CSA Group Plastics - Phenolic resins - Determination of heats and temperatures of reaction by differential scanning calorimetry ISO 11409:1993

Description
The principle of the method specified is measuring the heat flux supplied to a test sample as a function of time or temperature, while the test sample is subjected to a temperature schedule under a specified atmosphere. A reaction is marked by the release of energy from the sample, resulting in an exothermic peak in the heating curve. Integration of the recorded peak area as a function of time gives a measure of the energy of the reaction. Applies to phenolic resins with exothermic behaviour, such as resols or mixtures of novolaks with hexamethylenetetrami ne or other curing agents.
Description
The principle of the method specified is measuring the heat flux supplied to a test sample as a function of time or temperature, while the test sample is subjected to a temperature schedule under a specified atmosphere. A reaction is marked by the release of energy from the sample, resulting in an exothermic peak in the heating curve. Integration of the recorded peak area as a function of time gives a measure of the energy of the reaction. Applies to phenolic resins with exothermic behaviour, such as resols or mixtures of novolaks with hexamethylenetetrami ne or other curing agents.

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Plastics - Phenolic resins - Determination of heats and temperatures of reaction by differential scanning calorimetry - ISO 11409:1993 - CSA Group
Toronto, Ontario, Canada
Plastics - Phenolic resins - Determination of heats and temperatures of reaction by differential scanning calorimetry
ISO 11409:1993
Plastics - Phenolic resins - Determination of heats and temperatures of reaction by differential scanning calorimetry ISO 11409:1993
The principle of the method specified is measuring the heat flux supplied to a test sample as a function of time or temperature, while the test sample is subjected to a temperature schedule under a specified atmosphere. A reaction is marked by the release of energy from the sample, resulting in an exothermic peak in the heating curve. Integration of the recorded peak area as a function of time gives a measure of the energy of the reaction. Applies to phenolic resins with exothermic behaviour, such as resols or mixtures of novolaks with hexamethylenetetrami ne or other curing agents.

The principle of the method specified is measuring the heat flux supplied to a test sample as a function of time or temperature, while the test sample is subjected to a temperature schedule under a specified atmosphere. A reaction is marked by the release of energy from the sample, resulting in an exothermic peak in the heating curve. Integration of the recorded peak area as a function of time gives a measure of the energy of the reaction. Applies to phenolic resins with exothermic behaviour, such as resols or mixtures of novolaks with hexamethylenetetramine or other curing agents.

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Technical Specifications

  CSA Group
Product Category Standards and Technical Documents
Product Number ISO 11409:1993
Product Name Plastics - Phenolic resins - Determination of heats and temperatures of reaction by differential scanning calorimetry
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