A MICRO-RAMAN AND INTERNAL MICROSTRATIGRAPHIC STUDY OF CERAMIC SHERDS FROM THE KILNS OF THE MEDICI CASTLE AT CAFAGGIOLO

被引：8

作者：

De Santis, A. ^{[4
]}

Mattei, E. ^{[3
]}

Montini, I. ^{[1
,2
]}

Pelosi, C. ^{[1
,2
]}

机构：

[1] Univ Tuscia, Dipartimento DISBEC, Fac Conservaz Beni Culturali, Viterbo, Italy

[2] Socio AIAr, Viterbo, Italy

[3] Univ Tuscia, Fac Econ, CINTEST, Viterbo, Italy

[4] Univ Tuscia, Dipartimento DECOS, Fac Agr, Viterbo, Italy

来源：

ARCHAEOMETRY | 2012年 / 54卷

关键词：

MICRO-RAMAN SPECTROSCOPY; CERAMICS; GLAZE; ENGOBE; MAIOLICA; PIGMENT IDENTIFICATION; SPECTROSCOPY; ANCIENT; ANATASE; YELLOW; DIFFERENTIATION; DEGRADATION; ARCHAEOLOGY; SCATTERING; PAINTINGS;

D O I：

10.1111/j.1475-4754.2011.00604.x

中图分类号：

K85 [文物考古];

学科分类号：

0601 ;

摘要：

Nine representative sherds from the old (14th16th century) kilns at the Castle of Cafaggiolo in Tuscany have been analysed by means of internal microstratigraphic analyses and micro-Raman spectroscopy and classified as follows: six engobed and glazed fragments, of which three are covered with an opaque white, decorated layer, one is marbleized, and two are engobed. The surface of the two engobed sherds, fragments of unfinished products, indicates that at least two firing processes were used. Two samples show characteristics of Byzantine pottery, and three of them can be classified as Islamic ware or maiolica, whilst the other one displays intermediate characteristics. The variety of ceramic wares indicates the presence of craftsmen with differing expertise, and suggests that part of their work was dedicated to experimentation on new ceramic production techniques.

引用

页码：114 / 128

页数：15

共 57 条

[1] Excitation frequency dependence and fluorescence in the Raman spectra of Al2O3 [J].

Aminzadeh, A .

APPLIED SPECTROSCOPY, 1997, 51 (06) :817-819

[2]

Bouchard M., 2007, SELECTED TOPICS RAMA, P99

[3] An investigation of the feasibility of applying Raman microscopy for exploring stained glass [J].

Bouchard, Michel ;

Smith, David C. ;

Carabatos-Nedelec, Constantin .

SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY, 2007, 68 (04) :1101-1113

[4] Analysis of key Anglo-Saxon manuscripts (8-11th centuries) in the British Library: pigment identification by Raman microscopy [J].

Brown, KL ;

Clark, RJH .

JOURNAL OF RAMAN SPECTROSCOPY, 2004, 35 (03) :181-189

[5] Analysis of pigmentary materials on the Vinland Map and tartar relation by Raman microprobe spectroscopy [J].

Brown, KL ;

Clark, RJH .

ANALYTICAL CHEMISTRY, 2002, 74 (15) :3658-3661

[6] Raman spectroscopy as a means for the identification of plattnerite (PbO2), of lead pigments and of their degradation products [J].

Burgio, L ;

Clark, RJH ;

Firth, S .

ANALYST, 2001, 126 (02) :222-227

[7]

CHARLESTON R J., 1955, Roman Pottery

[8] Assessing fire damage to r.c. elements [J].

Cioni, P ;

Croce, P ;

Salvatore, W .

FIRE SAFETY JOURNAL, 2001, 36 (02) :181-199

[9] SYNTHESIS, STRUCTURAL CHARACTERIZATION AND RAMAN-SPECTROSCOPY OF THE INORGANIC PIGMENTS LEAD-TIN YELLOW TYPE-I AND TYPE-II AND LEAD ANTIMONATE YELLOW - THEIR IDENTIFICATION ON MEDIEVAL PAINTINGS AND MANUSCRIPTS [J].

CLARK, RJH ;

CRIDLAND, L ;

KARIUKI, BM ;

HARRIS, KDM ;

WITHNALL, R .

JOURNAL OF THE CHEMICAL SOCIETY-DALTON TRANSACTIONS, 1995, (16) :2577-2582

[10] Can the Raman spectrum of anatase in artwork and archaeology be used for dating purposes? Identification by Raman microscopy of anatase in decorative coatings on Neolithic (Yangshao) pottery from Henan, China [J].

Clark, Robin J. H. ;

Wang, Quanyu ;

Correia, Andreia .

JOURNAL OF ARCHAEOLOGICAL SCIENCE, 2007, 34 (11) :1787-1793

← 1 2 3 4 5 6 →