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Title: Complementary use of monochromatic and white-beam X-ray micro-diffraction for the investigation of ancient materials

Journal Article · · Journal of Applied Crystallography (Online)
 [1];  [2];  [2];  [3];  [4]
  1. ETH Zurich, Zurich (Switzerland)
  2. Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States)
  3. CNRS - Univ. de Poitiers - ENSMA, Futuroscope (France)
  4. CEMES - CNRS - Univ. de Toulouse, Toulouse (France)
+ Show Author Affiliations

Archaeological artefacts are often heterogeneous materials where several phases coexist in a wide grain size distribution. Most of the time, retrieving structure information at the micrometre scale is of great importance for these materials. Particularly, the organization of different phases at the micrometre scale is closely related to optical or mechanical properties, manufacturing processes, functionalities in ancient times and long-term conservation. Between classic X-ray powder diffraction with a millimetre beam and transmission electron microscopy, a gap exists and structure and phase information at the micrometre scale are missing. Using a micrometre-size synchrotron X-ray beam, a hybrid approach combining both monochromatic powder micro-diffraction and Laue single-crystal micro-diffraction was deployed to obtain information from nanometre- and micrometre-size phases, respectively. Therefore providing a way to bridge the aforementioned gap, this unique methodology was applied to three different types of ancient materials that all show a strong heterogeneity. In Roman terra sigillata, the specific distribution of nanocrystalline hematite is mainly responsible for the deep-red tone of the slip, while the distribution of micrometre-size quartz in ceramic bodies reflects the change of manufacturing process between pre-sigillata and high-quality sigillata periods. In the second example, we investigated the modifications occurring in Neolithic and geological flints after a heating process. By separating the diffracted signal coming from the nano- and the micrometre scale, we observed a domain size increase for nanocrystalline quartz in geological flints and a relaxation of the residual strain in larger detritic quartz. In conclusion, through the study of a Roman iron nail, we showed that the carburation process to strengthen the steel was mainly a surface process that formed 10–20 µm size domains of single–crystal ferrite and nanocrystalline cementite.

Research Organization:
Lawrence Berkeley National Laboratory (LBNL), Berkeley, CA (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Basic Energy Sciences (BES)
Grant/Contract Number:
AC02-05CH11231
OSTI ID:
1392969
Journal Information:
Journal of Applied Crystallography (Online), Vol. 48, Issue 5; ISSN 1600-5767
Publisher:
International Union of CrystallographyCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 11 works
Citation information provided by
Web of Science

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Cited By (6)

X‐ray Diffraction Mapping for Cultural Heritage Science: a Review of Experimental Configurations and Applications journal November 2019
Thermal analysis and multi-analytical comparison of samples of Neolithic ceramics from Dnepr–Dvina and Low Don regions journal August 2019
The mechanical properties of heat-treated rocks: a comparison between chert and silcrete journal September 2018
Lattice strain and tilt mapping in stressed Ge microstructures using X-ray Laue micro-diffraction and rainbow filtering journal August 2016
The status of imported Barremian-Bedoulian flint in north-eastern Iberia during the Middle Neolithic. Insights from the variscite mines of Gavà (Barcelona) journal November 2019
Quantitative microstructural imaging by scanning Laue x-ray micro- and nanodiffraction journal June 2016

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36 MATERIALS SCIENCE
cultural heritage materials
Laue microdiffraction
powder microdiffraction
grain size
residual strain