Synthesis of Ultramarine from Reservoir Silts

Hsiao, Yin Hsiu; Shen, Yun; Ray, Dah Tong

doi:10.3390/min7050069

Cited by 5 publications

(3 citation statements)

References 22 publications

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“…Noteworthy, the presence of iron in the corresponding area, as detected by XRF, can be reasonably due to the raw minerals used for the production of the synthetic ultramarine blue. Fe-bearing minerals, as, for instance, illite, can be used in the industrial process to produce the pigment [41]. There is no trace of pyrite, the common Fe-bearing mineral associated with the natural lapis lazuli.…”

Section: Plastersmentioning

confidence: 99%

Multi-Technique Diagnostic Analysis of Plasters and Mortars from the Church of the Annunciation (Tortorici, Sicily)

et al. 2022

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Plasters and mortars of the Church of the Annunciation (Tortorici, Sicily) were characterized, for the first time, both at the elemental and molecular levels, by means of portable X-ray fluorescence (XRF) and Raman spectroscopy, to achieve information on the “state of health” of the whole structure. The understanding of their degradation mechanisms and the identification of consequent degradation patterns can define the environmental factors responsible for interpreting the potential pathological forms that can impact the general building vulnerability. In this sense, the results obtained in this article provide relevant information to identify and address both the characterization of building materials and the fundamental causes of their deterioration. At the same time, if coupled with the attempt to supply a chronological order of the major restoration interventions carried out on the investigated site, they provide new insights to calibrate the models for building vulnerability studies.

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Section: Plastersmentioning

confidence: 99%

Multi-Technique Diagnostic Analysis of Plasters and Mortars from the Church of the Annunciation (Tortorici, Sicily)

et al. 2022

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“…Charge Ultramarine is yielded not only from kaodine, but also from amorphous sodium alumosilicate, the mixture of sodium aluminate and silica, the mixture of amorphous alumina and silicon dioxide, as well as from the mixture of aluminuim-containing and siliferous waste after special treatment [15,16,17,18,19,20,21]. For example, while yielding UM-1 and UM-2 ultramarine grades, silicon is substituted with ferrosilicon dust, technical sodium aluminate is substituted with alkalineetched aluminium products, and while yielding UHK and UHK-A ultramarine grades, amorphous aluminium is substituted with dead aluminuim-containing catalyst.…”

Section: Raw Materialsmentioning

confidence: 99%

Contemporary Methods for Production of Ultramarine

Vyboishchik

2022

Materials Research Proceedings

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“…The brilliant blue color of ultramarine pigment originates from the mineral lazurite ((Na,Ca) 8 (AlSiO 4 ) 6 (SO 4 ,OH, S,Cl) 2 ), which is present in lapis lazuli rock: a blue opaque semi-precious stone, historically found and mined in current Afghanistan [7]. Lazurite has the same crystal structure as the mineral sodalite, Na 8 [(AlSiO4) 6 ]Cl 2 , which is a feldspathoid group mineral with a zeolite structure [8], having so-called sodalite or ␤-cages (chemical formula (Al 3 Si 3 O 12 ) 3− ) as framework (Fig. 2a).…”

Section: Introductionmentioning

confidence: 99%