Firing and post-firing dynamics of Mg- and Ca-rich bricks used in the built heritage of the city of Padua (northeastern Italy)

IF 1.8 3区地球科学 Q2 MINERALOGY European Journal of Mineralogy Pub Date : 2022-05-19 DOI:10.5194/ejm-34-301-2022

E. Pérez-Monserrat, L. Maritan, G. Cultrone

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引用次数: 1

Abstract

Abstract. Diverse types of bricks from monuments in the city of Padua (northeastern Italy) were studied using a multi-analytical approach based on spectrophotometry, X-ray fluorescence (XRF), X-ray powder diffraction (XRPD), polarized-light optical microscopy (POM) and/or high-resolution scanning electron microscopy with coupled energy-dispersive X-ray spectroscopy (HRSEM-EDS). The most representative bricks were yellow or beige and in well-preserved condition. The results showed that they were made of Mg- and Ca-rich illitic clays, were fired at high temperatures (from 900 to over 950 ∘C), and achieved an incipient vitrification. Two main processes took place during firing: (i) the development of a Ca-aluminosilicate amorphous phase where very abundant pyroxene-type crystals were nucleated and (ii) the transformation of the pristine Mg-rich clayey grains into Mg-silicate mineral phases. The analyses suggest a firing dynamic within a highly reactive and supersaturated unstable system, particularly rich in calcium and magnesium. There are also signs of the rapid heating and/or soaking of the bricks and the irregular heat distribution and/or different residence times inside the kilns. The formation of zeolite and calcite secondary phases was also observed. The former was largely promoted by the high calcium content of the bodies and the very humid conditions, while the latter was mainly precipitated from Ca-rich solutions. The preservation of the bricks was enhanced by processes that took place both during and after firing. Firstly, the significant development of a Ca-rich amorphous phase and of high-temperature pyroxene-type crystals has provided strength to the bricks. Secondly, the porosity yielded by the firing of the carbonate-rich clays was almost filled by secondary calcite, which acted as a cementing agent. The information attained has increased the knowledge of (i) the mineralogical and microstructural changes that take place during the firing over 900 ∘C of Ca- and Mg-rich illitic clays and (ii) the formation of secondary phases within highly calcareous bricks laid in very humid environments and affected by Ca-rich solutions. The key role of the Ca- and Mg-rich raw clays and of the high firing temperatures, in producing high-quality bricks, and of the secondary calcite, which increased their durability, is highlighted. All these factors have contributed to the better preservation of the built heritage of the city.

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帕多瓦市（意大利东北部）建筑遗产中使用的富镁和富钙砖的烧制和烧制后动态

摘要采用基于分光光度法、X射线荧光（XRF）、X射线粉末衍射（XRPD）、偏振光光学显微镜（POM）和/或高分辨率扫描电子显微镜结合能量色散X射线光谱（HRSEM-EDS）的多分析方法，研究了意大利东北部帕多瓦市纪念碑中不同类型的砖块。最具代表性的砖是黄色或米色的，保存完好。结果表明，它们是由富含镁和钙的伊利石粘土制成的，在高温下烧制（从900到950以上 ∘C），并实现了初步的玻璃化。烧制过程中发生了两个主要过程：（i）Ca铝硅酸盐非晶相的形成，其中大量的辉石型晶体成核；（ii）原始富含镁的粘土颗粒转化为镁-硅矿物相。分析表明，在高反应性和过饱和的不稳定系统中，特别是富含钙和镁的系统中，存在燃烧动力学。还有砖快速加热和/或浸泡的迹象，以及窑内不规则的热量分布和/或不同的居住时间。还观察到沸石和方解石第二相的形成。前者在很大程度上受到水体中高钙含量和非常潮湿的条件的促进，而后者主要从富钙溶液中沉淀。烧制过程中和烧制后的过程都加强了砖块的保存。首先，富钙无定形相和高温辉石型晶体的显著发展为砖提供了强度。其次，富含碳酸盐的粘土烧制产生的孔隙几乎被作为胶结剂的次生方解石填充。所获得的信息增加了对以下方面的了解：（i）在900多年的采矿过程中发生的矿物学和微观结构变化 ∘富含Ca和Mg的伊利石粘土的C，以及（ii）在非常潮湿的环境中铺设并受富含Ca的溶液影响的高钙质砖中次生相的形成。强调了富含Ca和Mg的原粘土和高烧制温度在生产高质量砖中的关键作用，以及提高其耐久性的次生方解石。所有这些因素都有助于更好地保护这座城市的建筑遗产。

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来源期刊

European Journal of Mineralogy 地学-矿物学

CiteScore

2.80

自引率

9.50%

发文量

审稿时长

6-12 weeks

期刊介绍： EJM was founded to reach a large audience on an international scale and also for achieving closer cooperation of European countries in the publication of scientific results. The founding societies have set themselves the task of publishing a journal of the highest standard open to all scientists performing mineralogical research in the widest sense of the term, all over the world. Contributions will therefore be published primarily in English. EJM publishes original papers, review articles and letters dealing with the mineralogical sciences s.l., primarily mineralogy, petrology, geochemistry, crystallography and ore deposits, but also biomineralogy, environmental, applied and technical mineralogy. Nevertheless, papers in any related field, including cultural heritage, will be considered.