Access the full text.
Sign up today, get DeepDyve free for 14 days.
(2017)
Preliminary results of an archaeometric study on some fragments of Fustat Fatimid sgraffito ceramics, Anno CIII -n. 1, a cura di C. Casali
(2014)
Modelling of thermo-mechanical behaviour of preindustrial ceramics: functional analysis via an experimental and a numerical approach. PLINIUS n 40:38–41
Richard Thér (2020)
Ceramic technology. How to reconstruct and describe pottery-forming practicesArchaeological and Anthropological Sciences, 12
E. Gliozzo (2020)
Ceramics investigation: research questions and sampling criteriaArchaeological and Anthropological Sciences, 12
(2008)
Archaeometric characterisation of the Neolithic pottery discovered at Alba Julia - LumeaNoua archaeological site ( Romania ) , StudiaUniversitatis Babe ș - Bolyai . Chemia
(2014)
A (2014) The effect of temper on the thermal conductivity of traditional ceramics: nature, percentage and granulometry. ThermochimicaActa
G. Eramo (2020)
Ceramic technology: how to recognize clay processingArchaeological and Anthropological Sciences, 12
D. Santacreu (2014)
Materiality, Techniques and Society in Pottery Production: The Technological Study of Archaeological Ceramics through Paste Analysis
C. Belfiore, P. Day, A. Hein, V. Kilikoglou, V. Rosa, P. Mazzoleni, A. Pezzino (2007)
PETROGRAPHIC AND CHEMICAL CHARACTERIZATION OF POTTERY PRODUCTION OF THE LATE MINOAN I KILN AT HAGHIA TRIADA, CRETE*Archaeometry, 49
D. Munz, R. Bubsey, J. Shannon (1980)
Fracture Toughness Determination of A12O3 Using Four‐Point‐Bend Specimens with Straight‐Through and Chevron NotchesJournal of the American Ceramic Society, 63
(1999)
An approach to the dy
(2010)
Tecnologie di realizzazione degli smalti in Isfahan: continuità e modernità in Atti del Convegno Nazionale dell'Associazione
A. Iordanidis, J. Garcia-Guinea, G. Karamitrou-Mentessidi (2009)
Analytical study of ancient pottery from the archaeological site of Aiani, northern GreeceMaterials Characterization, 60
Bernardino Strazzera, M. Dondi, M. Marsigli (1997)
Composition and ceramic properties of tertiary clays from southern Sardinia (Italy)Applied Clay Science, 12
(2007)
Ceramic materials -science and engineering, springer science + business media LLC
(2020)
Isotopic investigations
Jean-François Lapérouse (2020)
Ceramic musealization: how ceramics are conserved and the implications for researchArchaeological and Anthropological Sciences, 12
G. Montana, B. Fabbri, S. Santoro, S. Gualtieri, I. Iliopoulos, G. Guiducci, S. Mini (2007)
PANTELLERIAN WARE: A COMPREHENSIVE ARCHAEOMETRIC REVIEW*Archaeometry, 49
T. Pradell, J. Molera (2020)
Ceramic technology. How to characterise ceramic glazesArchaeological and Anthropological Sciences, 12
M. Riccardi, B. Messiga, P. Duminuco (1999)
An approach to the dynamics of clay firingApplied Clay Science, 15
(2013)
2013).Indagini archeometriche sulla porcellana di
(2020)
Ceramic musealisation: how ceramics are conserved and the implications for research
I. Papageorgiou (2020)
Ceramic investigation: how to perform statistical analysesArchaeological and Anthropological Sciences, 12
B. Fabbri, S. Gualtieri, F. Amato (2014)
Capodimonte porcelain: A unique manufacture
(1988)
Le argille lacustri plio-pleistoceniche di Garfagnana (LU), Lunigiana (MS) e Val di Vara (SP): caratteristiche chimico-mineralogiche e proprietà tecnologiche ai fini di un loro impego ceramico
(2007)
Pantellerian ware: a comprehensive archaeometric
F. Kristály, L. Gömze (2008)
Remnants of organic pore-forming additives in conventional clay brickmaterials: Optical Microscopy and Scanning Electron Microscopy studyEpitoanyag-Journal of Silicate Based and Composite Materials, 60
(2013)
Indagini archeometriche sulla porcellana di Capodimonte e criteri di base per una classificazione delle porcellane
(1993)
Caratteri geochimici, mineralogici e granulometrici di peliti alluvionali quaternarie dell'Emilia-Romagna (Italia settentrionale)
A. Gualtieri (2000)
Accuracy of XRPD QPA using the combined Rietveld–RIR methodJournal of Applied Crystallography, 33
L. Maritan (2020)
Ceramic abandonment. How to recognise post-depositional transformationsArchaeological and Anthropological Sciences, 12
Sabbie silicee locali nella produzione della ceramica graffita di Castelnovo del Friuli (PN): un'ipotesi possibile? Atti della VII Giornata di Archeometria della Ceramica
(2008)
Sulle orme dei primi ceramisti -on the traces of earlypotters
G. Montana (2020)
Ceramic raw materials: how to recognize them and locate the supply basins—mineralogy, petrographyArchaeological and Anthropological Sciences, 12
(1980)
Fracture toughness determi
(2014)
The presence of calcite in archaeological ceramics
C. Coelho, N. Roqueiro, D. Hotza (2002)
Rational mineralogical analysis of ceramicsMaterials Letters, 52
B. Lawn (1993)
Fracture of Brittle Solids by Brian Lawn
(2008)
Uso consapevole dei carbonati nella ceramica enotriogeometrica di Sala Consilina
(2002)
Materials and techniques of the ceramic wall facings in the Timurid necropolis of ShahiZinda
A. Hein, V. Kilikoglou (2020)
Ceramic raw materials: how to recognize them and locate the supply basins: chemistryArchaeological and Anthropological Sciences, 12
(2011)
Temperature evolution
L. Maritan, L. Nodari, C. Mazzoli, A. Milano, U. Russo (2006)
Influence of firing conditions on ceramic products: Experimental study on clay rich in organic matterApplied Clay Science, 31
S. Shoval, Michael Gaft, P. Beck, Y. Kirsh (1993)
Thermal behaviour of limestone and monocrystalline calcite tempers during firing and their use in ancient vesselsJournal of Thermal Analysis, 40
M. Dondi, G. Ercolani, B. Fabbri, G. Guarini, M. Marsigli, C. Mingazzini (1999)
Major deposits of brick clays in Italy, Part 1 : Geology and compositionTile & brick international, 15
B. Fabbri, S. Gualtieri, A. Ruffini, K. Movassaghi, M. Alavi (2004)
Compositional and Technological Characteristics of the Inlay Wall Facing Ceramics of the Jamé Mosque in Esfahan (Iran )Key Engineering Materials, 264-268
(2017)
Scian AN (2017) Ceramic materials porous
(2008)
Archaeometric characterisation of the Neolithic pottery discovered at Alba Julia-LumeaNoua archaeological site (Romania)
R. Ion, R. Fierăscu, S. Teodorescu, IrinaFierăscu, I. Bunghez, Daniela Ţurcanu-Caruțiu, Mihaela-Lucia Ion (2016)
Ceramic Materials Based on Clay Minerals in Cultural Heritage Study
A. Galli, E. Sibilia, M. Martini (2020)
Ceramic chronology by luminescence dating: how and when it is possible to date ceramic artefactsArchaeological and Anthropological Sciences, 12
M. Martinón-Torres (2014)
Craft and science: International perspectives on archaeological ceramics
(2003)
Le "argille bianche" del Tretto e della Val Leogra (Vicenza): giacimenti, composizione, proprietà tecnologiche ed impieghi industriali
(2007)
Le terrecotte invetriate di Andrea della Robbia: studio archeometrico dei rivestimenti e degli impasti ceramici
C. Ionescu, V. Hoeck (2020)
Ceramic technology. How to investigate surface finishingArchaeological and Anthropological Sciences, 12
A. Mocciaro, M. Lombardi, A. Scian (2017)
Ceramic Material Porous Structure Prepared Using Pore-Forming AdditivesRefractories and Industrial Ceramics, 58
(2013)
Atti del Convegno Internazionale Fonti Storico -Tecniche della Porcellana Italiana
(1996)
Engineering materials I, 2nd edn
(1993)
Fracture of brittle solids, 2nd edn
E. Gliozzo (2020)
Ceramic technology. How to reconstruct the firing processArchaeological and Anthropological Sciences, 12
B. Fabbri, S. Gualtieri, R. Lorenzi (2013)
Preliminary archaeometric study of the Neolithic pottery from the “Le Grottelline” site (Spinazzola, Italy)Archaeological and Anthropological Sciences, 5
(1997)
Il contributo delle analisi archeometriche allo studio delle ceramiche grezze e comuni, il rapporto funzione/impasto, Atti della 1 giornata di archeometria della ceramica
(2017)
Argille e Materiali ceramici -parte II
O. Rye (1976)
Keeping your temper under control: materials and the manufacture of Papuan potteryArchaeology and Physical Anthropology in Oceania, 11
(2017)
Elementi di Petrografia Applicata
G. Cultrone, E. Sebastián, M. Torre (2005)
Mineralogical and physical behaviour of solid bricks with additivesConstruction and Building Materials, 19
(2008)
Ancient ceramic stoves from Sfruz -Val di Non, Trentino, Italy. Production, history, raw materials and techniques. Relations with other centres
B. Fabbri, S. Gualtieri, E. Acquaro (2014)
Archaeometric investigation of Punic lamps from Ibiza (Balearic Islands, Spain)
Contribution for a mineralogical thermometer to be applied to low fired and/or non-carbonate ceramics
(2017)
Preliminary results of an archaeometric study
I. Allegretta (2014)
Modelling of thermo-mechanical behaviour of pre-industrial ceramics: functional analysis via an experimental and a numerical approach, 40
(2009)
Tecnologie di realizzazione degli smalti in Isfahan: continuità e modernità in Atti del Convegno Nazionale dell'Associazione Italiana di Archeometria (Ravenna
P. Sciau, Corinne Sanchez, E. Gliozzo (2020)
Ceramic technology: how to characterize terra sigillata wareArchaeological and Anthropological Sciences, 12
(2002)
Materials and techniques of the ceramic wall facings in the Timurid necropolis of ShahiZinda (Samarkand, Uzbekistan). EMAC’99
I. Allegretta, G. Eramo, D. Pinto, A. Hein (2014)
The effect of temper on the thermal conductivity of traditional ceramics: Nature, percentage and granulometryThermochimica Acta, 581
(2007)
Le terrecotte invetriate di Andrea della Robbia: studio archeometrico dei rivestimenti e degli impasti ceramici, Atti del IV congresso di Archeometria della Ceramica, C. D'amico (a cura di
E. Aloupi-Siotis (2020)
Ceramic technology: how to characterise black Fe-based glass-ceramic coatingsArchaeological and Anthropological Sciences, 12
(2007)
Ceramic materials - science and engineering, springer science + business media
SP): caratteristiche chimico-mineralogiche e proprietà tecnologiche ai fini di un loro impego ceramico
(2008)
Archaeometric characterisation of the Neolithic pottery discovered at Alba Julia-LumeaNoua archaeological site (Romania), StudiaUniversitatis Babeș-Bolyai
(2008)
Sulle orme dei primi ceramisti - on the traces of earlypotters, CNR Edizioni
J. Henderson, Hongjiao Ma, Jianfeng Cui, Renjie Ma, Hongyan Xiao (2020)
Isotopic investigations of Chinese ceramicsArchaeological and Anthropological Sciences, 12
M. Maggetti, C. Neururer, Denis Ramseyer (2011)
Temperature evolution inside a pot during experimental surface (bonfire) firingApplied Clay Science, 53
Publisher's note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations
(2001)
Tecnologia Ceramica. Le materie primevol. I, Faenza, Gruppo Editoriale Faenza editrice S
(2003)
Zanferrari A (2005) Sabbie silicee locali nella produzione della ceramica graffita di Castelnovo del Friuli (PN): un’ipotesi possibile
The aim of this paper is to highlight the importance of raw materials in the production of ceramic artefacts. A brief but in-depth explanation is provided to emphasise the connections between raw materials and ceramic products. A step by step approach is developed with the aim of illustrating the different ceramic raw materials and their features and describing the effects of each component on the characteristics of the end products with particular attention to their function and use. When a potter makes an object in fact, this was already conceived thinking for a specific purpose.
Archaeological and Anthropological Sciences – Springer Journals
Published: Jul 21, 2020
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.