ASTM C 1285 : 2014
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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Standard Test Methods for Determining Chemical Durability of Nuclear, Hazardous, and Mixed Waste Glasses and Multiphase Glass Ceramics: The Product Consistency Test (PCT)
Hardcopy , PDF
30-04-2021
English
17-04-2014
Committee |
C 26
|
DocumentType |
Test Method
|
Pages |
27
|
PublisherName |
American Society for Testing and Materials
|
Status |
Superseded
|
SupersededBy | |
Supersedes |
1.1These product consistency test methods A and B provide a measure of the chemical durability of homogeneous glasses, phase separated glasses, devitrified glasses, glass ceramics, multiphase glass ceramic waste forms, or combinations thereof, hereafter collectively referred to as “glass waste forms” by measuring the concentrations of the chemical species released to a test solution under carefully controlled conditions.
1.1.1Test Method A is a seven-day chemical durability test performed at 90 ± 2°C in a leachant of ASTM-Type I water. The test method is static and conducted in stainless steel vessels. The stainless steel vessels require a gasket to remain leak-tight.2 The stainless steel vessels are considered to be “closed system” tests. Test Method A can specifically be used to evaluate whether the chemical durability and elemental release characteristics of nuclear, hazardous, and mixed glass waste forms have been consistently controlled during production. This test method is applicable to radioactive and simulated glass waste forms as defined above.
1.1.2Test Method B is a durability test that allows testing at various test durations, test temperatures, particle size and masses of glass sample, leachant volumes, and leachant compositions. This test method is static and can be conducted in stainless steel or PFA TFE-fluorocarbon vessels. The stainless steel vessels are considered to be “closed system” while the PFA TFE-fluorocarbon vessels are considered to be “open system” tests. Test Method B can specifically be used to evaluate the relative chemical durability characteristics of homogeneous glasses, phase separated glasses, devitrified glasses, glass ceramics, or multiphase glass ceramic waste forms, or combinations thereof. This test method is applicable to radioactive (nuclear) and mixed, hazardous, and simulated glass waste forms as defined above. Test Method B cannot be used as a consistency test for production of high level radioactive glass waste forms.
1.2These test methods must be performed in accordance with all quality assurance requirements for acceptance of the data.
1.3The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.
1.4This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
ASTM C 1463 : 2019 | Standard Practices for Dissolving Glass Containing Radioactive and Mixed Waste for Chemical and Radiochemical Analysis |
ASTM C 1174 : 2017 | Standard Practice for Evaluation of the Long-Term Behavior of Materials Used in Engineered Barrier Systems (EBS) for Geological Disposal of High-Level Radioactive Waste |
ASTM C 1662 : 2018 : REDLINE | Standard Practice for Measurement of the Glass Dissolution Rate Using the Single-Pass Flow-Through Test Method |
ASTM D 5956 : 1996 : R2006 | Standard Guide for Sampling Strategies for Heterogeneous Wastes (Withdrawn 2015) |
ASTM E 177 : 1990 : REV A : R1996 | Standard Practice for Use of the Terms Precision and Bias in ASTM Test Methods |
ASTM D 1129 : 2003 | Standard Terminology Relating to Water |
ASTM C 1463 : 2000 : R2007 | Standard Practices for Dissolving Glass Containing Radioactive and Mixed Waste for Chemical and Radiochemical Analysis |
ASTM C 1463 : 2000 | Standard Practices for Dissolving Glass Containing Radioactive and Mixed Waste for Chemical and Radiochemical Analysis |
ASTM E 456 : 2002 | Standard Terminology for Relating to Quality and Statistics |
ASTM C 1174 : 1997 | Standard Practice for Prediction of the Long-Term Behavior of Waste Package Materials Including Waste Forms Used in the Geologic Disposal of High-Level Nuclear Waste |
ASTM D 1129 : 2013 | Standard Terminology Relating to Water |
ASTM D 1129 : 2013 : R2020 | Standard Terminology Relating to Water |
ASTM C 1109 : 2004 | Standard Practice for Analysis of Aqueous Leachates from Nuclear Waste Materials Using Inductively Coupled Plasma-Atomic Emission Spectrometry |
ASTM D 1193 : 1977 : R1983 : EDT 1 | Standard Specification for Reagent Water |
ASTM D 1129 : 2006 | Standard Terminology Relating to Water |
ASTM C 1174 : 2004 | Standard Practice for Prediction of the Long-Term Behavior of Materials, Including Waste Forms, Used in Engineered Barrier Systems (EBS) for Geological Disposal of High-Level Radioactive Waste |
ASTM C 1174 : 2017 | Standard Practice for Evaluation of the Long-Term Behavior of Materials Used in Engineered Barrier Systems (EBS) for Geological Disposal of High-Level Radioactive Waste |
ASTM E 691 : 2020 | Standard Practice for Conducting an Interlaboratory Study to Determine the Precision of a Test Method |
ASTM C 1662 : 2007 | Standard Practice for Measurement of the Glass Dissolution Rate Using the Single-Pass Flow-Through Test Method |
ASTM C 1662 : 2010 | Standard Practice for Measurement of the Glass Dissolution Rate Using the Single-Pass Flow-Through Test Method |
ASTM C 1220 : 1998 | Standard Test Method for Static Leaching of Monolithic Waste Forms for Disposal of Radioactive Waste |
ASTM C 1174 : 2007 | Standard Practice for Prediction of the Long-Term Behavior of Materials, Including Waste Forms, Used in Engineered Barrier Systems (EBS) for Geological Disposal of High-Level Radioactive Waste |
ASTM D 4327 : 2011 | Standard Test Method for Anions in Water by Suppressed Ion Chromatography |
ASTM C 1662 : 2017 | Standard Practice for Measurement of the Glass Dissolution Rate Using the Single-Pass Flow-Through Test Method |
ASTM C 1463 : 2013 | Standard Practices for Dissolving Glass Containing Radioactive and Mixed Waste for Chemical and Radiochemical Analysis |
ASTM E 1402 : 2013 | Standard Guide for Sampling Design |
ASTM D 1129 : 1999 : REV A | Standard Terminology Relating to Water |
ASTM E 691 : 2019 : EDT 1 | Standard Practice for Conducting an Interlaboratory Study to Determine the Precision of a Test Method |
ASTM E 1402 : 2013 : R2018 | Standard Guide for Sampling Design |
ASTM C 1463 : 2019 | Standard Practices for Dissolving Glass Containing Radioactive and Mixed Waste for Chemical and Radiochemical Analysis |
ASTM D 1129 : 2006 : REV A | Standard Terminology Relating to Water |
ASTM D 1193 : 2006 : R2011 | Standard Specification for Reagent Water |
ASTM D 1129 : 2003 : REV A | Standard Terminology Relating to Water |
ASTM D 1129 : 2002 | Standard Terminology Relating to Water |
ASTM D 1293 : 1999 | Standard Test Methods for pH of Water |
ASTM E 1402 : 1999 | Standard Terminology Relating to Sampling |
ASTM D 4327 : 2003 | Standard Test Method for Anions in Water by Chemically Suppressed Ion Chromatography |
ASTM E 1402 : 2008 : EDT 1 | Standard Guide for Sampling Design |
ASTM E 691 : 2009 | Standard Practice for Conducting an Interlaboratory Study to Determine the Precision of a Test Method |
ASTM D 1193 : 1991 | Standard Specification for Reagent Water |
ASTM D 1293 : 1999 : R2005 | Standard Test Methods for pH of Water |
ASTM D 1129 : 2004 | Standard Terminology Relating to Water |
ASTM D 1293 : 2018 | Standard Test Methods for pH of Water |
ASTM D 4327 : 2017 | Standard Test Method for Anions in Water by Suppressed Ion Chromatography |
ASTM D 4327 : 1997 | Standard Test Method for Anions in Water by Chemically Suppressed Ion Chromatography |
ASTM D 5956 : 1996 : R2001 | Standard Guide for Sampling Strategies for Heterogeneous Wastes |
ASTM D 1129 : 2002 : REV A | Standard Terminology Relating to Water |
ASTM C 1220 : 2010 | Standard Test Method for Static Leaching of Monolithic Waste Forms for Disposal of Radioactive Waste |
ASTM D 1193 : 1970 | Standard Specification For Reagent Water |
ASTM D 1193 : 2006 | Standard Specification for Reagent Water |
ASTM D 1293 : 2012 | Standard Test Methods for pH of Water |
ASTM D 1193 : 1999 | Standard Specification for Reagent Water |
ASTM D 1129 : 2010 | Standard Terminology Relating to Water |
ASTM D 1129 : 2006 : REV A : EDT 1 | Standard Terminology Relating to Water |
ASTM C 1109 : 1998 | Standard Test Method for Analysis of Aqueous Leachates from Nuclear Waste Materials Using Inductively Coupled Plasma-Atomic Emission Spectrometry |
ASTM D 1129 : 2001 | Standard Terminology Relating to Water |
ASTM C 1109 : 2010 | Standard Practice for Analysis of Aqueous Leachates from Nuclear Waste Materials Using Inductively Coupled Plasma-Atomic Emission Spectrometry |
ASTM D 1129 : 2004 : EDT 1 | Standard Terminology Relating to Water |
ASTM D 5956 : 2015 | Standard Guide for Sampling Strategies for Heterogeneous Wastes |
ASTM D 1193 : 2006 : R2018 | Standard Specification for Reagent Water |
ASTM C 1109 : 2010 : R2015 | Standard Practice for Analysis of Aqueous Leachates from Nuclear Waste Materials Using Inductively Coupled Plasma-Atomic Emission Spectroscopy |
ASTM C 1662 : 2018 | Standard Practice for Measurement of the Glass Dissolution Rate Using the Single-Pass Flow-Through Test Method |
ASTM D 5956 : 1996 | Standard Guide for Sampling Strategies for Heterogeneous Wastes |
ASTM C 1174 : 2007 : R2013 | Standard Practice for Prediction of the Long-Term Behavior of Materials, Including Waste Forms, Used in Engineered Barrier Systems (EBS) for Geological Disposal of High-Level Radioactive Waste |
ASTM D 1293 : 1984 : R1990 | Standard Test Methods for pH of Water |
ASTM C 1220 : 2017 | Standard Test Method for Static Leaching of Monolithic Waste Forms for Disposal of Radioactive Waste |
ASTM C 1174 : 2020 | Standard Guide for Evaluation of Long-Term Behavior of Materials Used in Engineered Barrier Systems (EBS) for Geological Disposal of High-Level Radioactive Waste |
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