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Use auto-formatting template with Thermochimica Acta format applied Fast and reliable, built for complaince. Please check the journal website for updated information prior to submission.

The journal particularly welcomes papers from newly emerging areas as well as from the traditional strength areas: - New and improved instrumentation and methods - Thermal properties and behavior of materials - Kinetics of thermally stimulated processes Subject Area CHEMISTRY, ANALYTICAL CHEMISTRY, PHYSICAL THERMODYNAMICS CiteScore 4.

Kemp 2000 Thermochim Acta (Vol 355)Kemp RB (2000) "Fire burn and cauldron bubble" (W. Shakespeare): what the calorimetric-respirometric (CR) ratio does for our understanding of cells. Kemp 2000 Thermochim Acta (Vol 349)Kemp RB, Guan YH (2000) The application of heat flux measurements to improve the growth of mammalian cells in culture. Thermochim Acta 349: 23-30.

Gnaiger 1990 Thermochim ActaThermochim ActaGnaiger E (1990) Concepts on efficiency how to be fit biological calorimetry and metabolic flux control. Doeller 1990 Thermochim ActaBioblast pdfDoeller JE, Kraus DW, Gnaiger E, Shick JM (1990) Calorespirometry and spectrophotometry of the ciliated gill of the marine mussel Mytilus edulis. In this study, mortars from different structures of the medieval site of Baradello (Como, Italy) were analyzed, in order to characterize the materials and to help archaeologists to define a building chronology, only partially hypothesized, so far.

Firstly, thin sections were prepared and observed by optical microscopy, then samples were analyzed by TG-DSC, XRD, FTIR and SEM-EDX. TG-DSC proved to be the most useful technique for the purpose, because the treatment of its data pointed out differences between the architectural structures, suggesting a possible building chronology of the site.

Archaeological site and remainsC. La Marca, Characterisation of archaeological mortars how to be fit plasters from Kyme (Turkey), Journal of Archaeological Science 38 (2011) 794-804. Ferloni, Thermal, microscopic and X-ray diffraction studies on some ancient mortars, Thermochimica Acta 321 (1998) 207-214. Elsen, Microscopy of historic mortars - a review, Cement and Concrete Research 36 (2006) 1416-1424.

Garcia-Valles, Dating ancient lime mortars by geochemical and mineralogical analysis, Archaeometry 38 how to be fit 143-149.

Ubbriaco, Chemical-physical and mineralogical investigation remedium ancient mortars from the archaeological site of Monte Sannace (Bari-Southern Italy), Thermochimica Acta 418 (2004) 131-141. Giussani, A chemometric approach to the characterisation of historical mortars, Cement and Concrete Research 36 (2006) 1108-1114.

Toniolo, A new microwave-assisted approach to the chemical analysis of mortars, Annali Di Chimica 93 (2003) 315-320. Sansonetti, Classification of multi-layered plaster in St. Abbondio Cloister at Como, Italy: an analytical tool for architectural archaeology, Materiales De Construccion 56 (2006) 5-16.

Mas, Analytical characterisation of ancient mortars from the archaeological How to be fit city of Pollentia (Balearic Think, Spain), Analytica Chimica Acta 557 (2006) 373-379. Jimenez de Haro, V. Ramirez-Valle, Study by thermal analysis of mortars belonging to wall paintings corresponding to some historical buildings of Sevillian art, Journal of Thermal Analysis and Calorimetry 92 (2008) 353-359.

Zendri, Thermoanalytical research on traditional mortars in Venice, Thermochimica Acta 269 (1995) 817-828. Papoulidou, Thermal, mineralogical and spectroscopic study of plasters how to be fit three post-Byzantine churches from Kastoria (northern Greece), Journal of Thermal Analysis and Calorimetry 103 (2011) 577-586.

Filar, Mineralogical characterization of rendering mortars from decorative details of a baroque building in Kozuchow (SW Poland), Materials Characterization 61 (2010) 105-115.

Piraino, Investigations on ancient mortars from the Basilian monastery of Fragala, Journal of Thermal Analysis and Calorimetry 91 (2008) 477-485. Casado, Thermal, mineralogical and chemical studies of the mortars used in the cathedral of Pamplona (Spain), Thermochimica Acta 365 (2000) 177-187. Bisbikou, Characterization of ancient, Byzantine and later historic mortars by thermal and X-ray diffraction techniques, Thermochimica Acta 269 (1995) 779-795. Chiozzini, Thermal and microchemical investigation of Phoenician-Punic mortars used for lining cisterns at Tharros (western Sardinia, Italy), Thermochimica Acta 418 (2004) 53-60.

Dias, Chemical and mineralogical characterization of historic mortars from the Santa Eulalia de Boveda temple, NW Spain, Journal of Archaeological Science 37 (2010) 2346-2351. Ferragina, The use of thermoanalytical techniques in the characterization of ancient mortars, Thermochimica Acta 227 (1993) 215-223. Peramaki, Thermal and infrared spectroscopic characterization of historical mortars, Thermochimica Acta 320 (1998) 127-133.

Dollimore, Thermal analysis (TA) of lime- and gypsum-based methocarbamol mortars, Thermochimica Acta 211 (1992) 93-106. Belloni, Il castello Baradello. Orsenigo, Le nuove scoperte how to be fit, in L. Storia e restauro del simbolo di Como, Edizioni New How to be fit, Cermenate (CO), 2012, pp.

Zendri, Characterization of structural byzantine mortars by thermogravimetric analysis, Thermochimica Acta 321 (1998) 151-160.

Farwell, The conservational heritage of wall paintings and buildings: an FT-Raman spectroscopic study of prehistoric, Roman, mediaeval and Renaissance lime substrates and mortars, Journal of How to be fit Spectroscopy 39 (2008) 985-992. Bisbikou, Investigation of the technology of historic mortars, Journal of Cultural Heritage 1 (2000) 45-58. Pons, Ancient covering plaster mortars from several convents and Islamic and Gothic palaces in Palma de Mallorca (Spain).

Analytical characterisation, Journal of Cultural Heritage 4 (2003) 291-298. Madariaga, Spectroscopic evaluation how to be fit the environmental impact on black crusted modern mortars in urban-industrial areas, Analytical and Bioanalytical Chemistry 399 (2011) 2949-2959.

Mahapatra, Aragonite crystals with unconventional morphologies, Journal of Materials Chemistry 9 (1999) 2953-2957. Landry, Infrared Spectroscopy in Conservation Science, The Getty Conservation Phlegm, Los A sanofi aventis, 1999.

Pandi, Raman and infrared spectra of how to be fit of calcite structure, Journal of Raman Spectroscopy 37 (2006) 892-899. Cervantes, Clay minerals in historic buildings, Journal of Thermal Analysis and Calorimetry 104 (2011) 405-413.

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