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Lead in Glassy Materials in Cultural Heritage
| Lead in Glassy Materials in Cultural Heritage |
| Autore | Bouquillon Anne |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Newark : , : John Wiley & Sons, Incorporated, , 2024 |
| Descrizione fisica | 1 online resource (371 pages) |
| Altri autori (Persone) | LehuédéPatrice |
| ISBN |
1-394-26541-7
1-394-26539-5 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Foreword by Isabelle Pallot-Frossard -- Foreword by Daniel R. Neuville -- Introduction -- Part 1. Overview and Specific Techniques for the Analysis of Lead Glasses and Glaze -- Chapter 1. Overview -- 1.1. Advantages brought by lead -- 1.1.1. Lead oxide as fluxing agent -- 1.1.2. Influence of lead oxide on viscosity -- 1.1.3. Influence of lead oxide on the expansion coefficient -- 1.1.4. Influence of lead oxide on surface energy -- 1.1.5. Influence of lead oxide on the color -- 1.1.6. Influence of lead oxide on devitrification -- 1.1.7. Influence of lead oxide on glass redox -- 1.1.8. Influence of lead oxide on glass durability -- 1.1.9. Influence of lead oxide on glass density -- 1.1.10. Influence of lead oxide on optical properties -- 1.1.11. Influence of lead oxide on the mechanical properties -- 1.1.12. Influence of lead content on the absorption of ionizing radiation -- 1.1.13. Miscellanea -- 1.2. Difficulties related to the use of lead oxide -- 1.2.1. Elaboration difficulties -- 1.2.2. Public health problems -- 1.3. Conclusion -- 1.4. References -- Chapter 2. Lead Isotopes for the Study of Ancient Glass -- 2.1. Lead isotope chemistry -- 2.2. The use of lead isotopes in archaeology -- 2.3. Lead isotopic analysis of glassy material -- 2.3.1. Sample introduction -- 2.3.2. Ion detection MC-ICP-MS -- 2.3.3. Data reduction and mass bias correction -- 2.3.4. Interpretation of results -- 2.4. O, Sr, Nd and B isotopes for studying archaeological glass -- 2.4.1. Sources of different elements in glass -- 2.4.2. Sr isotopes in glass -- 2.4.3. Nd isotopes in glass -- 2.4.4. B isotopes in glass -- 2.4.5. O isotopes in glass -- 2.5. Conclusion and future perspectives -- 2.6. Acknowledgments -- 2.7. References -- Part 2. Structure of Lead Glasses: Influence on their Properties, Including Color.
Chapter 3. Structure and Properties of Lead Silicate Glasses -- 3.1. Introduction -- 3.2. Lead and lead oxides -- 3.2.1. Elementary lead and its specific properties -- 3.2.2. Lead stereochemistry in oxides -- 3.3. Crystal phases and glasses of the SiO2-PbO system -- 3.3.1. The binary SiO2-PbO system at equilibrium -- 3.3.2. Crystal phases of the binary SiO2-PbO system -- 3.3.3. Glasses of the binary SiO2-PbO system -- 3.4. Glasses of the SiO2-PbO-R2O system (R = Na, K) -- 3.4.1. Overview of ternary SiO2-PbO-R2O glasses -- 3.4.2. Structure of ternary SiO2-PbO-R2O glasses -- 3.5. Glasses of the SiO2-PbO-Al2O3 system -- 3.5.1. Overview of ternary SiO2-PbO-Al2O3 glasses -- 3.5.2. Structure of ternary SiO2-Al2O3-PbO glasses -- 3.6. Conclusion -- 3.7. References -- Chapter 4. Optical Properties and Coloration of Lead Silicate Glasses -- 4.1. Physical bases of optical properties and the origins of glass color -- 4.1.1. Complex refractive index and the main optical properties -- 4.1.2. Coloring species in glasses -- 4.2. Optical properties and color of transparent SiO2-PbO-M2O glasses -- 4.2.1. Electronic structure and color of lead oxides PbO -- 4.2.2. Electronic structure, optical properties and color of SiO2-PbO (-M2O) glasses -- 4.3. SiO2-PbO-M2O glasses colored by transition ions -- 4.3.1. Optical absorption spectroscopy and origin of color changes -- 4.3.2. Variation of the local environment of Cu2+ ions depending on the type of glass -- 4.4. References -- Part 3. History and Evolution of Lead Glasses -- Chapter 5. Lead in the Recipes of the Middle Ages and Renaissance -- 5.1. The first written sources mentioning the use of lead -- 5.2. Recipes of translucent and opaque lead glasses from the Middle Ages and Renaissance -- 5.2.1. Middle Ages -- 5.2.2. Italian Renaissance -- 5.3. Conclusion -- 5.4. References -- Chapter 6. The First Lead Glasses. 6.1. Introduction -- 6.2. Glasses of the Eastern Mediterranean from the second and first millennia BC -- 6.2.1. Yellow and green glasses -- 6.2.2. Red glasses -- 6.2.3. Hellenistic glasses containing antimony -- 6.2.4. Tin oxide-opacified glasses -- 6.3. Lead glasses in Asia starting with the second half of the first millennium BC -- 6.3.1. Lead-barium (Pb-Ba) glasses -- 6.3.2. Lead glasses in the strict sense (Pb-Si) -- 6.3.3. Lead-potash glasses (Pb-K) -- 6.4. Medieval lead glasses in Western Europe -- 6.4.1. The Merovingian period (end of fifth century-first third of eighth century) -- 6.4.2. From the Carolingian period (middle of the eighth century to the 10th century) to the beginning of the modern period -- 6.5. European lead glasses, from the beginning of the modern period until the invention of crystal glass -- 6.6. Conclusion -- 6.7. References -- Chapter 7. Lead in Glasses: Recent Times -- 7.1. The adventure of lead crystal glass -- 7.1.1. The creation of crystal glass -- 7.1.2. The development of lead crystal glass -- 7.2. New colorants of lead glass -- 7.2.1. Chromium -- 7.2.2. Nickel -- 7.2.3. Uranium -- 7.2.4. Selenium -- 7.2.5. Rare earths -- 7.2.6. Coloration by colloidal particles -- 7.3. The new opacifiers -- 7.4. The new processes of crystal glass decoration -- 7.4.1. Engraving -- 7.4.2. Iridescence -- 7.5. New glassmaking techniques -- 7.5.1. Strass -- 7.5.2. Flashed glass -- 7.5.3. Millefiori glass -- 7.5.4. Pate de verre -- 7.5.5. Lampworking glass, glass fibers -- 7.6. Conclusion -- 7.7. References -- Chapter 8. Early Islamic Lead Glass -- 8.1. Introduction -- 8.2. Islamic lead silica glass (m.n.) from the Near East -- 8.2.1. Geographical and chronological patterns -- 8.2.2. Potential lead sources -- 8.2.3. The ambiguity of the term m.n. -- 8.3. Lead slag glass from -- 8.4. Soda ash lead glass from al-Andalus. 8.5. Concluding remarks -- 8.6. References -- Chapter 9. Lead in the Enamels of the Middle Ages and Renaissance -- 9.1. Limoges champlevé enamels on copper from the Middle Ages -- 9.1.1. Enameling techniques -- 9.1.2. Composition of enamels and lead content -- 9.1.3. Recipes employed for type 2 enamels -- 9.2. The so-called Venetian enameled coppers of the Italian Renaissance -- 9.2.1. Manufacturing techniques -- 9.2.2. Chemical composition of the base glass used for these enamels -- 9.2.3. Lead glasses -- 9.2.4. Lead origin: manufacturing a lead-tin calx powder -- 9.3. References -- Part 4. History, Implementation and Evolution of Lead Glazes -- Chapter 10. History of Lead in Ancient Ceramic Materials -- 10.1. Introduction -- 10.2. Properties and implementation of lead glazes -- 10.3. The first lead glazes -- 10.3.1. In China -- 10.3.2. In Asia Minor and in the Roman world -- 10.3.3. Reasons for an emergence -- 10.4. Dissemination and evolution of the lead glazing technique in the high Antiquity -- 10.4.1. In the Near-Eastern and Western world -- 10.4.2. In China -- 10.5. Hybridization of lead glazes with other ceramic traditions -- 10.6. The importance of lead-rich glassy materials in the race for porcelain -- 10.7. Innovations brought by Islamic potters of eighth to ninth century: the place of lead glassy materials -- 10.7.1. Addition of milled lead glass in the paste or in the slip -- 10.7.2. Tin-opacified alkali-lead glazes: emergence of faïences -- 10.8. Soft-paste porcelains: lead glaze on translucent paste -- 10.9. Lead-rich vitrified paints -- 10.10. Conclusion -- 10.11. References -- Chapter 11. Paste-Glaze Interaction -- 11.1. Context -- 11.2. Paste-glaze interface -- 11.3. Factors affecting the paste-glaze interface -- 11.3.1. Composition of the body (Ca-rich clays or siliceous ones) and its state (raw or fired). 11.3.2. Composition of the glaze mixture -- 11.3.3. Viscosity and solubility of the body and glaze components -- 11.3.4. Thermal history of the ceramic body-glaze system -- 11.4. Cross-diffusion of chemical elements -- 11.5. Morphology of the interface -- 11.6. Identification of crystalline phases at the interface -- 11.6.1. Lead feldspar -- 11.6.2. Wollastonite (CaSiO3), anorthite (CaAl2Si2O8), Ca-Mg pyroxenes -- 11.6.3. Phases rich in Na -- 11.6.4. Mullite (3Al2O3-2SiO2) -- 11.6.5. Phases rich in colorant or opacifier -- 11.7. Interface as an indicator of elaboration processes -- 11.7.1. Simple or double firing, raw or fired substrate -- 11.7.2. Application of PbO or PbO + SiO2 mixtures -- 11.7.3. Firing protocol -- 11.7.4. Al2O3 origin: glaze mixture or paste? -- 11.8. Influence of interface on the physical properties -- 11.8.1. Thermal expansion -- 11.8.2. Adherence defects -- 11.8.3. Mechanical resistance -- 11.8.4. Color -- 11.9. Conclusion -- 11.10. References -- Chapter 12. Weathering of Ancient Lead Glazes -- 12.1. Slightly weathered glazes -- 12.2. Weak iridescences and pinholes -- 12.3. Advanced weathering in the context of burial -- 12.4. Protection of lead-glazed weathered objects by sol-gel methods -- 12.5. Conclusion -- 12.6. References -- Part 5. Weathering of Lead Glasses and Standards -- Chapter 13. Lead Leaching in Industrial Crystal Glasses: Role of Chemical Composition, Structure and Surface Treatments -- 13.1. Influence of lead content on crystal glass structure -- 13.2. Leaching mechanisms of lead glasses -- 13.2.1. Low reaction progress experiments -- 13.2.2. High reaction progress experiments -- 13.2.3. Structure of the alteration layer -- 13.3. Industrial surface treatments limiting lead release by crystal glass -- 13.3.1. Acid polishing -- 13.3.2. Incorporation of a surface glass during forming. 13.3.3. Sol-gel deposition of a glassy layer. |
| Record Nr. | UNINA-9910830050303321 |
Bouquillon Anne
|
||
| Newark : , : John Wiley & Sons, Incorporated, , 2024 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Lead in Glassy Materials in Cultural Heritage
| Lead in Glassy Materials in Cultural Heritage |
| Autore | Bouquillon Anne |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Newark : , : John Wiley & Sons, Incorporated, , 2024 |
| Descrizione fisica | 1 online resource (371 pages) |
| Altri autori (Persone) | LehuédéPatrice |
| ISBN |
1-394-26541-7
1-394-26539-5 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Cover -- Title Page -- Copyright Page -- Contents -- Foreword by Isabelle Pallot-Frossard -- Foreword by Daniel R. Neuville -- Introduction -- Part 1. Overview and Specific Techniques for the Analysis of Lead Glasses and Glaze -- Chapter 1. Overview -- 1.1. Advantages brought by lead -- 1.1.1. Lead oxide as fluxing agent -- 1.1.2. Influence of lead oxide on viscosity -- 1.1.3. Influence of lead oxide on the expansion coefficient -- 1.1.4. Influence of lead oxide on surface energy -- 1.1.5. Influence of lead oxide on the color -- 1.1.6. Influence of lead oxide on devitrification -- 1.1.7. Influence of lead oxide on glass redox -- 1.1.8. Influence of lead oxide on glass durability -- 1.1.9. Influence of lead oxide on glass density -- 1.1.10. Influence of lead oxide on optical properties -- 1.1.11. Influence of lead oxide on the mechanical properties -- 1.1.12. Influence of lead content on the absorption of ionizing radiation -- 1.1.13. Miscellanea -- 1.2. Difficulties related to the use of lead oxide -- 1.2.1. Elaboration difficulties -- 1.2.2. Public health problems -- 1.3. Conclusion -- 1.4. References -- Chapter 2. Lead Isotopes for the Study of Ancient Glass -- 2.1. Lead isotope chemistry -- 2.2. The use of lead isotopes in archaeology -- 2.3. Lead isotopic analysis of glassy material -- 2.3.1. Sample introduction -- 2.3.2. Ion detection MC-ICP-MS -- 2.3.3. Data reduction and mass bias correction -- 2.3.4. Interpretation of results -- 2.4. O, Sr, Nd and B isotopes for studying archaeological glass -- 2.4.1. Sources of different elements in glass -- 2.4.2. Sr isotopes in glass -- 2.4.3. Nd isotopes in glass -- 2.4.4. B isotopes in glass -- 2.4.5. O isotopes in glass -- 2.5. Conclusion and future perspectives -- 2.6. Acknowledgments -- 2.7. References -- Part 2. Structure of Lead Glasses: Influence on their Properties, Including Color.
Chapter 3. Structure and Properties of Lead Silicate Glasses -- 3.1. Introduction -- 3.2. Lead and lead oxides -- 3.2.1. Elementary lead and its specific properties -- 3.2.2. Lead stereochemistry in oxides -- 3.3. Crystal phases and glasses of the SiO2-PbO system -- 3.3.1. The binary SiO2-PbO system at equilibrium -- 3.3.2. Crystal phases of the binary SiO2-PbO system -- 3.3.3. Glasses of the binary SiO2-PbO system -- 3.4. Glasses of the SiO2-PbO-R2O system (R = Na, K) -- 3.4.1. Overview of ternary SiO2-PbO-R2O glasses -- 3.4.2. Structure of ternary SiO2-PbO-R2O glasses -- 3.5. Glasses of the SiO2-PbO-Al2O3 system -- 3.5.1. Overview of ternary SiO2-PbO-Al2O3 glasses -- 3.5.2. Structure of ternary SiO2-Al2O3-PbO glasses -- 3.6. Conclusion -- 3.7. References -- Chapter 4. Optical Properties and Coloration of Lead Silicate Glasses -- 4.1. Physical bases of optical properties and the origins of glass color -- 4.1.1. Complex refractive index and the main optical properties -- 4.1.2. Coloring species in glasses -- 4.2. Optical properties and color of transparent SiO2-PbO-M2O glasses -- 4.2.1. Electronic structure and color of lead oxides PbO -- 4.2.2. Electronic structure, optical properties and color of SiO2-PbO (-M2O) glasses -- 4.3. SiO2-PbO-M2O glasses colored by transition ions -- 4.3.1. Optical absorption spectroscopy and origin of color changes -- 4.3.2. Variation of the local environment of Cu2+ ions depending on the type of glass -- 4.4. References -- Part 3. History and Evolution of Lead Glasses -- Chapter 5. Lead in the Recipes of the Middle Ages and Renaissance -- 5.1. The first written sources mentioning the use of lead -- 5.2. Recipes of translucent and opaque lead glasses from the Middle Ages and Renaissance -- 5.2.1. Middle Ages -- 5.2.2. Italian Renaissance -- 5.3. Conclusion -- 5.4. References -- Chapter 6. The First Lead Glasses. 6.1. Introduction -- 6.2. Glasses of the Eastern Mediterranean from the second and first millennia BC -- 6.2.1. Yellow and green glasses -- 6.2.2. Red glasses -- 6.2.3. Hellenistic glasses containing antimony -- 6.2.4. Tin oxide-opacified glasses -- 6.3. Lead glasses in Asia starting with the second half of the first millennium BC -- 6.3.1. Lead-barium (Pb-Ba) glasses -- 6.3.2. Lead glasses in the strict sense (Pb-Si) -- 6.3.3. Lead-potash glasses (Pb-K) -- 6.4. Medieval lead glasses in Western Europe -- 6.4.1. The Merovingian period (end of fifth century-first third of eighth century) -- 6.4.2. From the Carolingian period (middle of the eighth century to the 10th century) to the beginning of the modern period -- 6.5. European lead glasses, from the beginning of the modern period until the invention of crystal glass -- 6.6. Conclusion -- 6.7. References -- Chapter 7. Lead in Glasses: Recent Times -- 7.1. The adventure of lead crystal glass -- 7.1.1. The creation of crystal glass -- 7.1.2. The development of lead crystal glass -- 7.2. New colorants of lead glass -- 7.2.1. Chromium -- 7.2.2. Nickel -- 7.2.3. Uranium -- 7.2.4. Selenium -- 7.2.5. Rare earths -- 7.2.6. Coloration by colloidal particles -- 7.3. The new opacifiers -- 7.4. The new processes of crystal glass decoration -- 7.4.1. Engraving -- 7.4.2. Iridescence -- 7.5. New glassmaking techniques -- 7.5.1. Strass -- 7.5.2. Flashed glass -- 7.5.3. Millefiori glass -- 7.5.4. Pate de verre -- 7.5.5. Lampworking glass, glass fibers -- 7.6. Conclusion -- 7.7. References -- Chapter 8. Early Islamic Lead Glass -- 8.1. Introduction -- 8.2. Islamic lead silica glass (m.n.) from the Near East -- 8.2.1. Geographical and chronological patterns -- 8.2.2. Potential lead sources -- 8.2.3. The ambiguity of the term m.n. -- 8.3. Lead slag glass from -- 8.4. Soda ash lead glass from al-Andalus. 8.5. Concluding remarks -- 8.6. References -- Chapter 9. Lead in the Enamels of the Middle Ages and Renaissance -- 9.1. Limoges champlevé enamels on copper from the Middle Ages -- 9.1.1. Enameling techniques -- 9.1.2. Composition of enamels and lead content -- 9.1.3. Recipes employed for type 2 enamels -- 9.2. The so-called Venetian enameled coppers of the Italian Renaissance -- 9.2.1. Manufacturing techniques -- 9.2.2. Chemical composition of the base glass used for these enamels -- 9.2.3. Lead glasses -- 9.2.4. Lead origin: manufacturing a lead-tin calx powder -- 9.3. References -- Part 4. History, Implementation and Evolution of Lead Glazes -- Chapter 10. History of Lead in Ancient Ceramic Materials -- 10.1. Introduction -- 10.2. Properties and implementation of lead glazes -- 10.3. The first lead glazes -- 10.3.1. In China -- 10.3.2. In Asia Minor and in the Roman world -- 10.3.3. Reasons for an emergence -- 10.4. Dissemination and evolution of the lead glazing technique in the high Antiquity -- 10.4.1. In the Near-Eastern and Western world -- 10.4.2. In China -- 10.5. Hybridization of lead glazes with other ceramic traditions -- 10.6. The importance of lead-rich glassy materials in the race for porcelain -- 10.7. Innovations brought by Islamic potters of eighth to ninth century: the place of lead glassy materials -- 10.7.1. Addition of milled lead glass in the paste or in the slip -- 10.7.2. Tin-opacified alkali-lead glazes: emergence of faïences -- 10.8. Soft-paste porcelains: lead glaze on translucent paste -- 10.9. Lead-rich vitrified paints -- 10.10. Conclusion -- 10.11. References -- Chapter 11. Paste-Glaze Interaction -- 11.1. Context -- 11.2. Paste-glaze interface -- 11.3. Factors affecting the paste-glaze interface -- 11.3.1. Composition of the body (Ca-rich clays or siliceous ones) and its state (raw or fired). 11.3.2. Composition of the glaze mixture -- 11.3.3. Viscosity and solubility of the body and glaze components -- 11.3.4. Thermal history of the ceramic body-glaze system -- 11.4. Cross-diffusion of chemical elements -- 11.5. Morphology of the interface -- 11.6. Identification of crystalline phases at the interface -- 11.6.1. Lead feldspar -- 11.6.2. Wollastonite (CaSiO3), anorthite (CaAl2Si2O8), Ca-Mg pyroxenes -- 11.6.3. Phases rich in Na -- 11.6.4. Mullite (3Al2O3-2SiO2) -- 11.6.5. Phases rich in colorant or opacifier -- 11.7. Interface as an indicator of elaboration processes -- 11.7.1. Simple or double firing, raw or fired substrate -- 11.7.2. Application of PbO or PbO + SiO2 mixtures -- 11.7.3. Firing protocol -- 11.7.4. Al2O3 origin: glaze mixture or paste? -- 11.8. Influence of interface on the physical properties -- 11.8.1. Thermal expansion -- 11.8.2. Adherence defects -- 11.8.3. Mechanical resistance -- 11.8.4. Color -- 11.9. Conclusion -- 11.10. References -- Chapter 12. Weathering of Ancient Lead Glazes -- 12.1. Slightly weathered glazes -- 12.2. Weak iridescences and pinholes -- 12.3. Advanced weathering in the context of burial -- 12.4. Protection of lead-glazed weathered objects by sol-gel methods -- 12.5. Conclusion -- 12.6. References -- Part 5. Weathering of Lead Glasses and Standards -- Chapter 13. Lead Leaching in Industrial Crystal Glasses: Role of Chemical Composition, Structure and Surface Treatments -- 13.1. Influence of lead content on crystal glass structure -- 13.2. Leaching mechanisms of lead glasses -- 13.2.1. Low reaction progress experiments -- 13.2.2. High reaction progress experiments -- 13.2.3. Structure of the alteration layer -- 13.3. Industrial surface treatments limiting lead release by crystal glass -- 13.3.1. Acid polishing -- 13.3.2. Incorporation of a surface glass during forming. 13.3.3. Sol-gel deposition of a glassy layer. |
| Record Nr. | UNINA-9910841523903321 |
|
Bouquillon Anne
|
||
| Newark : , : John Wiley & Sons, Incorporated, , 2024 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Les patrimoines en recherche(s) d’avenir / / Étienne Anheim, Anne-Julie Etter, Ghislaine Glasson-Deschaumes, Pascal Liévaux
| Les patrimoines en recherche(s) d’avenir / / Étienne Anheim, Anne-Julie Etter, Ghislaine Glasson-Deschaumes, Pascal Liévaux |
| Autore | Aksamija Amra |
| Pubbl/distr/stampa | Nanterre, : Presses universitaires de Paris Nanterre, 2021 |
| Descrizione fisica | 1 online resource (354 p.) |
| Altri autori (Persone) |
AlexandreDidier
AntichanSylvain Aristide-HastirIsabelle BaussantMichèle BeaudouinValérie BérardÉmilie BirolliViviana BloomfieldCamille BormandMarc BouillerLuc BouquillonAnne ChauliacMarina ConésaHéloïse CordereixPascal De LucaLivio DillmannPhilippe Dos SantosIrène DufrêneBernadette DuvalMélanie EscandeYolaine GarianiGianluca JuanalsBrigitte JugandJulien Julien Da Cruz LimaAude KergourlayFlorian LacourtiadeAlizée LehuédéPatrice LelucSylvie LeuPhilipp Lo BuglioDavid MinelJean-Luc NachefValérie NiangCheikh PoliMarie-Sylvie RibertEvelyne SaemmerAlexandra SagnesSylvie SchneiderClaire TeboulJeanne ToureilleValérie VapnarskyValentina VegaEnrique VenelNancy VernaCatherine ViaultAudrey AnheimÉtienne EtterAnne-Julie Glasson-DeschaumesGhislaine LiévauxPascal |
| Collana | Les passés dans le présent |
| Soggetto topico |
Art
perspective patrimoine culturel institution |
| Soggetto non controllato |
perspective
patrimoine culturel institution |
| ISBN | 2-84016-433-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | fre |
| Altri titoli varianti | patrimoines en recherche |
| Record Nr. | UNINA-9910568192803321 |
|
Aksamija Amra
|
||
| Nanterre, : Presses universitaires de Paris Nanterre, 2021 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||