XRD analysis determined crystal cage occupying number n of carbon anion substituted mayenite-type cage compound C12A7: nC

IF 1.9 4区材料科学 Q3 Materials Science

Science and Engineering of Composite Materials Pub Date : 2023-01-01 DOI:10.1515/secm-2022-0197

Cong Ji, Fan Gu

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Abstract

Abstract In this study, a series of samples of C12A7 derivative was prepared by high temperature sintering in a sealed graphite crucible. The theoretical model of C12A7 derivatives with different carbon occupation numbers was established. The X-ray diffraction (XRD) theoretical calculation was carried out. The conjecture was verified to a certain extent through the comparison of the theoretical calculation of XRD with the experimental results. According to the calculation results, it was found that the XRD patterns of C12A7 and its derivatives changed regularly with the change in the occupation number in the crystal cage. Under the condition that the types of vacancy atoms remained unchanged, the more vacancy atoms occupied in C12A7 crystal, the higher the peak at 2θ = 33.35° in the diffraction pattern. It was also found that the higher the atomic number of vacancy atoms in C12A7 crystal, the higher the peak at 2θ = 33.35° in the diffraction pattern. The carbon occupation number of samples at different experimental temperatures was deduced. The results showed that the carbon occupancy of the samples prepared at 990, 1,353 and 1,680°C were 11, 4 and 8, respectively.

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XRD分析确定了碳阴离子取代的钙铝石型笼状化合物C12A7:nC的晶体笼占据数n

摘要本研究在密封石墨坩埚中高温烧结制备了一系列C12A7衍生物样品。建立了不同碳占有数C12A7衍生物的理论模型。进行了x射线衍射(XRD)理论计算。通过XRD的理论计算与实验结果的对比，在一定程度上验证了这一猜想。计算结果表明，C12A7及其衍生物的XRD谱图随着在晶笼中占据数的变化而有规律地变化。在空位原子类型不变的情况下，C12A7晶体中占据的空位原子越多，衍射图中2θ = 33.35°处的峰越高。C12A7晶体中空位原子的原子序数越高，衍射图中2θ = 33.35°处的峰越高。推导了不同实验温度下样品的碳占据数。结果表明，在990℃、1353℃和1680℃下制备的样品的碳占用率分别为11、4和8。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Science and Engineering of Composite Materials 工程技术-材料科学：复合

CiteScore

3.10

自引率

5.30%

发文量

审稿时长

4 months

期刊介绍： Science and Engineering of Composite Materials is a quarterly publication which provides a forum for discussion of all aspects related to the structure and performance under simulated and actual service conditions of composites. The publication covers a variety of subjects, such as macro and micro and nano structure of materials, their mechanics and nanomechanics, the interphase, physical and chemical aging, fatigue, environmental interactions, and process modeling. The interdisciplinary character of the subject as well as the possible development and use of composites for novel and specific applications receives special attention.