Calibration of Raman Spectroscopy at 1064 nm for Beeswax Quantification

Abstract: In the early sixties, coating with molten beeswax was considered a valuable method for preventing the erosive action of weather and/or salinity on the surface of granite sculptures and monuments. This technique had been traditionally employed by the Galician stoneworkers for partial repair of historical monuments. For this purpose, beeswax was applied to the Renaissance Frieze in the Cloister of the Cathedral of Santiago de Compostela in Galicia (Northwest Spain). The beeswax treatment was counterproductive. A… Show more

“…The Raman spectrum of the granite surface was recorded, before and after irradiation, with the excimer laser. Using the calibration curve of the Raman peak versus the beeswax thickness, determined in a previous work [20], we obtained the removed/ablated thickness of the waxy material.…”

“…For the evaluation of the cleaning results, the quantification of the thickness of the remaining beeswax was assessed by FTRaman Spectroscopy using the quantification protocol developed in a previous work [20], whereby the beeswax Raman peak at 2879 cm À1 spectra was correlated with the wax thickness. Raman spectra were collected using a polarized Raman spectrometer (BRUKER RFS 100) equipped with a Nd:YAG laser (1.06 mm) pumped by two diode lasers.…”

Excimer laser removal of beeswax from galician granite monuments

“…The Raman spectrum of the granite surface was recorded, before and after irradiation, with the excimer laser. Using the calibration curve of the Raman peak versus the beeswax thickness, determined in a previous work [20], we obtained the removed/ablated thickness of the waxy material.…”

“…For the evaluation of the cleaning results, the quantification of the thickness of the remaining beeswax was assessed by FTRaman Spectroscopy using the quantification protocol developed in a previous work [20], whereby the beeswax Raman peak at 2879 cm À1 spectra was correlated with the wax thickness. Raman spectra were collected using a polarized Raman spectrometer (BRUKER RFS 100) equipped with a Nd:YAG laser (1.06 mm) pumped by two diode lasers.…”

Excimer laser removal of beeswax from galician granite monuments

Experimental and theoretical study of the ND:YAG laser removal of beeswax on Galician granite at 355 nm

Experimental and theoretical study of the Nd:YAG laser removal of beeswax on Galician granite at 355 nm