Designation standards: ASTM E458-08(2020) Publication date standards: 1.11.2020 SKU: NS-1013260 The number of pages: 7 Approximate weight : 21 g (0.05 lbs) Country: American technical standard Category:Technical standards ASTM
ablation, cold-wall heat of ablation, effective heat of ablation, heat of ablation, thermochemical heat of ablation ,, ICS Number Code 17.200.10 (Heat. Calorimetry)
Additional information
Significance and Use
4.1?GeneralThe heat of ablation provides a
measure of the ability of a material to serve as a heat protection
element in a severe thermal environment. The parameter is a
function of both the material and the environment to which it is
subjected. It is therefore required that laboratory measurements of
heat of ablation simulate the service environment as closely as
possible. Some of the parameters affecting the heat of ablation are
pressure, gas composition, heat transfer rate, mode of heat
transfer, and gas enthalpy. As laboratory duplication of all
parameters is usually difficult, the user of the data should
consider the differences between the service and the test
environments. Screening tests of various materials under simulated
use conditions may be quite valuable even if all the service
environmental parameters are not available. These tests are useful
in material selection studies, materials development work, and many
other areas.
4.2?Steady-State ConditionsThe nature of the
definition of heat of ablation requires steady-state conditions.
Variances from steady-state may be required in certain
circumstances; however, it must be realized that transient
phenomena make the values obtained functions of the test duration
and therefore make material comparisons difficult.
4.2.1?Temperature RequirementsIn a steady-state
condition, the temperature propagation into the material will move
at the same velocity as the gas-ablation surface interface. A
constant distance is maintained between the ablation surface and
the isotherm representing the temperature front. Under steady-state
ablation the mass loss and length change are linearly related.
4.2.2?Exposure
Time RequirementsThe exposure time required to achieve
steady-state may be determined experimentally by the use of
multiple models by plotting the total mass loss as a function of
the exposure time. The point at which the curve departs
significantly from linearity is the minimum exposure time required
for steady-state ablation to be established. Cases exist, however,
in the area of very high heating rates and high shear where this
type of test for steady-state may not be possible.
1. Scope
1.1?This
test method covers determination of the heat of ablation of
materials subjected to thermal environments requiring the use of
ablation as an energy dissipation process. Three concepts of the
parameter are described and defined: cold wall, effective, and
thermochemical heat of ablation.
1.2?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, health, and environmental practices
and determine the applicability of regulatory limitations prior to
use.
1.3?This 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.
Standard Test Method for Measuring
Heat-Transfer Rate Using a Thermal Capacitance (Slug)
Calorimeter
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