BS EN ISO 13506-1:2017
$198.66
Protective clothing against heat and flame – Test method for complete garments. Measurement of transferred energy using an instrumented manikin
| Published By | Publication Date | Number of Pages |
| BSI | 2017 | 60 |
This document specifies the overall requirements, equipment and calculation methods to provide results that can be used for evaluating the performance of complete garments or protective clothing ensembles exposed to short duration flame engulfment.
This test method establishes a rating system to characterize the thermal protection provided by single-layer and multi-layer garments made of flame resistant materials. Any material construction such as coated, quilted or sandwich can be used. The rating is based on the measurement of heat transfer to a full-size manikin exposed to convective and radiant energy in a laboratory simulation of a fire with controlled heat flux, duration and flame distribution. The heat transfer data are summed over a prescribed time to give the total transferred energy.
For the purposes of this test method, the incident heat flux is limited to a nominal level of 84 kW/m2 and limited to exposure durations of 3 s to 12 s dependant on the risk assessment and expectations from the thermal insulating capability of the garment. The results obtained apply only to the particular garments or ensembles, as tested, and for the specified conditions of each test, particularly with respect to the heat flux, duration and flame distribution.
This test method requires a visual evaluation, observation and inspection on the overall behaviour of the test specimen during and after the exposure as the garment or complete ensemble on the manikin is recorded before, during and after the flame exposure. Visuals of the garment or complete ensemble on the manikin are recorded (i.e. video and still images) before, during and after the flame exposure. This also applies to the evaluation of protection for the hands or the feet when they do not contain sensors. For the interfaces of ensembles tested, the test method is limited to visual inspection. The effects of body position and movement are not addressed in this test method.
The heat flux measurements can also be used to calculate the predicted skin burn injury resulting from the exposure (see ISO 13506‑2).
This test method does not simulate high radiant exposures such as those found in arc flash exposures, some types of fire exposures where liquid or solid fuels are involved, nor exposure to nuclear explosions.
NOTE 1 This test method provides information on material behaviour and a measurement of garment performance on a stationary upright manikin. The relative size of the garment and the manikin and the fit of the garment on the shape of the manikin have an important influence on the performance.
NOTE 2 This test method is complex and requires a high degree of technical expertise in both the test setup and operation.
NOTE 3 Even minor deviations from the instructions in this test method can lead to significantly different test results.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | National foreword |
| 5 | Annex ZA (informative)Relationship between this European Standard and the essential requirements of EU Directive 89/686/EEC [1989 L399] aimed to be covered |
| 9 | Foreword |
| 10 | Introduction |
| 12 | 1 Scope |
| 13 | 2 Normative references 3 Terms and definitions |
| 15 | 4 General |
| 16 | 5 Apparatus |
| 29 | 6 Sampling and test specimens 6.1 General |
| 30 | 6.2 Number of test specimens 6.3 Size of test specimen 6.4 Specimen preparation 6.4.1 Conditioning 6.4.2 Optional laundering 6.5 Standard reference garment design |
| 31 | 7 Pre-requisites for products implementing this test method |
| 32 | 8 Procedure 8.1 Preparation of test apparatus 8.1.1 General 8.1.2 Manikin sensor check |
| 33 | 8.1.3 Flame exposure chamber purging 8.1.4 Gas line charging 8.1.5 Confirmation of nude exposure conditions |
| 34 | 8.2 Specimen testing procedure 8.2.1 General 8.2.2 Dressing the manikin 8.2.3 Recording the specimen identification, test conditions and test observations |
| 35 | 8.2.4 Confirming safe operation conditions and lighting of pilot flames 8.2.5 Starting the image recording system 8.2.6 Setting time for heat transfer data acquisition |
| 36 | 8.2.7 Exposure of the test specimen 8.2.8 Recording of specimen response remarks 8.2.9 Calculation of surface incident heat flux and transferred energy 8.2.10 Still images 8.3 Preparing for the next test exposure |
| 37 | 9 Test report 9.1 General 9.2 Specimen identification 9.3 Exposure conditions |
| 38 | 9.4 Results for each specimen 9.4.1 General 9.4.2 Heat flux data of each manikin sensor 9.4.3 Transferred energy 9.4.4 Energy transmission factor |
| 39 | 9.4.5 Other information that may be reported 9.5 Observations |
| 40 | Annex A (informative) Considerations for conducting tests and using test results |
| 41 | Annex B (informative) Inter-laboratory test data analysis |
| 44 | Annex C (normative) Calibration procedure |
| 53 | Annex D (informative) Calculation of transferred energy and energy transmission factor |
| 56 | Annex E (informative) Elements of a computer software program |
| 58 | Bibliography |
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