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Pyrolysis combustion flow

Combining data obtained by the cone calorimeter with pyrolysis combustion flow calorimeter (PCFC sometimes called microscale combustion calorimeter, MCC) results was also proposed to increase the understanding of flame retardancy and flame retardancy mechanisms.104 Dividing the fraction of the effective heat of combustion of the volatiles (THE/ML) obtained from the cone calorimeter by the heat of complete combustion of the volatiles obtained from PCFC yields the combustion efficiency %. Thus the combination of fire test and PCFC enables a quantitative... [Pg.406]

Schartel B, Pawlowski KH, Lyon RE. Pyrolysis combustion flow calorimeter A tool to assess flame retarded PC/ABS materials Thermochim. Acta 2007 462 1-14. [Pg.419]

In recent years, a new fire-test instrument was developed the pyrolysis combustion flow calorimeter (PCFC) or microcalorimeter.209 210 This instrument (Figure 21.17) was developed by Richard Lyon and his coworkers at the FAA laboratories. It enables the determination of parameters such as specific heat release rate (W/g), heat of combustion (J/g), and ignition temperature (°K), to be quickly determined from very small (1-50 mg) test specimens. The technique has been standardized by ASTM as ASTM D 7309. Data from the PCFC has been shown to be capable of being correlated... [Pg.651]

Cone calorimetry according to the ASTM E1354138 or ISO 5660139 standards are commonly used in the laboratory to screen flammability of materials by measuring heat release characteristics of the compound.116140 This device is similar to FPA but does not have the versatility of FPA. The cone calorimeter can determine the ignitability, heat release rates, effective heat of combustion, visible smoke, and C02 and CO development of cable materials. This test has been used extensively for wire and cable material evaluation. The microscale combustion calorimeter (MCC), also known as pyrolysis combustion flow calorimeter (PCFC), was recently introduced to the industry for screening heat release characteristics of FR materials.141142 This device only requires milligram quantities of test specimen to measure the heat release capacity (maximum heat release potential). Cone calorimetry and MCC have been used in product development for flammability screening of wire and cable compounds.118... [Pg.795]

FIGURE 26.4 Probability for flame spread versus heat release capacity of compounds. (Cogen, J.M. et al., Correlations between pyrolysis combustion flow calorimetry and conventional flammability tests with halogen free flame retardant polyolefin compounds, Fire Mater., 2009, 33, 33-50.)... [Pg.797]

Lyon, R.E. and Walters, R.N., Pyrolysis combustion flow calorimetry, J. Anal. Appl. Pyrolysis, 2004, 71, 27-46. [Pg.804]

Lyon, R.E. Walters, R.N. Gandhi, S. A pyrolysis-combustion flow calorimeter study of polymer heat release rate. Recent Adv. Flame Retard. Polym. Mater. 1998, 9, 334-353. [Pg.1895]

Zhang and co-workers [78] studied the decomposition and flammability of fire retarded UV visible sensitive polyacrylates and their copolymers based on bisphenol A (BPA), l,l-dichloro-2,2-bis(4-hydroxylphenyl)ethylene (BPCII) and 4,4 -dihydroxy-3-ethoxy benzylidenoacetophenone polyarylate (Chakon II). The study included investigation by Py-GC-MS, simultaneous thermal analysis and pyrolysis-combustion flow calorimetry [59]. [Pg.30]

Thermal relationships between flammability and structure/composition of these polymers was explored. It is found that BPC Il-polyarylate is an extremely fire-resistant thermoplastic that can be used as an efficient flame-retardant agent to be blended with the other polymers. Chakon Il-polyarylate is of interest as a UV/visibk-sensitive polymer with a relatively low HRR and a high char yield. Pyrolysis combustion flow calorimetry (PCFC) results show that the total heat of combustion of the copolymers or blends changes linearly with the composition, but the change of maximum HRR and char yield depends greatly on the chemical structure of the components. [Pg.30]

Heat release is generally evaluated either using the well-known cone calorimeter or using a pyrolysis combustion flow calorimeter (PCFC). The PCFC is a useful tool to study the flammability of very small polymeric samples (2-5 mg). ° The sample is pyrolyzed under nitrogen flow at a... [Pg.269]

Fire calorimetry (4,11,20,25) (see under Testing to Obtain Engineering Data) is used to obtain HRP as the slope of heat release rate versus external heat flux or as the ratio x c°/Dg = HOC/Lg, from individual measurements. Table 7 contains HOC and x (=HOC//ic°) for common polymers while HRP are listed in Table 8. The heat of combustion of the fuel gases, hc, was measured separately in a pyrolysis-combustion flow calorimeter (26) (see section on The Pyrolysis-Combustion Flow Calorimetry). [Pg.3257]

Experimental values for hc° determined by pyrolysis-combustion flow calorimetry (see below) are listed in Table 7. The elemental analysis of chars gives typical chemical formula C5H2 from which the heat of combustion of the char calculated from oxygen consumption is /ic,p° 37 kJ/g, which can be used to estimate the heat of combustion of the fuel gases of charring polymers using equation 56 if /x is known. [Pg.3266]

See other pages where Pyrolysis combustion flow is mentioned: [Pg.287]    [Pg.655]    [Pg.669]    [Pg.171]    [Pg.79]    [Pg.76]    [Pg.152]    [Pg.3284]    [Pg.3291]    [Pg.183]    [Pg.320]    [Pg.196]    [Pg.521]    [Pg.527]   


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