References for experimental data used in global viscosity model

Important references for experimental data used in the paper "Glass Viscosity Calculation Based on a Global Statistical Modeling Approach"

Viscosity Standards:

"Standard Reference Material 710A, Soda-Lime-Silica Glass"; National Institute of Standards & Technology (NIST), Gaithersburg, MD, 20899, USA; March 20, 1991.

"Standard Reference Material 717A, Borosilicate Glass"; National Institute of Standards & Technology (NIST), Gaithersburg, MD, 20899, USA; September 18, 1996.

"Standard Sample No. 711, Certificate of Viscosity Values, Lead-Silica Glass"; National Bureau of Standards, U.S. Department of Commerce, Washington, D.C., 20235, USA; July 1, 1964.

Meerlender G.: "Viskositäts-Temperaturverhalten des Standardglases I der DGG" (DGG - Deutsche Glastechnische Gesellschaft, German Society of Glass Technology); Glastechn. Ber. (1974), vol. 47, no. 1, p 1-3.

http://www.hvg-dgg.de/uploads/media/Standardglas_Ia_01.pdf

http://www.hvg-dgg.de/uploads/media/Standardglas_Ib_01.pdf

Napolitano A., E. G. Hawkins: "Viscosity of a Standard Soda-Lime-Silica Glass"; J. of Research of the National Bureau of Standards - A. Physics and Chemistry (1964), vol. 68A, no. 5, p 439-448.

Waste Glass Standard, personal communication, publication in preparation.

The Waste Glass Standard was established in Round-Robin tests with several participating laboratories.

Other references:

Allison R. S., W. E. S. Turner; "Further Investigations upon the Influence of Boric Oxide on the Rate of Melting of the Batch, and on the Rate of Refining and of Setting of Commercial Glasses of the Soda-Lime-Silica Type"; J. Soc. Glass Technol. (1954), vol. 38, No. 182, p 297- 364.

Bulkley, Vienna; Plutonium Vitrification, 1997, personal communication.

Eipeltauer E., A. More; Radex-Rundsch. (1960), no. 4, p 230.

Eipeltauer E., G. Jangg; Kolloid Z., Z. Polymere (1955), vol. 142, no. 2/3, p 77.

English S.: "The effect of composition on the viscosity of glass"; J. Soc. Glass Technol. (1924), vol. 8, no. 31, p 205-248; (1925), vol. 9, p 83-98; (1926) vol. 10, no. 37, p 52-66.

English S., W. E. S. Turner; J. Soc. Glass Technol. (1921), vol. 5, p 121.

English S., W. E. S. Turner; J. Soc. Glass Technol. (1928), vol. 12, no. 45, p 75.

Erickson T. D., W. W. Wolf; US Patent No. 3847626 Cl C 03 C 13/00, Off.Gazette, 1974, vol. 928, No. 2. Owens-Corning Fiberglas Corp., GB Patent No.1391384 Cl 2 C 03 C 13/00, 3/04, Abridg.Specif., 1975, No. 4491.

Evstropiev K. S., B. A. Pospelov: "Fiziko-Khimicheskie Svoistva Troinoi Sistemy Na2O-PbO-SiO2" (1949), Moskva, p 70 (in Russian).

Feng et al., 1996, Hanford LLW Glass Formulation, personal communication.

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Fluegel A., A. K. Varshneya: "Parallel plate viscometry", part of Chapter 7 in: "High temperature glass melt property database for process modeling"; Eds.: T. P. Seward III and T. Vascott; The American Ceramic Society, Westerville, Ohio (2005), ISBN: 1-57498-225-7.

http://www.ceramics.org/glassmelt/

Hrma P. R., C. A. See, O. P. Lam, K. B. C. Minister: "High-Temperature Viscosity of Commercial Glasses", part of Chapter 7 in: "High temperature glass melt property database for process modeling"; Eds.: T. P. Seward III and T. Vascott; The American Ceramic Society, Westerville, Ohio (2005), ISBN: 1-57498-225-7.

http://www.ceramics.org/glassmelt/

Hrma P. R., G. F. Piepel et al.: "Property/Composition Relationships for Hanford High-Level Waste Glasses Melting at 1150^oC"; PNL Report 10359 to the US Department of Energy (1994), vol. 1 and 2, Contract DE-AC06-76RLO 1830.

http://www.osti.gov/dublincore/gpo/servlets/purl/10121755-P8oQTl/webviewable/

http://www.osti.gov/dublincore/gpo/servlets/purl/10121752-cDjMo0/webviewable/

Hrma P. R., G. F. Piepel, P. E. Redgate, D. E. Smith, M. J. Schweiger, J. D. Vienna, D. S. Kim: "Prediction of processing properties for nuclear waste glasses"; Ceramic Transactions, vol. 61, p 505-513.

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Kurachi J. (2003) from the SciGlass Database, private communication, O. V. Mazurin.

Lakatos T., L.-G. Johansson, B. Simmingsköld: "Viscosity temperature relations in the glass system SiO2-Al2O3-Na2O-K2O-CaO-MgO in the composition range of technical glasses"; Glass Technology (1972), vol. 13, no. 3, p 88-95.

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