Iwona Żmuda–Trzebiatowska scite author profile

We report results of the patina study of underwater archeological finding of medieval copper objects performed by means of the Raman and complementary spectroscopic techniques. The objects were found submerged in the sea as cargo part of the ship which sunk in the Gulf of Gdańsk in 1408. The excavated collection consists of 230 oval ingots of the size and mass up to about 60 cm and 18 kg (total of 2 tons), respectively. In the Raman spectra of the strongly porous ingot encrustation, the bands corresponding to the main patina representatives such as cuprite (Cu2O), atacamite (Cu2(OH)3Cl) and chalcopyrite (CuFeS2), and also chalcocite (Cu2S) and covellite (CuS) are observed and confirmed by the elemental analysis. Raman bands located at 1473 cm−1 and also at 909 and 511 cm−1 are ascribed to the organic Ca‐oxalate (whewellite, CaC2O4 · H2O) in agreement with the infrared spectra and surface morphology observed in microscope images. The presence of S, C, Ca, and Fe revealed by the energy dispersive X‐ray spectroscopy indicate on patina components resulting from reactions in the microbial environment in seawater and on contributions coming from iron bars, tar, and burnt remains which were also found in the excavated cargo. The results are consistent with literature data on copper ingots from Hungary traded along the south–north route in medieval Europe. Copyright © 2016 John Wiley & Sons, Ltd.

show abstract

Material composition evaluation of historical Cu alloy aquamanilia by complementary XRF and LIBS measurements

Żmuda–Trzebiatowska

Hoyo‐Meléndez

Śliwiński

2019

Eur. Phys. J. Plus

View full text Add to dashboard Cite

Indoor Atmospheric Degradation of Historical Metal Objects Studied by Spectroscopic Techniques

Żmuda–Trzebiatowska

Fietkiewicz

Śliwiński

2011

SSP

View full text Add to dashboard Cite

The surface layers resulting from prolonged exposure to the indoor environment and the bulk material of metal artifacts from the collection of National Museum in Gdansk are studied by means of spectroscopic techniques. The composition of the surface layers of the forged iron box lid covered with polychrome (XVI c.), and of the bronze female nude sculpture (antiquity) is obtained from the XRF and µ-Raman spectra. The elemental composition is confirmed by the LIP (Laser Induced Plasma) spectroscopic measurements. The quasi-nondestructive LIP technique applied for stratigraphic sampling performed with an accuracy of ca 2 µm across the multilayer surface coverage reveals such elements as C, Ba and Na in the uppermost layer. From coincidence of the XRF, Raman and LIP data the presence of surface contaminant CaCO3, the corrosion product FeO(OH) and patina Cu2 (OH)3Cl are concluded. It is shown that the complementary spectroscopic analysis allows for the in-depth study of the environmental impact on historical objects and delivers indications for the appropriate strategy of the planned conservation activities. Moreover, from the data collected from the technologies applied in the past, origin, provenance and routing of the artifacts can be concluded.

show abstract

Surface layers analysis of bronze artifacts by means of laser spectroscopy techniques

Żmuda–Trzebiatowska¹,

Śliwiński²

2011

Photon. Lett. Poland

View full text Add to dashboard Cite

Abstract-Advantages of the complementary use of spectroscopic techniques are exemplified by the analysis of a historical bronze mortar from XV c. performed as part of the running collection conservation project by the National Museum in Gdansk. The bulk material and surface layers are analyzed by means of the XRF and µ-Raman techniques. Quasi-nondestructive LIP (Laser Induced Plasma) spectroscopy delivers additional data on the elemental composition and is applied also for stratigraphic sampling across the surface layers.A detailed understanding of the environmental impact on historical metal artefacts is of considerable importance for their preservation. In most cases, the poor state of historical metal objects and collections being a significant part of our cultural heritage results from prolonged exposure to adverse environmental conditions This paper presents the results of analysis of the material and patina of the historic bronze mortar (Fig. 1) by means ofRecently, systematic research on historic collections and case studies show that the combination of spectroscopic and optical techniques for elemental, compositional, and structural analysis enhance greatly the reliability of results [2][3]. Moreover, non-destructively operating instruments allow us to keep the impact on valuable and precious objects extremely low.complementary spectroscopic methods, which ensure reliable characterization of the object. The bronze mortar (XV c.) produced by casting has a bell shape and a rectangular handle * E-mail: izmuda@imp.gda.pl -see Fig. 1.Typically, the gothic mortars were decorated with reliefs based on architectural motives. The object under investigation originates most probably from Gdańsk and represents a modest version of the dish characterized by a smooth, not ornamented coat. Dishes of this type were popular in Northern Europe in the fifteenth century. The mantle just above the foot is slightly bellied with a little horizontal crack visible on the surface. The entire surface is covered with a homogeneous layer of brown patina with the exception of the foot edge. The light reflection on the surface may originate from the protection layer applied during previous conservation. Small t An elemental analysis of the object was carried out races of a greenish-coloured patina are present on the foot reverse and the handle, too.non-invasively by means of an X-ray fluorescence spectrometer (XRF) completed at IF-FM PASci. The spectrometer X-ray tube IS601.5 (Italstructures) used for excitation has produced an excitation beam collimated to a spot of 4 mm in diameter. The tube was operated at 50kV and 1mA, and ensured detection of elements in the range from K (19) to U (92). During measurements an accumulation time of 120s for recording of each spectrum was applied.The XRF results were supplemented by the LIBS data in order to increase the level of confidence of the detected elements. The LIB spectra were recorded under pulsed excitation with an Nd: YAG laser (Quantel) operated at 1064nm and energy density of 2J/cm -2 ...

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.