Modelling the effect of solid-phase additives on thermal degradation of solids
Author:
Publisher
Elsevier BV
Subject
Materials Chemistry,Polymers and Plastics,Mechanics of Materials,Condensed Matter Physics
Reference14 articles.
1. Nelson MI, Brindley J, McIntosh AC. The effect of heat sink additives on the ignition and heat release properties of thermally thin thermoplastics. Fire Safety Journal 1997;28(1):67.
2. Babrauskas V. Development of the cone calorimeter – a benchscale heat release rate apparatus based on oxygen consumption. National Bureau of Standards, Washington, DC. NBSIR 1982. p. 82–2611.
3. Babrauskas V. Development of the cone calorimeter – a benchscale heat release rate apparatus based on the oxygen consumption principle. Fire and Materials 1984;8(2):81–95.
4. Babrauskas V. Construction drawings for the cone calorimeter. Technical report, Center for Fire Research, US National Bureau of Standards, 1985.
5. Standard test method for heat and visible smoke release rates for materials and products using an oxygen consumption calorimeter. ASTM E 1354, American Society for the Testing of Materials, Philadelphia 1992.
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