Abstract
Neutron time-of-flight diffraction technique has been used to characterize some Japanese historical artifacts. With this method, metal samples can be analyzed in their bulk properties without need of sampling. Results shown here were obtained at the Italian Neutron Experimental Station (INES@ISIS) located at the pulsed neutron source ISIS (UK). The parallel use of a scanning electron microscope equipped with an energy-dispersive X-ray fluorescence device (SEM-EDX) permitted a full quantitative characterization of the investigated samples, namely four hand-guards (Tsubas) of Japanese swords attributed to the Tokugawa age. In particular, we were able to obtain, in a totally non-invasive non-destructive way, a full quantitative phase characterization of the samples, a detailed Bragg peak broadening analysis, and a quantitative texture determination. These results, complemented with those obtained via the traditional analysis method of SEM-EDX, allowed a full characterization of both the bulk and the surface of the artifacts.
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References
Squires GL (1996) Introduction to the theory of thermal neutron scattering. Dover, New York
Siano S, Kockelmann W, Bafile U, Celli M, Iozzo M, Miccio M, Moze O, Pini R, Salimbeni R, Zoppi M (2002) Quantitative multiphase analysis of archeological bronzes by neutron diffraction. Appl. Phys. A 74:S1139–S1142
Siano S, Bartoli L, Zoppi M, Kockelmann W, Daymond M, Dann JA, Garagnani G (2003) Microstructural bronze characterisation by time of flight neutron diffraction. Archaeometallurgy in Europe v.2:319–329 (Associazione Italiana di Metallurgia, Milano)
Kockelmann W, Kirfel A (2004) Neutron diffraction studies of archaeological objects on Rotax. Physica B 350:e581–e585
Barilaro D, Crupi V, Majolino D, Venuti V, Barone G, Kockelmann W (2005) Characterization of pottery fragments by nondestructive neutron diffraction. J. Appl. Phys. 98:103520
Botti A, Sodo A, Ricci MA (2006) An archaeometric application of SANS to pottery finds. J. Neutron Res. 14:3
Botti A, Ricci MA, De Rossi G, Kockelmann W, Sodo A (2006) Methodological aspects of SANS and TOF neutron diffraction measurements on pottery: the case of Miseno and Cuma. J. Arch. Sci. 33:307–319
Siano S, Bartoli L, Kockelmann W, Zoppi M, Miccio M (2004) Neutron metallography of archaeological bronzes. Physica B 350:123–126
Pantos E, Kockelmann W, Chapon LC, Lutterotti L, Bennet SL, Tobin MJ, Mosselmans JFW, Pradell T, Salvado N, Buti S, Garner R, Prag AJNW (2005) Neutron and X-ray characterisation of the metallurgical properties of a 7th century BC Corinthian-type bronze helmet. Nucl. Instrum. Meth. B 239:16–26
Kasztovszky ZS, Visser D, Kockelmann W, Pantos E, Brown A, Blaauw M, Hallebeek P, Veerkamp J, Krook W, Stuchfield HM (2007) Combined prompt gamma activation and neutron diffraction analyses of historic metal objects and limestone samples. Il Nuovo Cimento C 30:67–78
Siano S, Bartoli L, Santisteban JR, Kockelmann W, Daymond MR, Miccio M, De Marinis G (2006) Non-destructive investigation of bronze artefacts from the Marches National Museum of Archaeology using neutron diffraction. Archaeometry 48:77–96
Kockelmann W, Siano S, Bartoli L, Visser D, Hallebeek P, Traum R, Linke R, Schreiner M, Kirfel A (2006) Applications of TOF neutron diffraction in archaeometry. Appl. Phys. A 83:175–182
Cartechini L, Rinaldi R, Kockelmann W, Bonamore S, Manconi D, Borgia I, Rocchi P, Brunetti B, Sgamellotti A (2006) Non-destructive characterization of compositional and textural properties of Etruscan bronzes: a multi-method approach. Appl. Phys. A 83:631–636
Kockelmann W, Kirfel A, Jansen E, Traum R, Linke R, Schreiner M (2003) Non-destructive characterisation of coins using neutron diffraction. Proc. Archaeometrie und Denkmalpflege:82, Berlin
Filabozzi A, Andreani C, De Pascale MP, Gorini G, Pietropaolo A, Perelli Cippo E, Senesi R, Tardocchi M, Kockelmann W (2006) Texture and structure studies on marbles from Villa Adriana via neutron diffraction technique. J. Neutron Res. 14:55
Filabozzi A et al (2006) Nuovo Cimento C 29:237
Giacovazzo C (ed) (1994) Fundamentals of crystallography. Oxford University Press, Oxford
Pearson WB (1958) A handbook of lattice spacings and structures of metals and alloys. Pergamon, London
Young RA (1995) The Rietveld method. Oxford University Press, Oxford
Randle V, Engler O (2000) Introduction to texture analysis. CRC, London
Hutchings MT, Withers PJ, Holden TM, Lorentzen T (2005) Introduction to the characterization of residual stress by neutron diffraction. Taylor & Francis, London
Yumoto JM (1958) The Samurai Sword. A handbook. Tuttle, Tokyo
Grazzi F, Celli M, Siano S, Zoppi M (2007) Preliminary results of the Italian neutron experimental station INES at ISIS: archaeometric applications. Il Nuovo Cimento C 30:59–65
Celli M, Grazzi F, Zoppi M (2006) A new ceramic material for shielding pulsed neutron scattering instruments. Nucl. Instr. And Meth. A 565:861–863
Sugimori E (2004) Japanese patinas. Brynmorgen, Brunswick
Larson AC, Von Dreele RB (2004) General Structure Analysis System (GSAS), Los Alamos National Laboratory Report LAUR86-748
Lutterotti L. et al. Proceedings of the 12th International Conference on Texture of Materials In J. Szpunar (ed.), vol. 1, 1599-1610, NRC Research Press, Ottawa
Scott DA (1991) Metallography and microstructure of ancient and historic metals. Paul Getty Trust, New York
Acknowledgments
The authors acknowledge fruitful discussions with W. A. Kockelmann and E. Godfrey (ISIS, UK) and the cooperative attitude of staff at the Centro di Microscopia Elettronica, CNR-Firenze. The Cooperation Agreement No. 06/20018 between CNR and STFC, concerning collaboration in scientific research at the spallation neutron source ISIS (UK), is gratefully acknowledged.
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Grazzi, F., Bartoli, L., Civita, F. et al. Neutron diffraction characterization of Japanese artworks of Tokugawa age. Anal Bioanal Chem 395, 1961–1968 (2009). https://doi.org/10.1007/s00216-009-3048-6
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DOI: https://doi.org/10.1007/s00216-009-3048-6