通过晶格内的取代来稳定更高温度的修饰,β甚至α, α '。本文用x射线研究了不同数量的不同杂质的稳定作用。并从α′、β和γ相变温度变化的测量结果讨论了其稳定作用。Cr、V、P和B对稳定β有显著的作用,即使在极慢的冷却条件下也能得到β。此外,Cr、V和P对Si的取代增加产生α,而B的取代则稳定α '形式。单独使用铝、铁是没有威力的。通过高温水淬使β稳定,但不能产生α和α′晶体。Ti、Mn几乎没有功率,即使是水淬后的样品也受到γ改性的污染。通过对含有大量取代元素的一系列批次的研究,得出了Cr取代Si4+作为五价离子的结论。这一结果与其它五价离子V、P的作用以及e.f. Osborn的研究结果进行了比较,证明了作者的结论是可靠的。稳定元素的离子半径对β- c2s b轴的膨胀和收缩产生影响。离子半径比Si4+大的Al3+、Fe3+只能稳定β-C2S。Cr5+、V5+、P5+等与Si4+尺寸相近的离子可以很容易地取代Si4+,稳定由单斜β型六方对称的α晶体。B3+是一个比Si4+小的离子,随着轴向角的变化而稳定α′。考虑到比Ca2+更大的离子Ba2+也能稳定α′,作者得出了与Dietzel稳定化理论相同的结论。我们还讨论了取代引起的α、α′和γ晶格大小的变化。热分析表明,随着取代剂用量的增加,β→α′和α′→β的转变温度成比例地降低。结果表明,杂质的性质和含量对高温下的稳定性有一定的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of the Minute Quantity of Impurities on the Transformation of Dicalcium Silicates
β-C2S may be obtained by water quenching from the temperatures higher than the α_??_α′ transformation. In this case, however, the batch should contain the impurities which stabilize the modifications of higher temperatures, β or even α, α′, by the substitution within crystal lattices.This paper concerns with the X-ray investigation of the stabilizing action of various amount of different impurities. Moreover, the authors discussed the stabilizing action from the results of the measurement of the change of the transformation temperatures of α′, β and γ.Cr, V, P, and B showed the marked effect especially for stabilizing β, so that it was possible to obtain β even by very slow cooling. Furthermore, the increasing substitution of Cr, V, and P for Si produced α, while that of B stabilized α′ form.Al, Fe, used alone were not powerful. They stablized β by water quenching from high temperature, but they were not able to produce α and α′ crystal.Ti, Mn have practically no power, and even the water quenched samples were contaminated by γ modification.From the results of the investigations of the series of batches containing comparatively large amount of substituting elements the authors concluded that Cr substitutes for Si4+ as the pentavalent ion. This result was compared with the action of other pentavalent ions, V, P and also with E. F. Osborn's work which showed that author's conclusion is reliable. Cr stabilizes α, β forms by the same action with V and P.The ionic radii of the stabilizing elements produce an effect on the expansion and contraction of the b-axis of β-C2S. Al3+, Fe3+, whose ionic radii are fairly larger than Si4+ are able to stabilize only β-C2S. Cr5+, V5+, P5+, the ions of nearly the same size as Si4+, may easily-substitute Si4+ and stabilize the α crystal of hexagonal symmetry from the monoclinic β form.B3+, an ion smaller than Si4+, stabilize α′ with the change of axial angle. Taking into consideration of the fact that Ba2+, a larger ion than Ca2+, can also stabilize α′, the author came in the same conclusion as that of the theory of stabilization advanced by A. Dietzel. We have discussed also the change of the size of lattices of α, α′ and γ brought about by substitution.Transformation temperatures of the modifications were measured by thermal analysis with a result that the transformation temperatures of β→α′ and α′→β were lowered in proportion to the amount of substituting agents. It was observed that the stabilization at high temperature was influenced by the nature and amount of impurities.
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