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ASTM D 6954 Document Information:
Title
Standard Guide for Exposing and Testing Plastics that Degrade in the Environment by a Combination of Oxidation and Biodegradation
ASTM International
Publication Date:
May 1, 2004
Scope:
This guide provides a framework or road map to compare and rank the
controlled laboratory rates of
degradation and degree of physical property losses of polymers by
thermal and photooxidation
processes as well as the biodegradation and ecological impacts in
defined applications and disposal
environments after degradation. Disposal environments range from
exposure in soil, landfill, and
compost in which thermal oxidation may occur and land cover and
agricultural use in which
photooxidation may also occur.
In this guide, established ASTM International standards are used in
three tiers for accelerating
and measuring the loss in properties and molecular weight by both
thermal and photooxidation
processes and other abiotic processes (Tier 1), measuring
biodegradation (Tier 2), and assessing
ecological impact of the products from these processes (Tier 3).
The Tier 1 conditions selected for thermal oxidation and
photooxidation accelerate the degradation
likely to occur in a chosen application and disposal environment. The
conditions should include a
range of humidity or water concentrations based on the application and
disposal environment in
mind. The measured rate of degradation at typical oxidation
temperatures is required to compare and
rank the polymers being evaluated in that chosen application to reach
a molecular weight that
constitutes a demonstrable biodegradable residue (using ASTM
International biometer tests for CO2
evolution appropriate to the chosen environment). By way of example,
accelerated oxidation data
must be obtained at temperatures and humidity ranges typical in that
chosen application and
disposal environment, for example, in soil (20 to 30°C), landfill
(20 to 35°C), and
composting facilities (30 to 65°C). For applications in soils,
local temperatures and humidity
ranges must be considered as they vary widely with geography. At least
one temperature must be
reasonably close to the end use or disposal temperature, but under no
circumstances should this be
more than 20°C away from the removed that temperature. It must
also be established that the
polymer does not undergo a phase change, such as glass transition
temperature (Tg) within the
temperature range of testing.
The residues resulting from the oxidations are then exposed to
appropriate disposal or use
environments in standard biometric test methods to measure the rate
and degree of biodegradation
(Tier 2).
The data generated under Tier 1 evaluation and the determined time for
the biodegradation in the
chosen environment (Tier 2) allow ranking relative to other polymers
evaluated under similar
environmental conditions with this guide. The degree and time for
biodegradation should be
consistent with ASTM International methods, and any residues from the
intermediate oxidation stage
and from biodegradation must be shown to be environmentally benign and
not persistent (Tier 3).
NOTE 1 - The intended use of this guide is for comparison and ranking
of data to aid in the design
and development and the reduction of environmental impacts of polymers
that require no more than 24
months to oxidize and biodegrade in the intended use and disposal
options and create no harmful or
persistent residues under the appropriate disposal conditions (for
example, two seasons of
crop-growing conditions in soil).
It is cautioned that the results of any laboratory exposure in this
guide cannot be directly
extrapolated to actual disposal environments; confirmation to real
world exposure is ultimately
required as with all ASTM International standards.
The values stated in SI units are to be regarded as standard.
NOTE 2 - There is no ISO standard that is the equivalent of this
standard guide. Note this changed
all subsequent Note numbers.
This 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
requirements prior to use.
Keywords:
- biodegradation
- ecotoxicity
- environmental degradation
- oxidation
- photooxidation
- thermal
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