Nuclear magnetic resonance (NMR) portable devices are now being used for nondestructive in situ analysis of water content, pore space structure and protective treatment performance in porous media in the field of cultural heritage. It is a standard procedure to invert T1 and T2 relaxation data of fully water-saturated samples to get bpore sizeQ distributions, but the use of T2 requires great caution. It is well known that dephasing effects due to water molecule diffusion in a magnetic field gradient can affect transverse relaxation data, even if the smallest experimentally available half echo time s is used in Carr–Purcell–Meiboom–Gill experiments. When a portable single-sided NMR apparatus is used, large field gradients due to the instrument, at the scale of the sample, are thought to be the dominant dephasing cause. In this paper, T1 and T2 (at different s values) distributions were measured in natural (Lecce stone) and artificial (brick samples coming from the Greek–Roman Theatre of Taormina) porous media of interest for cultural heritage by a standard laboratory instrument and a portable device. While T1 distributions do not show any appreciable effect from inhomogeneous fields, T2 distributions can show strong effects, and a procedure is presented based on the dependence of 1/T2 on s to separate pore-scale gradient effects from sample-scale gradient effects. Unexpectedly, the gradient at the pore scale can be, in some cases, strong enough to make negligible the effects of gradients at the sample scale of the singlesided device.

M. Brai, M. Camaiti, C. Casieri, F. De Luca, P. Fantazzini (2007). Nuclear Magnetic Resonance for Cultural Heritage. MAGNETIC RESONANCE IMAGING, 25, 461-465 [10.1016/j.mri.2006.11.007].

Nuclear Magnetic Resonance for Cultural Heritage

CAMAITI, MARA;FANTAZZINI, PAOLA
2007

Abstract

Nuclear magnetic resonance (NMR) portable devices are now being used for nondestructive in situ analysis of water content, pore space structure and protective treatment performance in porous media in the field of cultural heritage. It is a standard procedure to invert T1 and T2 relaxation data of fully water-saturated samples to get bpore sizeQ distributions, but the use of T2 requires great caution. It is well known that dephasing effects due to water molecule diffusion in a magnetic field gradient can affect transverse relaxation data, even if the smallest experimentally available half echo time s is used in Carr–Purcell–Meiboom–Gill experiments. When a portable single-sided NMR apparatus is used, large field gradients due to the instrument, at the scale of the sample, are thought to be the dominant dephasing cause. In this paper, T1 and T2 (at different s values) distributions were measured in natural (Lecce stone) and artificial (brick samples coming from the Greek–Roman Theatre of Taormina) porous media of interest for cultural heritage by a standard laboratory instrument and a portable device. While T1 distributions do not show any appreciable effect from inhomogeneous fields, T2 distributions can show strong effects, and a procedure is presented based on the dependence of 1/T2 on s to separate pore-scale gradient effects from sample-scale gradient effects. Unexpectedly, the gradient at the pore scale can be, in some cases, strong enough to make negligible the effects of gradients at the sample scale of the singlesided device.
2007
M. Brai, M. Camaiti, C. Casieri, F. De Luca, P. Fantazzini (2007). Nuclear Magnetic Resonance for Cultural Heritage. MAGNETIC RESONANCE IMAGING, 25, 461-465 [10.1016/j.mri.2006.11.007].
M. Brai; M. Camaiti; C. Casieri; F. De Luca; P. Fantazzini
File in questo prodotto:
Eventuali allegati, non sono esposti

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/46884
 Attenzione

Attenzione! I dati visualizzati non sono stati sottoposti a validazione da parte dell'ateneo

Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 30
  • ???jsp.display-item.citation.isi??? 27
social impact