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ASTM E 2585 : 2009 : R2015

Superseded

Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.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 Practice for Thermal Diffusivity by the Flash Method

Available format(s)

Hardcopy , PDF

Superseded date

21-07-2022

Language(s)

English

Published date

14-09-2015

€67.30
Excluding VAT

CONTAINED IN VOL. 14.02, 2015 Describes a method for thermal diffusivity by the flash method.

Committee
E 37
DocumentType
Standard Practice
Pages
10
ProductNote
Reconfirmed 2015
PublisherName
American Society for Testing and Materials
Status
Superseded
SupersededBy
Supersedes

1.1This practice covers practical details associated with the determination of the thermal diffusivity of primarily homogeneous isotropic solid materials. Thermal diffusivity values ranging from 10-7 to 10-3 m2/s are readily measurable by this from about 75 to 2800 K.

1.2This practice is adjunct to Test Method E1461.

1.3This practice is applicable to the measurements performed on materials opaque to the spectrum of the energy pulse, but with special precautions can be used on fully or partially transparent materials.

1.4This practice is intended to allow a wide variety of apparatus designs. It is not practical in a document of this type to establish details of construction and procedures to cover all contingencies that might offer difficulties to a person without pertinent technical knowledge, or to stop or restrict research and development for improvements in the basic technique. This practice provides guidelines for the construction principles, preferred embodiments and operating parameters for this type of instruments.

1.5This practice is applicable to the measurements performed on essentially fully dense materials; however, in some cases it has shown to produce acceptable results when used with porous specimens. Since the magnitude of porosity, pore shapes, and parameters of pore distribution influence the behavior of the thermal diffusivity, extreme caution must be exercised when analyzing data. Special caution is advised when other properties, such as thermal conductivity, are derived from thermal diffusivity obtained by this method.

1.6The flash can be considered an absolute (or primary) method of measurement, since no reference materials are required. It is advisable to use only reference materials to verify the performance of the instrument used.

1.7This method is applicable only for homogeneous solid materials, in the strictest sense; however, in some cases it has been shown to produce data found to be useful in certain applications:

1.7.1Testing of Composite Materials—When substantial non-homogeneity and anisotropy is present in a material, the thermal diffusivity data obtained with this method may be substantially in error. Nevertheless, such data, while usually lacking absolute accuracy, may be useful in comparing materials of similar structure. Extreme caution must be exercised when related properties, such as thermal conductivity, are derived, as composite materials, for example, may have heat flow patterns substantially different than uniaxial. In cases where the particle size of the composite phases is small compared to the specimen thickness (on the order of 1 to 25 % of thickness) and where the transient thermal response of the specimen appears homogenous when compared to the model, this method can produce accurate results for composite materials. Anisotropic materials can be measured by various techniques, as long as the directional thermal diffusivities (two dimensional or three dimensional) are mutually orthogonal and the measurement and specimen preparation produce heat flow only along one principle direction. Also, 2D and 3D models and either independent measurements in one or two directions, or simultaneous measurements of temperature response at different locations on the surface of the specimen, can be utilized.

1.7.2Testing Liquids—This method has found an especially useful application in determining thermal diffusivity of molten materials. For this technique, specially constructed specimen enclosures must be used.

1.7.3Testing Layered Materials—This method has also been extended to test certain layered structures made of dissimilar materials, where the thermal properties of one of the layers are considered unknown. In some cases, contact conductance of the interface may also be determined.

1.8The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.

1.9This 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 E 3045 : 2016 Standard Practice for Crack Detection Using Vibroacoustic Thermography
ASTM E 1461 : 2013 Standard Test Method for Thermal Diffusivity by the Flash Method
ASTM E 1461 : 2013 : R2022 Standard Test Method for Thermal Diffusivity by the Flash Method
ASTM C 1470 : 2020 Standard Guide for Testing the Thermal Properties of Advanced Ceramics
ASTM E 3045 : 2021 Standard Practice for Crack Detection Using Vibroacoustic Thermography

ASTM E 228 : 2017 : REDLINE Standard Test Method for Linear Thermal Expansion of Solid Materials With a Push-Rod Dilatometer
ASTM E 1461 : 2011 Standard Test Method for Thermal Diffusivity by the Flash Method
ASTM E 1461 : 2007 Standard Test Method for Thermal Diffusivity by the Flash Method
ASTM E 1461 : 2013 : REDLINE Standard Test Method for Thermal Diffusivity by the Flash Method
ASTM E 1461 : 1992 Standard Test Method for Thermal Diffusivity of Solids by the Flash Method
ASTM E 1461 : 2013 : R2022 Standard Test Method for Thermal Diffusivity by the Flash Method
ASTM E 1461 : 2013 Standard Test Method for Thermal Diffusivity by the Flash Method
ASTM E 1461 : 2001 Standard Test Method for Thermal Diffusivity of Solids by the Flash Method

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