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ASTM - E1877

Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data

active, Most Current
Organization: ASTM
Publication Date: 1 March 2021
Status: active
Page Count: 7
ICS Code (Chemical analysis): 71.040.40
scope:

This practice describes the determination of thermal endurance, thermal index, and relative thermal index for organic materials using the Arrhenius activation energy generated for thermal decomposition measured by thermogravimetry.

This practice is generally applicable to materials with a well-defined thermal decomposition profile upon heating, namely a smooth, continuous mass change.

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

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.

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.

*A Summary of Changes section appears at the end of this standard

Document History

E1877
March 1, 2021
Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data
This practice describes the determination of thermal endurance, thermal index, and relative thermal index for organic materials using the Arrhenius activation energy generated for thermal...
May 1, 2017
Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data
This practice describes the determination of thermal endurance, thermal index, and relative thermal index for organic materials using the Arrhenius activation energy generated by thermogravimetry....
March 1, 2015
Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data
This practice describes the determination of thermal endurance, thermal index, and relative thermal index for organic materials using the Arrhenius activation energy generated by thermogravimetry....
August 1, 2011
Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data
This practice describes the determination of thermal endurance, thermal index, and relative thermal index for organic materials using the Arrhenius activation energy generated by thermogravimetry....
August 1, 2011
Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data
This practice covers additional treatment of the Arrhenius activation energy data determined by Test Method E1641 to develop a thermal endurance curve and derive a relative thermal index for...
March 10, 2000
Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data
This practice covers additional treatment of the Arrhenius activation energy data determined by Test Method E1641 to develop a thermal endurance curve and derive a relative thermal index for...
March 10, 2000
Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data
This practice covers additional treatment of the Arrhenius activation energy data determined by Test Method E 1641 to develop a thermal endurance curve and derive a relative thermal index for...
March 10, 2000
Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data
This practice covers additional treatment of the Arrhenius activation energy data determined by Test Method E 1641 to develop a thermal endurance curve and derive a relative thermal index for...
April 10, 1997
Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data
A description is not available for this item.

References

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