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Test method flame

Measurement of flame spread under external heat flux is necessary where the thermal radiation is likely to impinge on the textile materials, for example, the flooring material of the building or transport vehicles whose upper surfaces are heated by flames or hot gases, or both. The French test method, NF P 92-503 Bruleur Electrique or M test involves radiant panel for testing flame spread of flexible textile materials. This test method (flame spread under external heat flux) is the basis of that used by the FAA (Federal Aviation Administration) for assessing flammability of textile composites used in thermal/acoustic insulation materials (FAR 25.856 (a)) used in aircraft and has also been included by the EU for fire test approval of floorings such as prEN ISO 9239 and BS ISO 4589-1. [Pg.728]

Tunnel Test. The tunnel test is widely used to test the flame spread potential of building products such as electrical cable (15) and wall coverings (16). The test apparatus consists of a tunnel 7.62 x 0.445 m x 0.305 m ia cross section, one end of which contains two gas burners. The total heat suppHed by the burners is 5.3 MJ/min. The test specimen (7.62 m x 50.8 cm), attached to the ceiling, is exposed to the gas flames for 10 minutes while the maximum flame spread, temperature, and smoke evolved are measured. The use of this and other flame spread test methods has been reviewed (17). [Pg.466]

Numerous tests covering flame retardancy and related matters are available. The requirements most often specified for fire resistance of a textile materials are that it must pass either Federal Specification Method 5903 or NFPA 701. [Pg.487]

The Fire Tests for Flame Resistant Textiles and Films, issued by the National Fire Protection Association (NFPA) ia 1989, is the method most used by iadustrial fire-retardant finishers (ca 1993) (50). It has been approved by the American National Standards Institute. [Pg.487]

Eire hazard testing. Part 11 Test flames - 500 W flame test methods. Superseded BS 2782 - 140C 1993... [Pg.592]

AMD 1 Eire hazard testing. Part 2 Test methods. Needle-flame test (AMD 9176J dated 15 November 1996. Previously known as BS 6458 Section 2.2 1993 Eire hazard testing. Terminology concerning fire tests. Superseded BS 6458 Part 1 1990 Elammability of solid non-metallic materials when exposed to flame sources - List of test methods. Superseded BS 6334 1983... [Pg.592]

Flash Point - The flash point of a material is the lowest temperature at which vapors above a volatile substance will ignite in air when exposed to a flame. Depending on the test method used, the value of flash point temperature is either Tag Closed Cup (CC) based on ASTM D56 test method, or Cleveland Open Cup (CC) based on ASTM 093. The value provides a relative indication of the flammability of the chemical. [Pg.442]

R. Roussakis and K. Lapp, A Comprehensive Test Method for Inline Flame Anesters, Paper presented at AIChE Loss Prevention Symposium. San Diego, Aug. 1990. [Pg.289]

The Canadian Standards Association published a standard on test methods for in-line and firebox flame arresters in 1991. A revision was published in 1998 (CSA 1998). [Pg.11]

CSA (Canadian Standards Association) CSA-Z343. 1998. Test Methods for In-Line and Firebox Flame Arresters. Canadian Standards Association, Toronto, Ontario, Canada. [Pg.14]

Roussakis, N. and Lapp, L. 1991. A Comprehensive Test Method for Inline Flame Arresters. Plant/Operations Progress, 10(2), 85-92 (April). [Pg.48]

The Canadian Standards Association Standard Z343 (CSA 1998) presents test methods for in-line and firebox flame arresters. In this standard in-line flame arresters are limited to only detonation types and firebox flame arresters are defined as flame arresters installed in an enclosnre, or system of enclosnres, where the mn-np distance is less than 1.5 meters and open to the atmosphere. Firebox flame arresters are commonly nsed on eqnip-ment designed to heat flnids in prodnction operations snch as indirect heaters, emnlsion treaters, and glycol dehydrators. The development history of this standard is presented in Section 2.3.2. [Pg.158]

The standard presents procednres for condncting bnrn tests for in-line flame arresters, and deflagration and detonation test methods for in-line... [Pg.158]

As the DI plant becomes exhausted, silica leakage occurs in the treated MU water and the pH falls abruptly. Furthermore, where sodium ion leakage occurs from the cation bed, it produces a regenerative effect on the anion bed, which may also lead to silica leakage. To differentiate between the two phenomena, sodium ion leakage from the cation bed should be assessed directly using selective sodium-ion electrodes, flame photometric analysis, or other appropriate test methods. [Pg.199]

ASTM. 1998a. ASTME1613. Standard test method for analysis of digested samples for lead by inductively coupled plasma atomic emission spectrometry (ICP-AES). Flame Atomic Absorption (FAAS), or Graphite Furnace Atomic Absorption (GFAA) Techniques. American Society for Testing and Materials. [Pg.488]

Given the above observations it was essential in the present study that multiple test methods be used, representing evaluation of the effects of coatings on ignitability, flame spread, heat release, ease of extinction, and smoke. Samples should be commercially prepared and representative of materials commonly used in business machine applications. [Pg.289]

A description is given of the initiatives carried out within the European Community for the harmonization of fire testing. The technical and economic reasons are explained for such initiatives, which are taken in order to remove barriers to trade from the European internal market. Of the various fire aspects, only fire reaction testing is taken into consideration here, because it appears as a major technical obstacle to the free circulation of construction materials. All possible approaches are considered for the attainment of such a harmonization and one, the so called interim solution, is fully described. The proposed interim solution, is based on the adoption of three fundamental test methods, i.e. the British "Surface Spread of Flame", the French "Epiradiateur" and the German "Brandschacht", and on the use of a rather complicated "transposition document", which should allow to derive most of the national classifications from the three test package. [Pg.479]

The number of small scale test methods, used for classification purposes, should be limited and based on ISO tests, presumably the Cone Calorimeter /10/ (see Fig. 8) and possibly the ISO Surface Spread of Flame test /11/. [Pg.495]

ASTM E-1321, Standard Test Method for Determining Material Ignition and Flame Spread Properties, American Society for Testing and Materials Philadelphia, Pennsylvania, 1996. [Pg.188]

Recently revised test methods have revealed that nonluminous or barely luminous combustion reactions are occurring where previously it was reported that no combustion activity was occurring based on flame observance. [Pg.31]

See other pages where Test method flame is mentioned: [Pg.113]    [Pg.113]    [Pg.3]    [Pg.518]    [Pg.462]    [Pg.2300]    [Pg.2317]    [Pg.179]    [Pg.84]    [Pg.12]    [Pg.27]    [Pg.125]    [Pg.293]    [Pg.467]    [Pg.492]    [Pg.494]    [Pg.184]    [Pg.278]    [Pg.92]    [Pg.93]    [Pg.728]    [Pg.68]    [Pg.69]    [Pg.135]    [Pg.396]   
See also in sourсe #XX -- [ Pg.287 , Pg.403 ]



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