P16 工程防火 标准查询与下载

ISO/TR 10295-3:2012 建筑元部件燃烧试验.服务设施的燃烧测试.第3部分:单个组件的密封渗透.试验配置的安装和使用导则与刻画密封材料的模拟作业

Fire tests for building elements and components - Fire testing of service installations - Part 3: Single component penetration seals - Guidance on the construction and use of test configurations and simulated services to characterise sealing materials

BS EN 13381-6:2012 测定结构构件耐火作用的试验方法.混凝土填充中空钢柱应用保护

Test methods for determining the contribution to the fire resistance of structural members. Applied protection to concrete filled hollow steel columns

NF P92-800-5:2012 建筑产品和建筑部件的燃烧特性分类.第5部分:使用屋顶外部着火试验获得的数据进行分类

Fire classification of construction products and building elements - Part 5 : classification using data from external fire exposure to roofs tests.

NF P92-800-4/IN1:2012 建筑产品和部件的燃烧性能分类.第4部分:用烟控系统组件耐火试验数据进行分类

Fire classification of construction products and building elements - Part 4 : classification using data from fire resistance tests on components of smoke control systems.

DIN EN 15725:2012 建筑产品和建筑构件的燃烧性能的扩展应用报告

Extended application reports on the fire performance of construction products and building elements; German version EN 15725:2010 + AC:2012

NF P92-800-4:2012 建筑产品和部件的燃烧性能分类.第4部分:用烟控系统组件耐火试验数据进行分类

Fire classification of construction products and building elements - Part 4 : classification using data from fire resistance tests on components of smoke control systems.

CECS 312-2012 惰性气体灭火系统技术规程

本规程适用于新建、扩建、改建工程中设置的氮气、氩气和氮氩混合气体灭火系统的设计、施工、验收及维护管理。

Technical specification for inert gas extinguishing systems

DB51/T 1418-2012 电气火灾监控系统设计、施工及验收规范

Code for Design, Construction and Acceptance of Electrical Fire Monitoring System

DIN CEN/TS 1187:2012 屋顶外部着火试验方法

Test methods for external fire exposure to roofs; German version CEN/TS 1187:2012

BS EN 15882-1:2011 用于装置耐火性试验结果的扩展应用.管道

Extended application of results from fire resistance tests for service installations. Ducts

ANSI/NFPA 5000-2012 房屋建筑和安全规范

1.1.1 General. The Code addresses those construction, protection, and occupancy features necessary to minimize danger to life and property. 1.1.2 Code Title. The provisions of this document shall constitute and be known as NFPA 5000, Building Construction and Safety Code, hereinafter referred to as this Code.

Building Construction and Safety Code

ANSI/NFPA 703-2012 建筑材料用阻燃处理木材和阻燃涂层标准

1.1* Scope. This standard provides criteria for defining and identifying fire retardantûtreated wood and fire retardantûcoated building materials.

Standard for Fire Retardant Treated-Wood and Fire-Retardant Coatings for Building Materials

ASTM E84-12 建筑材料表面易燃性标准试验方法

This test method is intended to provide only comparative measurements of surface flame spread and smoke density measurements with that of select grade red oak and fiber-cement board surfaces under the specific fire exposure conditions described herein. This test method exposes a nominal 24-ft (7.32-m) long by 20-in. (508-mm) wide specimen to a controlled air flow and flaming fire exposure adjusted to spread the flame along the entire length of the select grade red oak specimen in 5 ½min. This test method does not provide for the following: Measurement of heat transmission through the tested surface. The effect of aggravated flame spread behavior of an assembly resulting from the proximity of combustible walls and ceilings. Classifying or defining a material as noncombustible, by means of a flame spread index by itself.1.1 This fire-test-response standard for the comparative surface burning behavior of building materials is applicable to exposed surfaces such as walls and ceilings. The test is conducted with the specimen in the ceiling position with the surface to be evaluated exposed face down to the ignition source. The material, product, or assembly shall be capable of being mounted in the test position during the test. Thus, the specimen shall either be self-supporting by its own structural quality, held in place by added supports along the test surface, or secured from the back side. 1.2 The purpose of this test method is to determine the relative burning behavior of the material by observing the flame spread along the specimen. Flame spread and smoke developed index are reported. However, there is not necessarily a relationship between these two measurements. 1.3 The use of supporting materials on the underside of the test specimen has the ability to lower the flame spread index from those which might be obtained if the specimen could be tested without such support. These test results do not necessarily relate to indices obtained by testing materials without such support. 1.4 Testing of materials that melt, drip, or delaminate to such a degree that the continuity of the flame front is destroyed, results in low flame spread indices that do not relate directly to indices obtained by testing materials that remain in place. 1.5 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. 1.6 The text of this standard references notes and footnotes that provide explanatory information. These notes and footnotes, excluding those in tables and figures, shall not be considered as requirements of the standard. 1.7 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, or assemblies under actual fire conditions.. 1.8 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Test Method for Surface Burning Characteristics of Building Materials

ANSI/ASTM E119a:2012 建筑结构和材料防火试验的试验方法

Test Methods for Fire Tests of Building Construction and Materials

ANSI/UL 1479-2012 穿透性与阻火性耐火试验安全性标准

Standard for Fire Tests of Through-Penetration Firestops

ANSI/ASTM E136:2012 750℃时竖管式炉内材料行为用试验方法

Test Method for Behavior of Materials in a Vertical Tube Furnace at 750 C

ASTM E119-12a 建筑结构和材料防火试验的标准试验方法

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 or a......

Standard Test Methods for Fire Tests of Building Construction and Materials

ANSI/ASTM E2726:2012 评估屋面燃烧面板结构防火测试反应的试验方法

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

ASTM E603-12 房间着火实验标准指南

This guide provides assistance for planning room fire tests. The object of each experiment is to evaluate the role of a material, product, or system in the fire growth within one or more compartments. The relationship between laboratory fire test methods and actual room fires can be investigated by the use of full-scale and reduced-scale experiments. This guide is aimed at establishing a basis for conducting full-scale experiments for the study of room fire growth. Room fire tests can be placed into four main categories: reconstruction, simulation, research and standardization. Reconstruction room fire tests are full scale replicates of a fire scene with the geometry, materials, contents, and ignition source intended to duplicate a particular scenario. The usual purpose of such a test is to evaluate what happened or what might happen in such a scenario. Simulation room fire tests are comparable to reconstruction fire tests, except that not all of the parameters are duplicated. A simulated fire test is one in which one or more components of a fire scenario are altered, usually in order to facilitate conducting the test. The compartment design must carefully address geometry and materials of construction to ensure that they do not significantly alter the fire response. Reconstruction and simulation fire tests often have a distinctive objective, such as time to flashover, that is related to the nature of the original fire scene. Research room fire tests are conducted in order to elucidate the effects of one or more of the following: geometry, materials, placement of items, ventilation, or other parameters. The measured effects (such as room temperature, heat flux, heat release rate, time to flashover, post flashover conditions) are chosen to provide the most useful information. Standardization room fire tests include scenarios that have been adopted by a standardization body. In this case, the compartment, ignition source, instrumentation and the nature of the contents are specified. The purpose of such a test is often the evaluation of a specific fire test response parameter. Simplified geometries and materials of construction are selected, party because the compartment is intended to be used repeatedly. Either simulated or actual commercial test objects are specified. The geometry of the compartment is generally specified to allow well-ventilated burning of the contents, with minimal radiative feedback, and to permit observation of flame spread. In most standardized fire tests, flashover is a termination point for the test. In all cases, the room lining materials should be chosen carefully. Short duration fire response tests that do not reach flashover may be less affected by lining materials than longer duration fire tests that are intended to go to flashover. The thermal properties of the lining material (emissivity, thermal conductivity, thermal inertia) should be considered. The three main variables in compartment design must be considered for any of the types of room size fire tests: ventilation, geometry, and compartment materials (see Section 6).1.1 This guide addresses means of conducting full-scale fire experiments that evaluate the fire-test-response characteristics of materials, products, or assemblies under actual fire conditions. 1.2 It is intended as a guide for the design of the experiment and for the use and interpretation of its results. The guide is also useful for establishing laboratory conditions that simulate a given set of fire conditions to the greatest extent possible. 1.3 This guide allows users to obtain fire-test-response characteristics of materials, products, or assemblies, which are useful data for describing or appraising their fire performance under actual fire conditions. 1.3.1 The results of experiments conducted in accordance with this guide are also usefu......

Standard Guide for Room Fire Experiments

ASTM E119-12 建筑及材料防火测试标准试验方法

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