P16 工程防火 标准查询与下载



共找到 542 条与 工程防火 相关的标准,共 37

Test Method for Evaluating the Fire-Test Response of Deck Structures to Burning Brands

ICS
13.220.99
CCS
P16
发布
2012
实施

Reaction to fire tests. Measurement of material properties using a fire propagation apparatus

ICS
13.220.40;13.220.50
CCS
P16
发布
2011-12-31
实施
2011-12-31

Code for design, construction and acceptance of compressed gas foam fire extinguishing system

ICS
13.220
CCS
P16
发布
2011-11-21
实施
2011-12-01

Regulations for Testing and Evaluation of Building Electrical Fire Protection Technology

ICS
13.220
CCS
P16
发布
2011-11-21
实施
2011-12-01

本标准规定了文物建筑消防设施设置的基本原则及室内外消防给水系统、自动灭火系统、火灾自动报警系统、消防电源及电气火灾监控设施、灭火器、消防应急照明和疏散指示系统等消防基础设施在文物建筑中的设置要求。本标准适用于北京市行政区域内文物建筑消防设施的设置。

Specifications for the installation of fire protection facilities in cultural relic buildings

ICS
13.220.20
CCS
P16
发布
2011/11/01
实施
2011/11/01

Reaction to fire tests - Spread of flame - Part 2: Lateral spread on building and transport products in vertical configuration; Amendment 1

ICS
13.220.50
CCS
P16
发布
2011-11
实施

Fire behaviour of building materials and building components - Part 23: Roofs - Application rules for test results for roofs tested to DIN V ENV 1187, test method 1, and DIN 4102-7

ICS
13.220.50;91.060.20
CCS
P16
发布
2011-10
实施

Extended application of results from fire resistance tests - Non-loadbearing walls - Part 4: Glazed constructions; German version EN 15254-4:2008+A1:2011

ICS
13.220.50;91.060.10
CCS
P16
发布
2011-09
实施

This part of EN 15254 defines rules for extended applications, provides guidance, and, where appropriate, defines procedures, for variations of certain parameters and factors associated with the design of internal and external non-loadbearing walls constructed of metal sandwich panels and that have been tested in accordance with EN 1364-1. EN 15254-5 applies for self-supporting, double skin metal faced sandwich panels having an insulating core bonded to both facings as defined in EN 14509.

Extended application of results from fire resistance tests. Non-loadbearing walls. Metal sandwich panel construction

ICS
13.220.50;91.060.10
CCS
P16
发布
2011-08-31
实施
2011-08-31

Rapid rise fire tests of protection materials for structural steel

ICS
13.220.50
CCS
P16
发布
2011-08-03
实施

This part of EN 15080 identifies the parameters and factors that affect the fire resistance of beams and need to be taken into account when considering extended application of results of beams tested in accordance with EN 1365-3. It also gives the methodology to be used when preparing an extended application, including rules and calculation methods which can be applied to establish the resultant influence of a variation in one or more parameters and to determine the field of extended application.

Extended application of results from fire resistance tests. Beams

ICS
13.220.50;91.060.99
CCS
P16
发布
2011-07-31
实施
2011-07-31

Qinghai Province Foam Glass Fireproof Isolation Belt Technical Regulations

ICS
81.080
CCS
P16
发布
2011-04-11
实施
2011-05-01

Reaction to fire tests - Ignitability of products subjected to direct impingement of flame - Part 2: Single-flame source test (ISO 11925-2:2010); German version EN ISO 11925-2:2010

ICS
13.220.50;91.060.01;91.100.01
CCS
P16
发布
2011-02
实施

1.1 Scope. 1.1.1 This fire test response standard describes a method for determining the propensity of ignition of exterior wall assemblies from exposure to 12.5 kW/m2 (1.10 Btu/ft2-sec) radiant heat in the presence of a pilot ignition source. 1.1.2 This test method evaluates the propensity of ignition of an exterior wall assembly where subjected to a minimum radiant heat flux of 12.5 kW/m2 (1.10 Btu/ft2-sec). This method determines whether ignition of an exterior wall assembly occurs when the wall is exposed to a specified radiant heat flux, in the presence of a pilot ignition source, during a 20-minute period. 1.1.3 This test method utilizes a gas-fired radiant panel to apply a radiant heat flux of 12.5 kW/m2 (1.10 Btu/ft2-sec) to a representative sample of an exterior wall assembly while the test specimen is exposed simultaneously to a pilot ignition source. 1.1.4 This test method applies to exterior wall assemblies having planar, or nearly planar, external surfaces. 1.1.4.1 This method shall not be used to evaluate the fire endurance of wall assemblies, nor shall it be used to evaluate the effect of fires originating within the building or within the exterior wall assemblies. 1.1.4.2 This method shall not be used to evaluate surface flame spread, nor shall it be used to evaluate the influence of openings for their propensity of ignition.

Standard Test Method for Determining Ignitibility of Exterior Wall Assemblies Using a Radiant Heat Energy Source

ICS
13.220.50;91.060.10
CCS
P16
发布
2011-01-01
实施

1.1 Scope. This standard prescribes standardized fire and hose stream test procedures that apply to fire door assemblies intended to be used to retard the spread of fire through door openings in fire-resistive walls.

Standard Methods of Fire Tests of Door Assemblies

ICS
13.220.50
CCS
P16
发布
2011-01-01
实施

1.1 Scope. 1.1.1 This standard prescribes standardized fire and hose stream test procedures that apply to the evaluation of fire window assemblies, including windows, glass block, and other light-transmitting assemblies intended to retard the spread of fire through openings in fire resistanceûrated walls. 1.1.2 This standard is not to be construed as determining the suitability of fire window assemblies for continued use after fire exposure. 1.1.3 This standard provides a standardized method for comparing the performance of fire window assemblies.

Standard on Fire Test for Window and Glass Block Assemblies

ICS
13.220.50
CCS
P16
发布
2011-01-01
实施

1.1 Scope. 1.1.1 This standard shall apply to floor fire door assemblies of various materials and types of construction that are installed horizontally in openings of fire resistanceûrated floor systems to retard the passage of fire. 1.1.2 Tests made in conformity with this test method demonstrate the performance of floor fire door assemblies during the test exposure. However, such tests shall not be construed as determining the suitability of floor fire door assemblies for use after their exposure to fire.

Standard Methods of Fire Tests of Floor Fire Door Assemblies Installed Horizontally in Fire Resistance-Rated Floor Systems

ICS
13.220.50;91.060.50
CCS
P16
发布
2011-01-01
实施

These test methods are intended to evaluate the duration for which the types of building elements noted in 1.1 contain a fire, retain their structural integrity, or exhibit both properties during a predetermined test exposure. The test exposes a test specimen to a standard fire controlled to achieve specified temperatures throughout a specified time period. When required, the fire exposure is followed by the application of a specified standard fire hose stream applied in accordance with Practice E2226. The test provides a relative measure of the fire-test-response of comparable building elements under these fire exposure conditions. The exposure is not representative of all fire conditions because conditions vary with changes in the amount, nature and distribution of fire loading, ventilation, compartment size and configuration, and heat sink characteristics of the compartment. Variation from the test conditions or test specimen construction, such as size, materials, method of assembly, also affects the fire-test-response. For these reasons, evaluation of the variation is required for application to construction in the field. The test standard provides for the following: For walls, partitions, and floor or roof test specimens: Measurement of the transmission of heat. Measurement of the transmission of hot gases through the test specimen. For loadbearing elements, measurement of the load carrying ability of the test specimen during the test exposure. For individual loadbearing members such as beams and columns: Measurement of the load carrying ability under the test exposure with consideration for the end support conditions (that is, restrained or not restrained). The test standard does not provide the following: Information as to performance of test specimens constructed with components or lengths other than those tested. Evaluation of the degree by which the test specimen contributes to the fire hazard by generation of smoke, toxic gases, or other products of combustion. Measurement of the degree of control or limitation of the passage of smoke or products of combustion through the test specimen. Simulation of the fire behavior of joints between building elements such as floor-wall or wall-wall, etc., connections. Measurement of flame spread over the surface of test specimens. The effect on fire-resistance of conventional openings in the test specimen, that is, electrical receptacle outlets, plumbing pipe, etc., unless specifically provided for in the construction tested. Also see Test Method E814 for testing of fire stops.1.1 The test methods described in this fire-test-response standard are applicable to assemblies of masonry units and to composite assemblies of structural materials for buildings, including loadbearing and other walls and partitions, columns, girders, beams, slabs, and composite slab and beam assemblies for floors and roofs. They are also applicable to other assemblies and structural units that constitute permanent integral parts of a finished building. 1.2 It is the intent that classifications shall register comparative performance to specific fire-test conditions during the period of exposure and shall not be construed as having determined suitability under other conditions or for use after fire exposure. 1.3 This standard is used to measure and describe the response of materials, products, or assemblies to heat and flame under controlled conditions, but does not by itself incorporate all factors required for fire hazard or fire risk assessment of the materials, products ......

Standard Test Methods for Fire Tests of Building Construction and Materials

ICS
91.100.01
CCS
P16
发布
2011
实施

This document serves to support performance-based design initiatives by establishing a basis for selecting fire loads for use in calculating the fire resistance of structural building elements. It will be one of a suite of standards that will be necessary to support structural fire protection engineering analysis and design.

Standard for Determination of Fire Load for Use in Structural Fire Protection Design

ICS
13.220.50;91.010.30;91.060.99
CCS
P16
发布
2011
实施

The test methods described herein are intended to provide a basis for relative comparison of roof coverings. The test methods include simulated fire exposure to the outside of the roof coverings, and, where applicable, a determination as to whether the fire performance characteristics of the roof coverings will be adversely affected by prolonged exposure to rain. These test methods measure the surface spread of flame and the ability of the roof covering material or system to resist fire penetration from the exterior to the underside of a roof deck under the conditions of exposure. These test methods also provide criteria to determine if the roof covering material will develop flying burning material, identified as flying brands, when subjected to a 12-mph (5.3-m/s) wind during the simulated fire exposure tests. These test methods do not necessarily illustrate the expected performance of roof coverings under all actual fire conditions, but they do provide a basis for comparing roof covering materials when subjected to fire sources that are described herein. These test methods do not provide any basis for determining the fire resistance characteristics when exposed to a fire originating in the building to which the roofing material is applied. The test methods described herein involve calibrating the test equipment using a calibration deck inclined at a slope of 5 in. per horizontal ft (0.416:1). The tests described herein are performed on test decks inclined at slopes up to and including 5 in. per horizontal ft. The severity of the test exposure decreases as the slope of the test deck decreases below 5 in. per horizontal ft.1.1 This fire-test-response standard covers the measurement of the relative fire characteristics of roof coverings under simulated fire originating outside the building. It is applicable to roof coverings intended for installation on either combustible or noncombustible decks when applied as intended for use. The following test methods are included: 1.1.1 Intermittent flame exposure test. 1.1.2 Spread of flame test. 1.1.3 Burning brand test. 1.1.4 Flying brand test. 1.1.5 Rain test. 1.2 Three classes of fire test exposure are described: 1.2.1 Class A Tests are applicable to roof coverings that are effective against severe test exposure, afford a high degree of fire protection to the roof deck, do not slip from position, and do not present a flying brand hazard. 1.2.2 Class B Tests are applicable to roof coverings that are effective against moderate test exposure, afford a moderate degree of fire protection to the roof deck, do not slip from position, and do not present a flying brand hazard. 1.2.3 Class C Tests are applicable to roof coverings that are effective against light test exposure, afford a light degree of fire protection to the roof deck, do not slip from position, and do not present a flying brand hazard. 1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard. 1.4 This standard is used to measure and describe the response of materials, products, or assemblies to heat and flame under controlled laboratory conditions, but does not by itself incorporate all factors required for fire hazard or fire risk assessment of the materials, products or assemblies under actual fire conditions. 1.5 This standard does not purpo......

Standard Test Methods for Fire Tests of Roof Coverings

ICS
91.060.20
CCS
P16
发布
2011
实施



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