Abstract
Neutron-imaging techniques are emerging as an innovative and attractive investigative approach to characterise ancient artefacts without the need for sampling or invasive procedures. In this chapter, a selection of case studies developed in collaboration with several Research Groups and Museum Institutions will show case the potential of neutron imaging technique to investigate a particular class of Heritage materials: metals. Despite neutron technique can be widely applied to different artefacts, i.e. pottery, sculpture, paintings, we decided to focus on this class since the application of neutron imaging technique have disclosed a unique insight into the investigation of their composition and microstructure. Until recently, this task was mainly fulfilled basing on standard analytical techniques like, for example, metallography. Traditional analysis, however, though very accurate, is not always suitable for rare and unique objects of high scientific and economic value.
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Notes
- 1.
Neutron instruments are presented and described in part II “Experimental methods”.
- 2.
Neutron instruments are presented and described in part II “Experimental methods”.
- 3.
Neutron instruments are presented and described in part II “Experimental methods”.
- 4.
Neutron instruments are presented and described in part II “Experimental methods”.
References
Coe MD, Connolly P, Harding A, Harris V, LaRocca DJ, North A, Richardson T, Spring C, Wilkinson F (2012) Swords and hilt weapons. Prion Book Limited
Gener M (2009) Metallographic study of some 17th and 18th c, European sword (rapier) blades. In: 2nd International Conference Archaeometallurgy in Europe 2007. Selected papers. Associazione Italiana di Metallurgia, pp 282–293. ISBN 88-85298-71-0
Giller L, Filges U, Kühne G, Wohlmuther M, Zanini L (2008) Validation of Monte-Carlo simulations with measurements at the ICON beam-line at SINQ. Nucl Instrum Methods Phys Res A 586:59–63
Grazzi F, Bartoli L, Civita F, Franci R, Paradowska A, Scherillo A, Zoppi M (2011a) From Koto age to modern times: Quantitative characterization of Japanese swords with time of flight neutron diffraction. J Anal At Spectrom 26:1030
Grazzi F, Civita F, Williams A, Scherillo A, Barzagli E, Bartoli L, Edge D, Zoppi M (2011b) Ancient and historic steel in Japan, India and Europe, a non-invasive comparative study using thermal neutron diffraction. Anal Bioanal Chem 400:1493
Grazzi F, Bartoli L, Barzagli E, Civita F, Paradowska A, Scherillo A, Zoppi M (2011c) Microstructural characterization of two Koto age Japanese swords. La Metallurgia Italiana 5:13
Hoshi H, Sasaki M (2005) Tetsu-to-hagane 91:103–107
Josic L, Steuwer A, Lehmann EH (2010) Energy selective neutron radiography in material research. Appl Phys A 99:515
Kaestner AP, Hartmann S, Kuhne G, Frei G, Grunzweig C, Josic L, Schmid F, Lehmann EH (2011) The ICON beamline A facility for cold neutron imaging at SINQ. Nucl Instrum Methods Phys Res Sect A 659:387
Kapp L, Kapp H, Yoshihara Y (1987) The craft of the Japanese sword, Kodansha International
Kapp L et al (1998) The craft of the Japanese sword. Kodansha International
Kardjilov N, Dawson M, Hilger A, Manke I, Strobl M, Penumadu D, Kim FH, Garcia-Moreno F, Banhart J (2011) A highly adaptive detector system for high resolution neutron imaging. Nucl Instrum Methods Phys Res A 651(1):95–99
Lehmann E, Hartmann S (2010) Investigation of the content of ancient Tibetan metallic Buddha statues by means of neutron imaging methods. Archaeometry 52(3):416–428
Lehmann EH, Kaestner A, Josic L, Hartmann S, Mannes D (2011) Imaging with cold neutrons. Nucl Instrum Methods Phys Res Sect A 651(1):161–165
Nagayama K (1997) The Connoisseurs book of Japanese swords. Kodansha International
Notis MR (2000) The history of the metallographic study of the Japanese sword. Mater Charact 45:253–258 (and references within)
Peetermans S, Grazzi F, Salvemini F, Lehmann E (2013) Spectral characterization of a velocity selector type monochromator for energy-selective neutron imaging. Phys Procedia 43:121–127
Piaskowski J, Hist J (1993) Met Soc 27:110
Robinson BW (1970) The arts of the Japanese sword. R. MacLehose and Company
Sakakibara K (1963) 1800 The manufacture of armour and helmets in 16th century Japan:(chūkokatchūseisakuben). In: Robinson, Russel H (ed, rev) Hogitarō Inada, 1912 (trans: Wakameda T, revised by Koop AJ). The Holland Press, London
Salvemini F (2014) Development of innovative methodologies for non-invasive characterization of metal artefacts of archaeological, historical, and industrial interest, through neutron diffraction and neutron imaging techniques. Ph.D. thesis in DOTTORATO DI RICERCA IN Scienza per la Conservazione dei Beni Culturali, supervisors M Zoppi and F Grazzi
Salvemini F, Grazzi F, Peetermans S, Civita F, Franci R, Hartmann S, Lehmann E, Zoppi M (2012) Quantitative characterization of Japanese ancient swords through energy-resolved neutron imaging. J Anal At Spectrom 27:1347–1354
Salvemini F, Grazzi F, Kardjilov N, Manke I, Civita F, Zoppi M (2015) Neutron computed laminography on ancient metal artefacts. Anal Methods 7:271–278
Sato K (1997) The Japanese sword: a comprehensive guide. Kodansha International
Sears VF (1992) Neutron News 3:29
Sinclaire C (2004) Samurai: the weapons and spirit of the Japanese warrior. The Lyons Press, Guilford
Squires GL (1996) Introduction to the theory of Thermal Neutron Scattering. Dover Publication Inc. New York
Sugimori E (2004) Japanese patinas, Brynmorgen Press
Tawara K (1953) Nippon-to no Kogataki Kenkyu (Scientific study of Japanese swords). Tokyo
Yumoto JM (1958) The Samurai sword. A handbook. Tuttle, Tokyo
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Salvemini, F., Grazzi, F. (2017). The Glory of Ancient Weapons and Armors: Neutron Imaging and Diffraction Methods in Modern Archaeology. In: Kardjilov, N., Festa, G. (eds) Neutron Methods for Archaeology and Cultural Heritage. Neutron Scattering Applications and Techniques. Springer, Cham. https://doi.org/10.1007/978-3-319-33163-8_5
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