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ASTM D 6866 : 2022

Superseded

Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

View Superseded by

Standard Test Methods for Determining the Biobased Content of Solid, Liquid, and Gaseous Samples Using Radiocarbon Analysis

Available format(s)

Hardcopy , PDF

Superseded date

09-02-2024

Superseded by

ASTM D 6866 : 2024

Language(s)

English

Published date

23-03-2022

£63.73
Excluding VAT

Committee
D 20
DocumentType
Test Method
Pages
19
PublisherName
American Society for Testing and Materials
Status
Superseded
SupersededBy
Supersedes

1.1This standard is a test method that teaches how to experimentally measure biobased carbon content of solids, liquids, and gaseous samples using radiocarbon analysis. These test methods do not address environmental impact, product performance and functionality, determination of geographical origin, or assignment of required amounts of biobased carbon necessary for compliance with federal laws.

1.2These test methods are applicable to any product containing carbon-based components that can be combusted in the presence of oxygen to produce carbon dioxide (CO2) gas. The overall analytical method is also applicable to gaseous samples, including flue gases from electrical utility boilers and waste incinerators.

1.3These test methods make no attempt to teach the basic principles of the instrumentation used although minimum requirements for instrument selection are referenced in the References section. However, the preparation of samples for the above test methods is described. No details of instrument operation are included here. These are best obtained from the manufacturer of the specific instrument in use.

1.4Limitation—This standard is applicable to laboratories working without exposure to artificial carbon-14 (14C). Artificial 14C is routinely used in biomedical studies by both liquid scintillation counter (LSC) and accelerator mass spectrometry (AMS) laboratories and can exist within the laboratory at levels 1,000 times or more than 100 % biobased materials and 100,000 times more than 1% biobased materials. Once in the laboratory, artificial 14C can become undetectably ubiquitous on door knobs, pens, desk tops, and other surfaces but which may randomly contaminate an unknown sample producing inaccurately high biobased results. Despite vigorous attempts to clean up contaminating artificial 14C from a laboratory, isolation has proven to be the only successful method of avoidance. Completely separate chemical laboratories and extreme measures for detection validation are required from laboratories exposed to artificial 14C. Accepted requirements are:

(1)disclosure to clients that the laboratory(s) working with their products and materials also works with artificial 14C

(2)chemical laboratories in separate buildings for the handling of artificial 14C and biobased samples

(3)separate personnel who do not enter the buildings of the other

(4)no sharing of common areas such as lunch rooms and offices

(5)no sharing of supplies or chemicals between the two

(6)quasi-simultaneous quality assurance measurements within the detector validating the absence of contamination within the detector itself. (1, 2, and 3)2

1.5This 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use.

Note 1:ISO 16620-2 is equivalent to this standard.

1.6This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

ASTM D 1655 : 2021 : REV C Standard Specification for Aviation Turbine Fuels
ASTM D 7459 : 2008 : R2016 Standard Practice for Collection of Integrated Samples for the Speciation of Biomass (Biogenic) and Fossil-Derived Carbon Dioxide Emitted from Stationary Emissions Sources
ASTM D 6868 : 2021 Standard Specification for Labeling of End Items that Incorporate Plastics and Polymers as Coatings or Additives with Paper and Other Substrates Designed to be Aerobically Composted in Municipal or Industrial Facilities
ASTM D 8410 : 2021 Standard Specification for Evaluation of Cellulosic-Fiber-Based Packaging Materials and Products for Compostability in Municipal or Industrial Aerobic Composting Facilities
ASTM D 8029 : 2018 Standard Specification for Biodegradable, Low Aquatic Toxicity Hydraulic Fluids
ASTM D 7566 : 2021 Standard Specification for Aviation Turbine Fuel Containing Synthesized Hydrocarbons
ASTM D 8473 : 2022 Standard Test Method for Determining the Biobased content of Liquid Hydrocarbon Fuels Using Liquid Scintillation Counting with Spiked Carbon-14
ASTM D 8029 : 2023 Standard Specification for Biodegradable, Low Aquatic Toxicity Hydraulic Fluids
ASTM D 6400 : 2023 Standard Specification for Labeling of Plastics Designed to be Aerobically Composted in Municipal or Industrial Facilities
ASTM D 8410 : 2022 Standard Specification for Evaluation of Cellulosic-Fiber-Based Packaging Materials and Products for Compostability in Municipal or Industrial Aerobic Composting Facilities
ASTM D 7566 : 2023 : REV B Standard Specification for Aviation Turbine Fuel Containing Synthesized Hydrocarbons
ASTM D 1655 : 2023 : REV A Standard Specification for Aviation Turbine Fuels
ASTM E 3361 : 2022 Standard Guide for Estimating Natural Attenuation Rates for Non-Aqueous Phase Liquids in the Subsurface

ASTM D 883 : 2023 Standard Terminology Relating to Plastics
ASTM D 883 : 2022 Standard Terminology Relating to Plastics
ASTM D 883 : 2020 : REV B Standard Terminology Relating to Plastics

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