Further Reading — GLASS AT RISK

Alloteau, F., P. Lehuédé, O. Majérus, T. Charpentier, D. Caurant, and I. Biron. “New Insight into Atmospheric Alteration of Alkali-Lime Silicate Glasses.” Corrosion Science 122 (March 2017): 12–25.

Barger, M.S., D.K. Smith, and W.B. White. “Characterization of Corrosion Products on Old Protective Glass, Especially Daguerreotype Cover Glasses.” Journal of Materials Science 24 (1989): 1343–1356.

Bishop, J. L. P., M. Carle; J. O.Edwards. “Infrared Spectroscopic Analysis on the Nature of Water in Montmorillonite.” Clays and Clay Minerals 42, 6 (1994): 702-716.

Bohn, S., L. Pauchard, and Y. Couder. “Hierarchical Crack Pattern as Formed by Successive Domain Divisions.” Physical Review E 71, 4 (2005): 046214-046215.

Bradley, L.C., Z.R. Dilworth, A.L. Barnette, E. Hsiao, A.J. Barthel, C.G. Pantano, and S.H. Kim. “Hydronium Ions in Soda-Lime Silicate Glass Surfaces.” J. American Ceramic Society 96, 2 (2013): 458–463.

Bradt, R.C. “The Fractography and Crack Patterns of Broken Glass.” J. Failure Analysis and Prevention 11, 2 (2011): 79–96.

Brill, R.H. “Incipient Crizzling in Some Early Glasses.” Bulletin of the American Group-IIC 12, 2 (1972): 46–47.

Brill, R.H. “Crizzling – a Problem in Glass Conservation.” In Conservation in Archaeology and the Applied Arts (Congress of the International Institute for Conservation, Stockholm, 2-6 June 1975), Ed. N.S. Brommelle and P. Smith (IIC, London): 121-134.

Bunker, B.C. and E.K. Beauchamp. “Mechanisms for Alkali Leaching In Mixed-Na-K Silicate Glasses.” J. Non-Crystalline Solids 58 (1983): 295-322.

Bunker, B. C. “Molecular mechanisms for corrosion of silica and silicate glasses.” J. Non-Crystalline Solids 179 (1994): 300-308.

Cailleteau, C., F. Angeli, F. Devreux, S. Gin, J. Jestin, P. Jollivet, and O. Spalla. “Insight into Silicate-Glass Corrosion Mechanisms.” Nature Materials 7, 12 (2008): 978–983.

Clark, D.E., and B.K. Zoitos. Corrosion of Glass, Ceramics and Ceramic Superconductors: Principles, Testing, Characterization and Applications (Park Ridge, NJ: Noyes; 1992).

Cotterell, B., and J.R. Rice. “Slightly Curved or Kinked Cracks.” International Journal of Fracture 16, 2 (April 1980): 155–169.

Davison, S. and R. G. Newton. Conservation and Restoration of Glass, 2nd Ed. (Taylor and Francis: Oxford, 2009).

De Bardi, M., R. Wiesinger, M. Schreiner. “Leaching Studies of Potash-lime-silica glass with medieval composition by IRRAS.” J. Non-Crystalline Solids 360 (2013): 57-63.

Dohmen, L., C. Lenting, R.O.C. Fonseca, T. Nagel, A. Heuser, T. Geisler, and R. Denkler. “Pattern Formation in Silicate Glass Corrosion Zones.” International Journal of Applied Glass Science 4, 4 (December 2013): 357–370.

Eggert, G. “The identification of High Lead Glass Using Simple Methods.” The Conservator 22 (1998): 12-16.

Farges, F., M.P. Etcheverry, A. Haddi, P. Trocellier, E. Curti, and G.E. Brown Jr.. “Durability of Silicate Glasses: An Historical Approach.” Proceedings 13th Int. Conference on X-ray Absorption Fine Structure (November 2006): SLAC-PUB-12221.

Fearn, S. “Continued Studies in the Deterioration of Glass.” V&A Conservation Journal (Autumn 2002): 42.

Fowler, J. “On the processes of decay and, incidentally, on the composition and texture of glass at different periods, and the history of its manufacture.” Archaeologia 46 (1880): 65–162.

Freestone, I., M.J. Hughes, and C.P. Stapleton. “The Composition and Production of Anglo-Saxon Glass.” Catalogue of Anglo-Saxon Glass in the British Museum, 2008, 29–46.

Gehrke, E., C. Ullner, and M. Hähnert. “Fatigue Limit and Crack Arrest in Alkali-Containing Silicate Glasses.” J. Materials Science 26, 20 (October 1, 1991): 5445–55.

Goehring, L., R. Conroy, A. Akhter, W.J. Clegg, and A.F. Routh. “Evolution of Mud-Crack Patterns during Repeated Drying Cycles.” Soft Matter 6, 15 (July 2010): 3562.

Grant, M.S. “The Use Of Ultraviolet Induced Visible-Fluorescence In The Examination Of Museum Objects , Part II.” Museum 1/10, 1 (2000): 4.

Groisman, A., and E. Kaplan. “An Experimental Study of Cracking Induced by Desiccation.” Europhysics Letters (EPL) 25, 6 (1994): 415–420.

Haralick, R.M., K. Shanmugam, and I. Dinstein. “Textural Features for Image Classification.” IEEE Transactions on Systems, Man and Cybernetics 3, 6 (1973): 610–621.

Hench, L.L. and D.E. Clark. “Physical Chemistry of Glass Surfaces.” J. Non-Crystalline Solids 28, 2 (1978): 83-105.

Hogg, S., D. McPhail, V. Oakley, and P. Rogers. “Cracking Crizzling - Eight Years of Collaborative Research.” V&A Conservation Journal 29 (1998): 29. http://www.vam.ac.uk/content/journals/conservation-journal/issue-29/cracking-crizzling-eight-years-of-collaborative-research/.

Iben, H., and J. O’Brien. “Generating Surface Crack Patterns.” Graphical Models 71 (2009): 198–208.

Jain, A.K, R.P.W. Duin, and J. Mao. “Statistical Pattern Recognition : A Review” IEEE Transactions on Pattern Analysis and Machine Intelligence 22, 1 (2000): 4–37.

Knothe, F., S.P. Koob, and R.H. Brill. “Non-Destructive Comparative Analysis by X-Ray Fluorescence of Asian and European Seventeenth- to Nineteenth-Century Glass.” Studies in Conservation 59, sup1 (2014): S66–S69.

Koob, S. P., J. J. Kunicki-Goldfinger, R. H. Brill. Caring for Glass Collections: The Importance of Maintaining Environmental Controls. Studies in Conservation 63 (2018): 146-150.

Koob, S.P. “Crizzling glasses: problems and solutions.” Glass Technol. Eur. J. Glass Sci. Technol. Part A 53, 5 (Oct. 2012).

Kunicki-Goldfinger, J. “Unstable historic glass: symptoms, causes, mechanisms and conservation.” Studies in Conservation 54, Sup. 1 (2009): 47–60.

Kunicki-Goldfinger, J., and J. Kierzek. “Ultraviolet Blue Fluorescence of the 18th Century Central European Glass: An Auxiliary Indicator for Curators and Conservators.” Glass Technology 43C (2002): 111–113.

Kunicki-Goldfinger, J. “Unstable Historic Glass: Symptoms, Causes, Mechanisms and Conservation.” Reviews in Conservation 9 (2008): 47–60.

Kunicki-Goldfinger, J., P. Targowski, M. Góra, P. Karaszkiewicz and P. Dzierżanowski. “Characterization of Glass Surface Morphology by Optical Coherence Tomography,” Studies in Conservation (2009): 117-128

Kurkjian, C.R., and W.R. Prindle. “Perspectives on the History of Glass Composition.” Journal of the American Ceramic Society 81, 4 (2005): 795-813

Liang, H., B. Peric, M. Hughes, A. Podoleanu, M. Spring, and S. Roehrs. “Optical Coherence Tomography and Conservation — A new emerging field.” Proc. SPIE 7139 (2008): 1-9.

Linwood, S.H., Weyl, W.A. “The Fluorescence of Manganese in Glasses and Crystals.” J. Optical Society of America 32 (1942): 443–453.

Macleod, C. “Accident or Design ? George Accident Ravenscroft’s Invention and the Patent of Lead-Crystal” Technology and Culture 28, 4 (1987): 776–803.

Maloney, W. “The Mystery of James Madison’s Crystal Flute.” Medium.com, October 2015.

Mccabe, C. “Preservation of 19th-Century Negatives in the National Archives.” Journal of the American Institute for Conservation 30, 1 (1991): 41–73.

McCormick-Goodhart, M.H. “Research on Collodion Glass Plate Negatives: Coating Thickness and FTIR Identification of Varnishes.” Topics in Photographic Preservation. AIC 3 (1989): 135–150.

McCormick-Goodhart, M.H. “Glass Corrosion and Its Relation to Image Deterioration in Collodion Wet-Plate Negatives.” The Imperfect Image: Photographs Their Past, Present and Future (1992): 256-265.

Mohan, A., and S. Poobal. “Crack Detection Using Image Processing: A Critical Review and Analysis.” Alexandria Engineering Journal 57, 2 (2016): 787-798

Pa, E., P. Dier, and L. Wali. “Trace Element Characterization of Medieval and Post-Medieval Glass Objects by Means of INAA and EPMA” 278, 2 (2008): 307–311.

Rehren, T., and I.C. Freestone. “Ancient Glass: From Kaleidoscope to Crystal Ball.” J. Archaeological Science 56 (2015): 233–241.

Robinet, L., S. Fearn, K. Eremin, C. Pulham, and C. Hall. “Understanding Glass Deterioration in Museum Collections: A Multi-Disciplinary Approach.” ICOM Committee for Conservation 2005, Vol. 1, Glass and Ceramics (2005): 139–145.

Rodrigues, A., S. Fearn, T. Palomar, and M. Vilarigues. “Early Stages of Surface Alteration of Soda-Rich-Silicate Glasses in the Museum Environment.” Corrosion Science 143 (2018): 362-375.

Rodrigues, A., S. Fearn, and M. Vilarigues. “Mixed Reactions: Glass Durability and the Mixed‐alkali Effect.” J. American Ceramic Society 102, 12 (2019): 7278-7287.

Salem, A.A. “Analytical Investigations on Gaseous Corrosion of Silicate Glasses Using Scanning Electron Microscopy, Energy Dispersive X‐ray and X‐ray Diffraction Analyses.” Glass Technology 39, 3 (1998): 111–116.

Schreiner, M. “Glass of the Past: The Degradation and Deterioration of Medieval Glass Artifacts.” Mikrochimica Acta 104, 1–6 (1991): 255–264.

Shenoy, V.B., A.F. Schwartzman, and L.B. Freund. “Crack Patterns in Brittle Thin Films.” International Journal of Fracture 109, 1 (2001): 29–45.

Kaiser. B. and A. Shugar. Glass analysis utilizing handheld X-ray fluorescence. In Handheld XRF in Art and Archaeology (Leuven, Belgium: Leuven University Press, 2012): 449-470.

Strahan, D. “Uranium in Glass, Glazes and Enamels: History, Identification and Handling.” Studies in Conservation 46, 3 (2001): 181-195.

Targowski, P. and M. Iwanicka. “Optical Coherence Tomography: its role in the non-invasive structural examination and conservation of cultural heritage objects—a review.” App. Phys. A 106 (2012): 265-277.

Verhaar, G., M.R Bommel, and N. Tennent. “Weeping Glass: The Identification of Ionic Species on the Surface of Vessel Glass Using Ion Chromatography.” Recent Advances in Glass and Ceramics Conservation; ICOM-CC Glass and Ceramics Working Group Interim Meeting. Wrocław, Poland (2016).

Weyl, W. A. “Fluorescence of Glass.” Industrial and Engineering Chemistry 34, 9 (1942): 1035-1041.

White, W B. “Theory of Corrosion in Glass and Ceramics.” In Corrosion of Glass, Ceramics and Ceramic Superconductor, Ed. D. E. Clark and B. K. Zoitos (Park Ridge, New Jersey: Noyes Publications, 1992).