BS ISO/TR 11696-1:1999
Current
The latest, up-to-date edition.
Uses of reaction to fire test results Application of test results to predict fire performance of internal linings and other building products
Hardcopy , PDF
English
15-05-2000
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Foreword
Introduction
1 Scope
2 References
3 Terms and definitions
4 Fire scenarios
5 Experimental methods and their limitations
6 Ignitability
7 Flame spread
8 Heat release rate
9 Smoke production and obscuration
10 Modelling room fire growth - lining materials
Annexes
A How to use piloted ignition test data - A
rational approach
B How to use test results of smoke production - A
rational approach
C Mathematical modelling of upward flame spread
and HRR in full scale
Bibliography
Covers the use of information on basic values for ignition, flame-spread, heat release rate and smoke in fire grown models for internal linings and other building products for a description of the fire hazard in a limited number of scenarios, beginning with the developing of fire in a small room. Other scenarios can include the spread of fire in a large area and propagation down a corridor.
| Committee |
FSH/21
|
| DocumentType |
Standard
|
| Pages |
48
|
| PublisherName |
British Standards Institution
|
| Status |
Current
|
This Technical Report describes how information on basic values for ignition, spread of flame, rate of heat release and smoke can be used in fire growth models for internal linings and other building products to describe the fire hazard in a limited number of scenarios starting with fire development in a small room. Other scenarios include fire spread in a large compartment and fire propagation down a corridor. The types of models to be used are: mathematical models based on fire growth physics, which calculate fire room variables, the results of which may be used for fire safety engineering purposes; and generalized engineering calculations. Sub-models can be included within the above models, provided the consistency of the whole is not prejudiced. The models in general are not limited to one fire scenario. The models should be used to calculate and describe the fire properties of building products in their end-use conditions. The use of models should not be limited by difficult materials, but it is recognized that some products may not be capable of being modelled (for example due to their complex assembly or to their thermoplastic properties). Input parameters for models are based on ISO tests, mainly those in ISO/TR3814. The quality of a fire model for wall and ceiling linings is assessed by comparison with test results from a full-scale small room test for surface products and by sensitivity analysis on the model itself.
| Standards | Relationship |
| ISO/TR 11696-1:1999 | Identical |
| PD 6686:2006 | Guidance on directives, regulations and standards related to prevention of fire and explosion in the process industries |
| ISO 5660-1:2015 | Reaction-to-fire tests Heat release, smoke production and mass loss rate Part 1: Heat release rate (cone calorimeter method) and smoke production rate (dynamic measurement) |
| ISO 5725-1:1994 | Accuracy (trueness and precision) of measurement methods and results — Part 1: General principles and definitions |
| ISO/TR 9122-4:1993 | Toxicity testing of fire effluents Part 4: The fire model (furnaces and combustion apparatus used in small-scale testing) |
| ISO/TR 9122-1:1989 | Toxicity testing of fire effluents Part 1: General |
| ISO 3261:1975 | Fire tests — Vocabulary |
| ISO 5658-2:2006 | Reaction to fire tests Spread of flame Part 2: Lateral spread on building and transport products in vertical configuration |
| ISO/TR 9122-5:1993 | Toxicity testing of fire effluents Part 5: Prediction of toxic effects of fire effluents |
| ISO 9705:1993 | Fire tests Full-scale room test for surface products |
| ISO/TR 9122-2:1990 | Toxicity testing of fire effluents Part 2: Guidelines for biological assays to determine the acute inhalation toxicity of fire effluents (basic principles, criteria and methodology) |
| ISO/TR 5924:1989 | Fire tests — Reaction to fire — Smoke generated by building products (dual-chamber test) |
| ISO 5657:1997 | Reaction to fire tests Ignitability of building products using a radiant heat source |
| ISO 5660-2:2002 | Reaction-to-fire tests Heat release, smoke production and mass loss rate Part 2: Smoke production rate (dynamic measurement) |
| ISO/TR 9122-3:1993 | Toxicity testing of fire effluents — Part 3: Methods for the analysis of gases and vapours in fire effluents |
| ISO/TR 14696:1999 | Reaction to fire tests Determination of fire parameters of materials, products and assemblies using an intermediate-scale heat release calorimeter (ICAL) |
| ISO/TR 3814:1989 | Tests for measuring "reaction-to-fire" of building materials — Their development and application |
| ISO/IEC Guide 52:1990 | Glossary of fire terms and definitions |
| ISO 5725-2:1994 | Accuracy (trueness and precision) of measurement methods and results Part 2: Basic method for the determination of repeatability and reproducibility of a standard measurement method |
| ISO 9239-2:2002 | Reaction to fire tests for floorings — Part 2: Determination of flame spread at a heat flux level of 25 kW/m2 |
| ISO/TR 5658-1:1997 | Reaction to fire tests — Spread of flame — Part 1: Guidance on flame spread |
| ISO 9239-1:2010 | Reaction to fire tests for floorings Part 1: Determination of the burning behaviour using a radiant heat source |
| ISO/TR 9122-6:1994 | Toxicity testing of fire effluents Part 6: Guidance for regulators and specifiers on the assessment of toxic hazards in fires in buildings and transport |
| ISO/TR 11925-1:1999 | Reaction to fire tests Ignitability of building products subjected to direct impingement of flame Part 1: Guidance on ignitability |
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