Sourcing limestone masonry for restoration of historic buildings, a spectroscopic pilot study

Hopkinson, Laurence; Rutt, K. J.; Kristová, Petra; Blows, J.F.; Firth, Callum R.

doi:10.1016/j.culher.2015.03.007

Cited by 9 publications

(9 citation statements)

References 37 publications

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“…calcite as the main phase) can be described as D 3 (A 1 (R)(V 1 ), A 2 (I)(V 2 ) and E(I,R)(V 3 , V 4 )) which is in agreement with the crystalline structure that can be determined via XRD measurements [42]. Also, a frequency value of the infrared inactive fundamental V 1 of calcite can be determined from the frequencies of two combination bands V 1 +V 3 and V 1 +V 4 observed at 2515 cm -1 and 1798 cm -1 , respectively, for the samples at low temperature, resulting in the average value 1088 cm -1 for V 1 which is in agreement with the value that can be obtained from the Raman spectra of calcite [44].…”

Section: Caco 3 → Cao + Cosupporting

confidence: 84%

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The chemometric study of limestone physico-chemical properties and thermal behavior for application in construction composites

et al. 2017

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The limestone, as an economically sustainable and easily available basic raw material, is frequently utilized in the building industry for resolving of the environmental protection issues. The limestone is incorporated in a cementitious system either by grinding with cement clinker, or by blending with the binder during concrete production. The employing of powdery limestone as partial cement replacement gives the construction composites with properties comparable to that of conventional concrete. The study of limestone thermal behavior and its chemistry is crucial for the prognosis of the designed composites properties. In this work, the instrumental techniques (atomic emission spectroscopy, differential thermal and thermo-gravimetric analysis, Fourier transform infrared spectroscopy) and the Principal component analysis were employed to discriminate and classify 22 limestone types. The PCA statistical method, as a means of spectra and experimental data fingerprinting, grouped the samples in a multi-dimensional factor space producing four graphical prognosis - one for each instrumental method. DTA/TG peak values varied the most in a short range between 830-870?C, while FTIR spectra showed the highest diversity in the 867-887 cm-1 and 1237-1647 cm-1 ranges. This research was governed by an idea to reveal whether it is possible to differentiate various limestone types and to predict the possibility of their employment in construction composites on the basis of the results of instrumental and mathematical analyses. [Project of the Serbian Ministry of Education, Science and Technological Development, Grant no. ON 172057, III 45008, TR 31055, TR 34006, and TR 34013]

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Section: Caco 3 → Cao + Cosupporting

confidence: 84%

“…The registered bands are all considered to be caused by the CO 3 groups with the crystals [43]. Namely, from the analysis of the space group characteristics, the existence of four molecular frequencies for the CO 3 ions in calcite is acknowledged of which three are active in the infrared spectrum [43][44][45].…”

Section: Caco 3 → Cao + Comentioning

confidence: 99%

The chemometric study of limestone physico-chemical properties and thermal behavior for application in construction composites

et al. 2017

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“…Thereby, the site symmetry for CO 3 2-that is present in the limestone (i.e., calcite as the main phase) can be described as D 3 (A 1 (R)(υ 1 ), A 2 (I)(υ 2 ) and E (I, R) (υ 3 , υ 4 )) which is in agreement with the crystalline structure that can be determined via XRD measurements [2,30]. Also, a frequency value of the infrared inactive fundamental υ 1 of calcite can be determined from the frequencies of two combination bands υ 1 +υ 3 and υ 1 +υ 4 observed at 2515 cm -1 and 1798 cm -1 , respectively, for the samples at low temperature, resulting in the average value 1088 cm -1 for υ 1, which is in agreement with the value that can be obtained from the Raman spectra of calcite [2,31].…”

Section: Infrared (Ftir) Spectroscopy Analysissupporting

confidence: 74%

“…The FTIR bands at 1424, 876 and 712 cm -1 had distinguished peaks, while the rest of peaks were minor. The registered bands are all considered to be caused by the CO 3 groups with the crystals [2,31]. Namely, from the analysis of the space group characteristics, the existence of four molecular frequencies for the CO 3 ions in calcite is acknowledged, of which three of them are active in the infrared spectrum [2,[30][31][32].…”

Section: Infrared (Ftir) Spectroscopy Analysismentioning

confidence: 99%

Investigation in order to defined the technological process of obtaining fillers for use in various industries on the basis of limestone 'Gigovici'-Ulcinj

Radulovic¹,

Petrov²,

Bogdanović³

et al. 2017

J Min Metall A

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“…The signals around 1395 cm -1 suggest the formation of various coordinated bicarbonate groups which overlap calcium carbonate absorption bands [42,46]. The presence of vaterite and calcite can be related with the peaks revealed around 1085 cm -1 (medium/weak signals in FTIR spectra and strong signals in Raman spectra) and 712 cm -1 respectively (medium/strong signals in FTIR and weak signals in Raman spectra) [33,42,47,48]. Intense signals around 1085 cm -1 in Raman spectra also suggest an overlapping of spectral bands due to the vaterite (1089 cm -1 ), calcite and aragonite (1084 cm -1 ) [33,41]; also, other studies [30] point out that a broad signal with a sharp peak with a maximum at 1083 cm −1 indicates the formation of crystalline calcium carbonates and amorphous calcium carbonate.…”

Section: Infrared Spectral Assaymentioning

confidence: 85%

Indoor Microclimatic Variables Assessment by Vibrational Spectroscopy on Original Structure of Tropaeum Traiani Monument, Adamclisi

Olteanu

Rădulescu²,

Stihi

et al. 2020

J. Sci. Arts

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This work attempts to show the usefulness of vibrational spectroscopy (i.e., FTIR and Raman) in the analysis of major components of the original structure materials of a heritage monument (Tropaeum Traiani, Adamclisi). The features of materials and indoor microclimatic variables (i.e., temperature and relative humidity), on the periods of the monitoring campaigns, were considered. As the conservation must make sure about the physicochemical and structural aspects of the materials, assessment of the environmental impact, deterioration processes and characterization of ancient building materials are useful to understand the chemical evolution in the past, predict the various trends in the future, choose the suitable restoration methods to preserve their present state, and even to describe the alteration process of materials and modification through time. The surface of original structure materials used until present seems not to be affected at major scale by the indoor microclimate variables. But even high recorded relative humidity levels promote the occurrence of amorphous calcium carbonate, calcite, aragonite and vaterite highlighted by vibrational spectroscopy data (i.e., FTIR and Raman), as a first effect, the development of biological organism can be enhanced, depending on the characteristics of the substrate. Second, atmospheric pollutants can be dissolved easier in the humidity existing in the porous material, and lastly, if the waterflow inside the stone is not homogeneous, cracks could appear due to differences in permeability.

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Sourcing limestone masonry for restoration of historic buildings, a spectroscopic pilot study

Cited by 9 publications

References 37 publications

The chemometric study of limestone physico-chemical properties and thermal behavior for application in construction composites

The chemometric study of limestone physico-chemical properties and thermal behavior for application in construction composites

Investigation in order to defined the technological process of obtaining fillers for use in various industries on the basis of limestone 'Gigovici'-Ulcinj

Indoor Microclimatic Variables Assessment by Vibrational Spectroscopy on Original Structure of Tropaeum Traiani Monument, Adamclisi

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