The development and application of the stirred-reactor coupon analysis (SRCA) test method

Joelle T. Reiser; James J. Neeway; Scott K. Cooley; Benjamin Parruzot; Alejandro Heredia-Langner; Stéphane Gin; Manon Thomas; Nicholas J. Smith; Jonathan P. Icenhower; Nicholas Stone-Weiss; Yuta Takahashi; Hajime Iwata; Seiichiro Mitsui; Junya Sato; Christoph Lenting; Yaohiro Inagaki; Mike T. Harrison; Jincheng Du; Wenqing Xie; Karine Ferrand; Clare L. Thorpe; Ramya Ravikumar; Claire L. Corkhill; John S. McCloy; Michelle M.V. Snyder; Amanda R. Lawter; Gary L. Smith; R. Matthew Asmussen; Joseph V. Ryan

doi:10.1111/ijag.16707

The development and application of the stirred-reactor coupon analysis (SRCA) test method

Joelle T. Reiser
, James J. Neeway
, Scott K. Cooley
, Benjamin Parruzot
, Alejandro Heredia-Langner
, Stéphane Gin
, Manon Thomas
, Nicholas J. Smith
, Jonathan P. Icenhower
, Nicholas Stone-Weiss
, Yuta Takahashi
, Hajime Iwata
, Seiichiro Mitsui
, Junya Sato
, Christoph Lenting
, Yaohiro Inagaki
, Mike T. Harrison
, Jincheng Du
, Wenqing Xie
, Karine Ferrand

Clare L. Thorpe, Ramya Ravikumar, Claire L. Corkhill, John S. McCloy, Michelle M.V. Snyder, Amanda R. Lawter, Gary L. Smith, R. Matthew Asmussen, Joseph V. Ryan

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Abstract

A new technique, termed the stirred-reactor coupon analysis (SRCA) method, has been developed to measure the rate of glass dissolution in forward-rate conditions. Monolithic glass coupons are partially masked with an inert material before placement in a large volume of well-mixed solution with known chemistry and temperature for a predetermined duration. After the test, the mask is removed, and the difference in step height between the protected area and the exposed corroded portions of the sample coupon is measured to determine the extent of glass dissolution. The step height is converted to a rate measurement using the test duration and glass density. Test parameters such as sample surface preparation and test duration were evaluated to determine their effects on the measured rates. Additionally, results from an interlaboratory study (ILS) consisting of 12 laboratories from 11 different institutions are presented, where each laboratory performed 12 independent tests. When removing experimental outlier data, the 95% reproducibility limits for the SRCA method has no statistical difference with previously published standardized test methods used to determine the forward rate of glass dissolution. Overall, this paper describes steps necessary to perform the test method and provides the statistical calculations to evaluate test accuracy.

Original language	English
Article number	e16707
Number of pages	16
Journal	International Journal of Applied Glass Science
Volume	16
Issue number	4
DOIs	https://doi.org/10.1111/ijag.16707
State	Published - Oct 2025

ASJC Scopus subject areas

General Materials Science

Access to Document

10.1111/ijag.16707

Cite this

Reiser, J. T., Neeway, J. J., Cooley, S. K., Parruzot, B., Heredia-Langner, A., Gin, S., Thomas, M., Smith, N. J., Icenhower, J. P., Stone-Weiss, N., Takahashi, Y., Iwata, H., Mitsui, S., Sato, J., Lenting, C., Inagaki, Y., Harrison, M. T., Du, J., Xie, W., ... Ryan, J. V. (2025). The development and application of the stirred-reactor coupon analysis (SRCA) test method. International Journal of Applied Glass Science, 16(4), Article e16707. https://doi.org/10.1111/ijag.16707

@article{8898ae5735b049dd98d1ac455cfeaa31,

title = "The development and application of the stirred-reactor coupon analysis (SRCA) test method",

abstract = "A new technique, termed the stirred-reactor coupon analysis (SRCA) method, has been developed to measure the rate of glass dissolution in forward-rate conditions. Monolithic glass coupons are partially masked with an inert material before placement in a large volume of well-mixed solution with known chemistry and temperature for a predetermined duration. After the test, the mask is removed, and the difference in step height between the protected area and the exposed corroded portions of the sample coupon is measured to determine the extent of glass dissolution. The step height is converted to a rate measurement using the test duration and glass density. Test parameters such as sample surface preparation and test duration were evaluated to determine their effects on the measured rates. Additionally, results from an interlaboratory study (ILS) consisting of 12 laboratories from 11 different institutions are presented, where each laboratory performed 12 independent tests. When removing experimental outlier data, the 95\% reproducibility limits for the SRCA method has no statistical difference with previously published standardized test methods used to determine the forward rate of glass dissolution. Overall, this paper describes steps necessary to perform the test method and provides the statistical calculations to evaluate test accuracy.",

keywords = "Chemical durability, Dissolution, Forward rate, Test method",

author = "Reiser, \{Joelle T.\} and Neeway, \{James J.\} and Cooley, \{Scott K.\} and Benjamin Parruzot and Alejandro Heredia-Langner and St{\'e}phane Gin and Manon Thomas and Smith, \{Nicholas J.\} and Icenhower, \{Jonathan P.\} and Nicholas Stone-Weiss and Yuta Takahashi and Hajime Iwata and Seiichiro Mitsui and Junya Sato and Christoph Lenting and Yaohiro Inagaki and Harrison, \{Mike T.\} and Jincheng Du and Wenqing Xie and Karine Ferrand and Thorpe, \{Clare L.\} and Ramya Ravikumar and Corkhill, \{Claire L.\} and McCloy, \{John S.\} and Snyder, \{Michelle M.V.\} and Lawter, \{Amanda R.\} and Smith, \{Gary L.\} and Asmussen, \{R. Matthew\} and Ryan, \{Joseph V.\}",

note = "Score=10 Publisher Copyright: {\textcopyright} 2025 Crown copyright. Corning Incorporated. Battelle Memorial Institute and The Author(s). International Journal of Applied Glass Science published by American Ceramics Society and Wiley Periodicals LLC. This article is published with the permission of the Controller of HMSO and the King's Printer for Scotland. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.",

year = "2025",

month = oct,

doi = "10.1111/ijag.16707",

language = "English",

volume = "16",

journal = "International Journal of Applied Glass Science",

issn = "2041-1286",

publisher = "John Wiley and Sons Ltd",

number = "4",

}

Reiser, JT, Neeway, JJ, Cooley, SK, Parruzot, B, Heredia-Langner, A, Gin, S, Thomas, M, Smith, NJ, Icenhower, JP, Stone-Weiss, N, Takahashi, Y, Iwata, H, Mitsui, S, Sato, J, Lenting, C, Inagaki, Y, Harrison, MT, Du, J, Xie, W, Ferrand, K, Thorpe, CL, Ravikumar, R, Corkhill, CL, McCloy, JS, Snyder, MMV, Lawter, AR, Smith, GL, Asmussen, RM & Ryan, JV 2025, 'The development and application of the stirred-reactor coupon analysis (SRCA) test method', International Journal of Applied Glass Science, vol. 16, no. 4, e16707. https://doi.org/10.1111/ijag.16707

TY - JOUR

T1 - The development and application of the stirred-reactor coupon analysis (SRCA) test method

AU - Reiser, Joelle T.

AU - Neeway, James J.

AU - Cooley, Scott K.

AU - Parruzot, Benjamin

AU - Heredia-Langner, Alejandro

AU - Gin, Stéphane

AU - Thomas, Manon

AU - Smith, Nicholas J.

AU - Icenhower, Jonathan P.

AU - Stone-Weiss, Nicholas

AU - Takahashi, Yuta

AU - Iwata, Hajime

AU - Mitsui, Seiichiro

AU - Sato, Junya

AU - Lenting, Christoph

AU - Inagaki, Yaohiro

AU - Harrison, Mike T.

AU - Du, Jincheng

AU - Xie, Wenqing

AU - Ferrand, Karine

AU - Thorpe, Clare L.

AU - Ravikumar, Ramya

AU - Corkhill, Claire L.

AU - McCloy, John S.

AU - Snyder, Michelle M.V.

AU - Lawter, Amanda R.

AU - Smith, Gary L.

AU - Asmussen, R. Matthew

AU - Ryan, Joseph V.

N1 - Score=10 Publisher Copyright: © 2025 Crown copyright. Corning Incorporated. Battelle Memorial Institute and The Author(s). International Journal of Applied Glass Science published by American Ceramics Society and Wiley Periodicals LLC. This article is published with the permission of the Controller of HMSO and the King's Printer for Scotland. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.

PY - 2025/10

Y1 - 2025/10

N2 - A new technique, termed the stirred-reactor coupon analysis (SRCA) method, has been developed to measure the rate of glass dissolution in forward-rate conditions. Monolithic glass coupons are partially masked with an inert material before placement in a large volume of well-mixed solution with known chemistry and temperature for a predetermined duration. After the test, the mask is removed, and the difference in step height between the protected area and the exposed corroded portions of the sample coupon is measured to determine the extent of glass dissolution. The step height is converted to a rate measurement using the test duration and glass density. Test parameters such as sample surface preparation and test duration were evaluated to determine their effects on the measured rates. Additionally, results from an interlaboratory study (ILS) consisting of 12 laboratories from 11 different institutions are presented, where each laboratory performed 12 independent tests. When removing experimental outlier data, the 95% reproducibility limits for the SRCA method has no statistical difference with previously published standardized test methods used to determine the forward rate of glass dissolution. Overall, this paper describes steps necessary to perform the test method and provides the statistical calculations to evaluate test accuracy.

AB - A new technique, termed the stirred-reactor coupon analysis (SRCA) method, has been developed to measure the rate of glass dissolution in forward-rate conditions. Monolithic glass coupons are partially masked with an inert material before placement in a large volume of well-mixed solution with known chemistry and temperature for a predetermined duration. After the test, the mask is removed, and the difference in step height between the protected area and the exposed corroded portions of the sample coupon is measured to determine the extent of glass dissolution. The step height is converted to a rate measurement using the test duration and glass density. Test parameters such as sample surface preparation and test duration were evaluated to determine their effects on the measured rates. Additionally, results from an interlaboratory study (ILS) consisting of 12 laboratories from 11 different institutions are presented, where each laboratory performed 12 independent tests. When removing experimental outlier data, the 95% reproducibility limits for the SRCA method has no statistical difference with previously published standardized test methods used to determine the forward rate of glass dissolution. Overall, this paper describes steps necessary to perform the test method and provides the statistical calculations to evaluate test accuracy.

KW - Chemical durability

KW - Dissolution

KW - Forward rate

KW - Test method

UR - https://www.scopus.com/pages/publications/105010690693

U2 - 10.1111/ijag.16707

DO - 10.1111/ijag.16707

M3 - Article

AN - SCOPUS:105010690693

SN - 2041-1286

VL - 16

JO - International Journal of Applied Glass Science

JF - International Journal of Applied Glass Science

IS - 4

M1 - e16707

ER -