Materials Issues in Art and Archaeology X
Herausgeber: Li, Weidong; Vandiver, Pamela B.; Sciau, Philippe
Materials Issues in Art and Archaeology X
Herausgeber: Li, Weidong; Vandiver, Pamela B.; Sciau, Philippe
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Presents innovative multidisciplinary work on the characterization of ancient materials.
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Presents innovative multidisciplinary work on the characterization of ancient materials.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 408
- Erscheinungstermin: 9. Juli 2020
- Englisch
- Abmessung: 235mm x 157mm x 26mm
- Gewicht: 739g
- ISBN-13: 9781605116334
- ISBN-10: 1605116335
- Artikelnr.: 54546040
- Verlag: Cambridge University Press
- Seitenzahl: 408
- Erscheinungstermin: 9. Juli 2020
- Englisch
- Abmessung: 235mm x 157mm x 26mm
- Gewicht: 739g
- ISBN-13: 9781605116334
- ISBN-10: 1605116335
- Artikelnr.: 54546040
Preface; Materials Research Society Symposium Proceedings; Part I. The
Conservation Science of Stone Consolidation, Site Material Condition and a
New Pollution Source in the Museum Environment: 1. Nucleation, growth and
evolution of hydroxyapatite films on calcite; 2. Novel hydroxyapatite-based
consolidant and the acceleration of hydrolysis of silicate-based
consolidants; 3. Properties and characterization of building materials from
the Laosicheng Ruins in Southern China; 4. Dispersions of surface modified
calcium hydroxide nanoparticles with enhanced kinetic stability: properties
and applications to desalination and consolidation of the Yungang Grottoes;
5. Unraveling the core of the Gran Piramide from Cholula, Puebla: a
compositional and microstructural analysis of the adobe; 6. Environmental
monitoring of volatile organic compounds using silica gel, zeolite and
activated charcoal; Part II. The Narrative Interpretation of Process
Reconstruction and Materials Characterization in Technical Art History and
Archaeological Science: 7. Study of Mexican colonial mural paintings: an
in-situ non-invasive approach; 8. Investigating a moche cast copper
artifact for its manufacturing technology; 9. Hawaiian barkcloth from the
Bishop Museum collections: a characterization of materials and techniques
in collaboration with modern practitioners to effect preservation of a
traditional cultural practice; 10. Technology of Egyptian core glass
vessels; Part III. Technical Art History: Pigment Identification,
Reactivity and Transformation: 11. Characterization of bistre pigment
samples by FTIR, SERS, Py-GC/MS and XRF; 12. Analysis of lead carboxylates
and lead-containing pigments in oil paintings by solid-state nuclear
magnetic resonance; 13. Fine pore structure characterization in two gessoes
using focused ion bean scanning; 14. Effects of humidity on gessoes for
easel paintings; Part IV. Alteration, Technology and Interpretation of
Archaeological Ceramics, Glazes and Glasses: 15. Role of weathering layers
on the alteration kinetics of medieval stained glass in an atmospheric
medium; 16. Study of cloisonné enamel glaze of decorative components from
Fuwangge in the Forbidden City by means of LA-ICP-MS and micro-raman
spectroscopy; 17. Technological behavior in the southwest: Pueblo I lead
glaze paints from the Upper San Juan region; 18. Analysis and replication
of Jianyang tea bowls from Song Dynasty China; 19. The technological
development of decorated Corinthian pottery, 8th to 6th centuries BCE; 20.
Ceramics at the emergence of the Silk Road: a case of village potters from
southeastern Kazakhstan during the late Iron Age; 21. Ceramics at the
emergence of the Silk Road: a case from southeastern Kazakhstan:
retraction; Part V. Characterization of Metal and Stone Characterization,
and Metal Nanoparticle Corrosion: 22. Benefits of the complementary use of
archaeometry investigations and historical research in the study of ancient
airplanes: the Breguet Sahara's rivets; 23. Non-invasive characterization
of stone artifacts from the Great Temple of Tenochtitlan, Mexico; 24.
Multiscale characterization of limestone used on monuments of cultural
heritage; 25. Characterization of a surface tarnish found on daguerreotypes
revealed under shortwave ultraviolet radiation; Part VI. Method Development
in Image Processing, Analysis and Proof of Concept: 26. Quantitative
porosity studies of archaeological ceramics by petrographic image analysis;
27. Dual-beam scanning electron microscope (SEM) and focused ion beam
(FIB): a practical method for characterization of small cultural heritage
objects; 28. The potential of low frequency EPR spectroscopy in studying
pottery artifacts and pigments.
Conservation Science of Stone Consolidation, Site Material Condition and a
New Pollution Source in the Museum Environment: 1. Nucleation, growth and
evolution of hydroxyapatite films on calcite; 2. Novel hydroxyapatite-based
consolidant and the acceleration of hydrolysis of silicate-based
consolidants; 3. Properties and characterization of building materials from
the Laosicheng Ruins in Southern China; 4. Dispersions of surface modified
calcium hydroxide nanoparticles with enhanced kinetic stability: properties
and applications to desalination and consolidation of the Yungang Grottoes;
5. Unraveling the core of the Gran Piramide from Cholula, Puebla: a
compositional and microstructural analysis of the adobe; 6. Environmental
monitoring of volatile organic compounds using silica gel, zeolite and
activated charcoal; Part II. The Narrative Interpretation of Process
Reconstruction and Materials Characterization in Technical Art History and
Archaeological Science: 7. Study of Mexican colonial mural paintings: an
in-situ non-invasive approach; 8. Investigating a moche cast copper
artifact for its manufacturing technology; 9. Hawaiian barkcloth from the
Bishop Museum collections: a characterization of materials and techniques
in collaboration with modern practitioners to effect preservation of a
traditional cultural practice; 10. Technology of Egyptian core glass
vessels; Part III. Technical Art History: Pigment Identification,
Reactivity and Transformation: 11. Characterization of bistre pigment
samples by FTIR, SERS, Py-GC/MS and XRF; 12. Analysis of lead carboxylates
and lead-containing pigments in oil paintings by solid-state nuclear
magnetic resonance; 13. Fine pore structure characterization in two gessoes
using focused ion bean scanning; 14. Effects of humidity on gessoes for
easel paintings; Part IV. Alteration, Technology and Interpretation of
Archaeological Ceramics, Glazes and Glasses: 15. Role of weathering layers
on the alteration kinetics of medieval stained glass in an atmospheric
medium; 16. Study of cloisonné enamel glaze of decorative components from
Fuwangge in the Forbidden City by means of LA-ICP-MS and micro-raman
spectroscopy; 17. Technological behavior in the southwest: Pueblo I lead
glaze paints from the Upper San Juan region; 18. Analysis and replication
of Jianyang tea bowls from Song Dynasty China; 19. The technological
development of decorated Corinthian pottery, 8th to 6th centuries BCE; 20.
Ceramics at the emergence of the Silk Road: a case of village potters from
southeastern Kazakhstan during the late Iron Age; 21. Ceramics at the
emergence of the Silk Road: a case from southeastern Kazakhstan:
retraction; Part V. Characterization of Metal and Stone Characterization,
and Metal Nanoparticle Corrosion: 22. Benefits of the complementary use of
archaeometry investigations and historical research in the study of ancient
airplanes: the Breguet Sahara's rivets; 23. Non-invasive characterization
of stone artifacts from the Great Temple of Tenochtitlan, Mexico; 24.
Multiscale characterization of limestone used on monuments of cultural
heritage; 25. Characterization of a surface tarnish found on daguerreotypes
revealed under shortwave ultraviolet radiation; Part VI. Method Development
in Image Processing, Analysis and Proof of Concept: 26. Quantitative
porosity studies of archaeological ceramics by petrographic image analysis;
27. Dual-beam scanning electron microscope (SEM) and focused ion beam
(FIB): a practical method for characterization of small cultural heritage
objects; 28. The potential of low frequency EPR spectroscopy in studying
pottery artifacts and pigments.
Preface; Materials Research Society Symposium Proceedings; Part I. The
Conservation Science of Stone Consolidation, Site Material Condition and a
New Pollution Source in the Museum Environment: 1. Nucleation, growth and
evolution of hydroxyapatite films on calcite; 2. Novel hydroxyapatite-based
consolidant and the acceleration of hydrolysis of silicate-based
consolidants; 3. Properties and characterization of building materials from
the Laosicheng Ruins in Southern China; 4. Dispersions of surface modified
calcium hydroxide nanoparticles with enhanced kinetic stability: properties
and applications to desalination and consolidation of the Yungang Grottoes;
5. Unraveling the core of the Gran Piramide from Cholula, Puebla: a
compositional and microstructural analysis of the adobe; 6. Environmental
monitoring of volatile organic compounds using silica gel, zeolite and
activated charcoal; Part II. The Narrative Interpretation of Process
Reconstruction and Materials Characterization in Technical Art History and
Archaeological Science: 7. Study of Mexican colonial mural paintings: an
in-situ non-invasive approach; 8. Investigating a moche cast copper
artifact for its manufacturing technology; 9. Hawaiian barkcloth from the
Bishop Museum collections: a characterization of materials and techniques
in collaboration with modern practitioners to effect preservation of a
traditional cultural practice; 10. Technology of Egyptian core glass
vessels; Part III. Technical Art History: Pigment Identification,
Reactivity and Transformation: 11. Characterization of bistre pigment
samples by FTIR, SERS, Py-GC/MS and XRF; 12. Analysis of lead carboxylates
and lead-containing pigments in oil paintings by solid-state nuclear
magnetic resonance; 13. Fine pore structure characterization in two gessoes
using focused ion bean scanning; 14. Effects of humidity on gessoes for
easel paintings; Part IV. Alteration, Technology and Interpretation of
Archaeological Ceramics, Glazes and Glasses: 15. Role of weathering layers
on the alteration kinetics of medieval stained glass in an atmospheric
medium; 16. Study of cloisonné enamel glaze of decorative components from
Fuwangge in the Forbidden City by means of LA-ICP-MS and micro-raman
spectroscopy; 17. Technological behavior in the southwest: Pueblo I lead
glaze paints from the Upper San Juan region; 18. Analysis and replication
of Jianyang tea bowls from Song Dynasty China; 19. The technological
development of decorated Corinthian pottery, 8th to 6th centuries BCE; 20.
Ceramics at the emergence of the Silk Road: a case of village potters from
southeastern Kazakhstan during the late Iron Age; 21. Ceramics at the
emergence of the Silk Road: a case from southeastern Kazakhstan:
retraction; Part V. Characterization of Metal and Stone Characterization,
and Metal Nanoparticle Corrosion: 22. Benefits of the complementary use of
archaeometry investigations and historical research in the study of ancient
airplanes: the Breguet Sahara's rivets; 23. Non-invasive characterization
of stone artifacts from the Great Temple of Tenochtitlan, Mexico; 24.
Multiscale characterization of limestone used on monuments of cultural
heritage; 25. Characterization of a surface tarnish found on daguerreotypes
revealed under shortwave ultraviolet radiation; Part VI. Method Development
in Image Processing, Analysis and Proof of Concept: 26. Quantitative
porosity studies of archaeological ceramics by petrographic image analysis;
27. Dual-beam scanning electron microscope (SEM) and focused ion beam
(FIB): a practical method for characterization of small cultural heritage
objects; 28. The potential of low frequency EPR spectroscopy in studying
pottery artifacts and pigments.
Conservation Science of Stone Consolidation, Site Material Condition and a
New Pollution Source in the Museum Environment: 1. Nucleation, growth and
evolution of hydroxyapatite films on calcite; 2. Novel hydroxyapatite-based
consolidant and the acceleration of hydrolysis of silicate-based
consolidants; 3. Properties and characterization of building materials from
the Laosicheng Ruins in Southern China; 4. Dispersions of surface modified
calcium hydroxide nanoparticles with enhanced kinetic stability: properties
and applications to desalination and consolidation of the Yungang Grottoes;
5. Unraveling the core of the Gran Piramide from Cholula, Puebla: a
compositional and microstructural analysis of the adobe; 6. Environmental
monitoring of volatile organic compounds using silica gel, zeolite and
activated charcoal; Part II. The Narrative Interpretation of Process
Reconstruction and Materials Characterization in Technical Art History and
Archaeological Science: 7. Study of Mexican colonial mural paintings: an
in-situ non-invasive approach; 8. Investigating a moche cast copper
artifact for its manufacturing technology; 9. Hawaiian barkcloth from the
Bishop Museum collections: a characterization of materials and techniques
in collaboration with modern practitioners to effect preservation of a
traditional cultural practice; 10. Technology of Egyptian core glass
vessels; Part III. Technical Art History: Pigment Identification,
Reactivity and Transformation: 11. Characterization of bistre pigment
samples by FTIR, SERS, Py-GC/MS and XRF; 12. Analysis of lead carboxylates
and lead-containing pigments in oil paintings by solid-state nuclear
magnetic resonance; 13. Fine pore structure characterization in two gessoes
using focused ion bean scanning; 14. Effects of humidity on gessoes for
easel paintings; Part IV. Alteration, Technology and Interpretation of
Archaeological Ceramics, Glazes and Glasses: 15. Role of weathering layers
on the alteration kinetics of medieval stained glass in an atmospheric
medium; 16. Study of cloisonné enamel glaze of decorative components from
Fuwangge in the Forbidden City by means of LA-ICP-MS and micro-raman
spectroscopy; 17. Technological behavior in the southwest: Pueblo I lead
glaze paints from the Upper San Juan region; 18. Analysis and replication
of Jianyang tea bowls from Song Dynasty China; 19. The technological
development of decorated Corinthian pottery, 8th to 6th centuries BCE; 20.
Ceramics at the emergence of the Silk Road: a case of village potters from
southeastern Kazakhstan during the late Iron Age; 21. Ceramics at the
emergence of the Silk Road: a case from southeastern Kazakhstan:
retraction; Part V. Characterization of Metal and Stone Characterization,
and Metal Nanoparticle Corrosion: 22. Benefits of the complementary use of
archaeometry investigations and historical research in the study of ancient
airplanes: the Breguet Sahara's rivets; 23. Non-invasive characterization
of stone artifacts from the Great Temple of Tenochtitlan, Mexico; 24.
Multiscale characterization of limestone used on monuments of cultural
heritage; 25. Characterization of a surface tarnish found on daguerreotypes
revealed under shortwave ultraviolet radiation; Part VI. Method Development
in Image Processing, Analysis and Proof of Concept: 26. Quantitative
porosity studies of archaeological ceramics by petrographic image analysis;
27. Dual-beam scanning electron microscope (SEM) and focused ion beam
(FIB): a practical method for characterization of small cultural heritage
objects; 28. The potential of low frequency EPR spectroscopy in studying
pottery artifacts and pigments.