高温骨燃烧过程中元素的行为

M. A. Deriglazova, L. Rikhvanov
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引用次数: 0

摘要

由于对生物物质的兴趣日益浓厚,在元素组成方面对灰化生物基质的研究数量急剧增加。因此,了解烧成灰烬的材料的组成是否反映了原始物体的组成以及元素在燃烧过程中的行为是非常重要的。为了回答这些问题,对生物材料样品进行了实验。本研究的目的是分析骨组织高温燃烧过程中元素的行为。在实验过程中,采用了以下分析方法:仪器中子活化和电感耦合等离子体质谱法。研究表明,在燃烧过程中,大部分元素(Li、Na、Mg、P、Ca、Ti、Cu、Zn、Ga、U、Al、Sc、Cr、Mn、Fe、As、Y、Zr、Nb、Mo、Cd、Sb、La、Ce、Pr、Sm、Gd、Au、W、Bi)集中在煤灰中挥发,只有Br、Hg、Sn挥发。该元素的化合物的排他性作用在分析其行为时得到了证明。实验还证明了燃烧温度对元素行为的预测作用:灰化温度越低(500℃),元素挥发越剧烈。此外,还提出了一种将骨灰分中元素含量转化为干物质的算法。同时,利用数学函数建立了灰分中元素含量与干组织中元素含量(Fe、Mg、Zn、As、Pr、Ce、W、Zr、Cd、Cr、Sb、Mn、Ga、Nb、Pb和U)的关系,具有较高的近似精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
BEHAVIOR OF ELEMENTS DURING HIGH-TEMPERATURE BONE COMBUSTION
The number of studies of ashed biosubstrates in terms of elemental composition is sharply increasing due to the growing interest of living matter. Thus, it is extremely important to know, is the composition of the ashed material reflects the composition of the original object and how elements behave during the process of combustion. To answer these questions, an experiment on the samples of biological material was made. The purpose of the study is to analyze the behavior of elements in the process of high-temperature combustion of bone tissue. During the experiment, the following methods of analysis were used: instrumental neutron activation and mass spectrometry with inductively coupled plasma. The study shows that most of the elements are concentrated in bone ash during combustion (Li, Na, Mg, P, Ca, Ti, Cu, Zn, Ga, U, Al, Sc, Cr, Mn, Fe, As, Y,, Zr , Nb, Mo, Cd, Sb, La, Ce, Pr, Sm, Gd, Au, W, Bi), while volatilization is observed only for Br, Hg and Sn. The exclusive role of the chemichal compound of the element is shown for the analysis of its behavior. The experiment is aslo shows the role of combustion temperature to predict the behavior of element: it was found that lower temperature of ashing (500 °C) leads to more intensive volatilization of elements. In addition, an algorithm is propesed to convert the content of the element in ash of the bone to dry matter. At the same time, the dependence of the content of elements in the ash on their content in dry tissue were established using mathematical functions with high accuracy of approximation (for Fe, Mg, Zn, As, Pr, Ce, W, Zr, Cd, Cr, Sb, Mn, Ga, Nb, Pb, and U).
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