The impact of calcination on changes in the physical and mechanical properties of the diatomites of the Leszczawka Member (the Outer Carpathians, Poland)

Pub Date : 2020-01-25 DOI:10.7494/geol.2019.45.4.269
B. Figarska-Warchoł, Marek Rembiś, Grażyna Stańczak
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引用次数: 1

Abstract

The work concerned the effects of the thermal treatment of diatomites from the Jawornik deposit (an example of the diatomites of the Leszczawka Member of the Polish Outer Carpathians). Five distinct lithological varieties were subjected to calcination at 600°C in ambient air. The thermal impact induced the following changes to the rocks. Their overall rock porosity increased, most distinctly in the initially softer varieties, and the internal pores of the siliceous frustules themselves usually became larger due to the initial melting of the silica phases. Most of the diatoms, quartz and feldspars cracked as a result of their brittle fracturing under compressive strain resulting from substantial and differing size changes of growing grains. Clay minerals were thermally transferred, changing their volume. The organic matter dispersed throughout the diatomites was partly oxidized and removed. At the same time, the structure of the rocks was strengthened, as confirmed by an increase in their microhardness. The microhardness of soft and porous diatomite varieties increased considerably on heating, but that of the hard and compact variety changed to a smaller degree. The increase is directly related to the content of the clay minerals. The impact of other mineral components was not detected. The calcination of lithologically diversified diatomites provided the mineral with raw material with deicing and antisliding properties. The technology of its production has been determined by the authors and submitted as a patent.
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煅烧对Leszczawka成员硅藻土物理和机械特性变化的影响(外喀尔巴阡山脉,波兰)
这项工作涉及Jawornik矿床硅藻土的热处理效果(波兰外喀尔巴阡山脉Leszczawka成员硅藻土的一个例子)。五种不同的岩性品种在600°C的环境空气中进行煅烧。热冲击引起了岩石的以下变化。它们的整体岩石孔隙度增加,最明显的是在最初较软的品种中,由于硅相的初始熔化,硅质晶体本身的内部孔隙通常变大。硅藻、石英和长石的断裂是由于生长颗粒发生了较大的尺寸变化,在压应变作用下发生脆性断裂。粘土矿物被热传递,改变了它们的体积。分散在硅藻土中的有机物被部分氧化和去除。与此同时,岩石的结构得到了强化,显微硬度的增加证实了这一点。软质和多孔硅藻土品种的显微硬度在加热过程中有较大的提高,而硬质和致密硅藻土品种的显微硬度变化较小。这种增加与粘土矿物的含量有直接关系。没有检测到其他矿物成分的影响。不同岩性硅藻土的煅烧为硅藻土提供了具有除冰和防滑性能的原料。其生产工艺已由作者确定并申请专利。
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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