<abstract xml:lang="en" xmlns="http://www.w3.org/1999/xhtml"><p>Based on the results of author's research it was stated that significant differences between heat release rates measured according to ISO 5660-1 and FTP Code Part 5 (Res. A. 653 (16)) are not caused by measurement uncertainties. A basic factor determining the lack of correlation is treating the heat release rate in the category of static measurements in the normalized measurement methods. Taking into account dynamic parameters of the test station allowed the coincidence rate (reproducibility and correlation) of the results of heat release rates measured using different methods to be improved, without changing test stations and procedures. Author's research performed on 42 materials has revealed that the relative dynamic errors of the heat release rate measurements are significant (2%÷120%). The average value of these changes for the tested group of materials was equal to 39%.</p></abstract>

Based on the results of author's research it was stated that significant differences between heat release rates measured according to ISO 5660-1 and FTP Code Part 5 (Res. A. 653 (16)) are not caused by measurement uncertainties. A basic factor determining the lack of correlation is treating the heat release rate in the category of static measurements in the normalized measurement methods. Taking into account dynamic parameters of the test station allowed the coincidence rate (reproducibility and correlation) of the results of heat release rates measured using different methods to be improved, without changing test stations and procedures. Author's research performed on 42 materials has revealed that the relative dynamic errors of the heat release rate measurements are significant (2%÷120%). The average value of these changes for the tested group of materials was equal to 39%.

The analysis of research results concerning heat release rates of ship materials with regard to dynamic parameters of the research station

Polish Maritime Research

Based on the results of author's research it was stated that significant differences between heat release rates measured according to ISO 5660-1 and FTP Code...

The analysis of research results concerning heat release rates of ship materials with regard to dynamic parameters of the research station

Published Online: Jun 10, 2008

Page range: 56 - 59

DOI: https://doi.org/10.2478/v10012-007-0052-7

Keywords
fire safety, heat release rate, dynamic measurement

This content is open access.

The analysis of research results concerning heat release rates of ship materials with regard to dynamic parameters of the research station

Published Online: Jun 10, 2008

Page range: 56 - 59

DOI: https://doi.org/10.2478/v10012-007-0052-7

Keywordsfire safety, heat release rate, dynamic measurement

This content is open access.

Keywords
fire safety, heat release rate, dynamic measurement