ASTM E2750-2013 Standard Guide for Extension of Data from Firestop Penetration System Tests Conducted in Accordance with ASTM 《根据ASTM a00005进行的挡火渗透系统测试数据扩展的标准指南》.pdf

1、Designation:E275011E275013 AnAmerican National Standard Standard Guide for Extension of Data For Penetrations Sealsfrom Firestop Penetration System Tests Conducted in Accordance with ASTM E814 1 This standard is issued under the xed designation E2750; the number immediately following the designation

2、 indicates the year of original adoption or, in the case of revision, the year of last revision.Anumber in parentheses indicates the year of last reapproval.A superscript epsilon () indicates an editorial change since the last revision or reapproval. 1. Scope 1.1 This guide covers the extension of r

3、esults obtained from re tests performed in accordance with Test Method E814 to applicationsthathavenotbeentested.TestMethodE814evaluatesthedurationforwhichtestspecimenswillcontainare,retain theirintegrity,orbothduringapredeterminedretestexposure.Firestopsareintendedforuseinre-resistivewallsandoorsth

4、at are evaluated in conformance with Test Method E119. NOTE 1Data obtained from restops tested in accordance with Test Methods E119 with positive pressure can also be used. 1.2 This guide is based on principles involving the extension of test data using simple considerations. The acceptance of these

5、 principles and their application is based substantially on an analogous worst-case proposition. 1.3 Theseprinciplesareonlyapplicabletotemperatureconditionsrepresentedbythestandardtime-temperaturecurvedescribed in Test Method E814, for systems falling within the scope of Test Method E814. This test

6、method is a re-test-response standard. 1.4 The types of building constructions which are part of this guide are as follows: oors, walls, partitions, oor/ceiling and roof/ceiling assemblies. 1.5 This guide applies to: 1.5.1 a single penetrating item, or 1.5.2 multiple penetrating items. 1.6 This guid

7、e does not apply to joints systems tested to E119, E1966 and E2307. 1.7 Penetrating items can be one of the following: metallic pipe, non-metallic pipe, metallic tubing, non-metallic tubing, metallic conduit, non-metallic conduit, exible metal conduit, cables, cable trays, bus ducts, insulated pipes

8、, insulated tubing, insulated conduit, insulated and non-insulated ducts, and structural members. Metallic pipe, tubing or conduit 6.7 Insulated pipe, tubing or conduit 6.8 Non-metallic pipe, tubing or conduit 6.9 and 6.10 Flexible metal conduit 6.11.1.4 and 6.11.1.5 Cables 6.11 Cable tray 6.12 Bus

9、duct 6.13 Non-insulated duct 6.14 Insulated duct 6.14.2 Non-structural or service support member 6.15 Mixed penetrations 6.16 1.8 Assemblies can be one of the following; concrete oors or walls, masonry walls, gypsum walls, wood oor/ceiling assemblies, concrete oor/ceiling assemblies, chase wall in o

10、or/ceiling assemblies and re-rated insulated walls. Concrete oors or walls 6.1 Masonry walls 6.1 Gypsum board wall assemblies 6.2 Wood oor/ceiling assemblies 6.3 Floor/ceiling assembly with concrete oor 6.4 Chase wall intersecting a oor/ceiling assembly 6.5 Fire-resistance insulated walls 6.6 1 This

11、 standard guide is under the jurisdiction of ASTM Committee E05 on Fire Standards and is the direct responsibility of Subcommittee E05.11 on Fire Resistance. CurrenteditionapprovedMay1,2011Jan.1,2013.PublishedJune2011February2013.Originallyapprovedin2011.Lastpreviouseditionapprovedin2011asE2750-11.

12、DOI:10.1520/E2750-11.10.1520/E2750-13. This document is not anASTM standard and is intended only to provide the user of anASTM standard an indication of what changes have been made to the previous version. Because it may not be technically possible to adequately depict all changes accurately, ASTM r

13、ecommends that users consult prior editions as appropriate. In all cases only the current version of the standard as published by ASTM is to be considered the official document. Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA19428-2959. United States 11.9 Thee

14、xtensionofdatausingnumericalcalculationsbasedonempiricaldataortheoreticalmodelsisnotcoveredinthisguide. 1.10 This guide does not cover the substitution of one proprietary material for another proprietary material, or materials for which re-test data are not presently available. 1.11 This guide is us

15、ed to predict or provide a quantitative measure of the re hazard from a specied set of re conditions involving specic materials, products, or assemblies.This assessment does not necessarily predict the hazard of actual res which involve conditions other than those assumed in the analysis. 1.12 This

16、guide is used to measure and describe the response of materials, products, or assemblies to heat and ame under controlled conditions, but does not by itself incorporate all factors required for re hazard or re risk assessment of the materials, products or assemblies under actual re conditions. 1.13

17、The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.14 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 ap

18、propriate safety and health practices and determine the applicability of regulatory limitations prior to use. 2. Referenced Documents 2.1 ASTM Standards: 2 C168Terminology Relating to Thermal Insulation E119Test Methods for Fire Tests of Building Construction and Materials E176Terminology of Fire St

19、andards E631Terminology of Building Constructions E814Test Method for Fire Tests of Penetration Firestop Systems E1966Test Method for Fire-Resistive Joint Systems E2032Guide for Extension of Data From Fire Resistance Tests Conducted in Accordance with ASTM E 119 E2307Test Method for Determining Fire

20、 Resistance of Perimeter Fire Barriers Using Intermediate-Scale, Multi-story Test Apparatus 2.2 Other Standards: ACI 216Fire Resistance of Concrete 3 3. Terminology 3.1 Denitions: 3.1.1 For denitions used in this guide, refer to Terminologies in E176, C168 and E631. 3.1.2 For denitions of terms spec

21、ic to this standard, refer to E814 and E2032. 4. Signicance and Use 4.1 Themethodsandproceduressetforthinthisguiderelatetotheextensionoftheretestresultstorestopsystemsthathave not been tested. 4.2 Users of this guide must have knowledge and understanding of the provisions ofTest Method E119 andTest

22、Method E814 including those pertaining to conditions of acceptance. 4.3 In order to apply some of the principles described in this guide, reference to the original re test report will be necessary. 4.4 In Test Method E814, the specimens are subjected to specic laboratory re test exposure conditions.

23、 Differences between the tested assembly and the as-built assembly impact the re-test-response characteristics. Substitution of different test conditions also impacts the re-test-response characteristics. 4.5 The extension of data is valid only for the re test exposure described in Test Method E814.

24、 4.6 This guide shall not be used to extrapolate the re resistance rating to a higher value. 4.7 Limitations: 4.7.1 The extension of re resistance data is to be used only for changes to the tested specimen that fall within normal and reasonable limits of accepted construction practices. 4.7.2 Conclu

25、sions derived from using this guide are valid only if the identied change is the only change in the construction or properties of the components. 4.7.3 Evaluationofchangestothere-resistiveassemblyinwhichtherestopisinstalledisgovernedbytheExtensionofData principles in Guide E2032. 2 ForreferencedASTM

26、standards,visittheASTMwebsite,www.astm.org,orcontactASTMCustomerServiceatserviceastm.org.ForAnnualBookofASTMStandards volume information, refer to the standards Document Summary page on the ASTM website. 3 Available from American Concrete Institute (ACI), P.O. Box 9094, Farmington Hills, MI 48333-90

27、94, http:/www.concrete.org. E275013 24.8 The statements in this guide are based on a single change to a system. NOTE 2It is possible that multiple changes have a different cumulative effect than that of individual changes evaluated separately. The principles containedhereinmayprovideusefulinformatio

28、nfortheapplicationofsoundengineeringprinciplestoevaluatetheeffectofmultipledifferencesbetween tested and installed restops. 4.9 Extensions of data using this document shall be done by individuals possessing the following minimum qualications and attributes: 4.9.1 an understanding of the Test Method

29、E814 test procedure, 4.9.2 an understanding of the re behavior of restop materials, 4.9.3 knowledge of the elements of the construction to be protected, and 4.9.4 anunderstandingoftheprobablebehavioroftheunderlyingconstructionandtherecommendedrestopsystemprotecting it, were they to be subjected to t

30、esting in accordance with Test Method E814. 4.10 The person performing evaluations based on tested or listed restops shall be one of the following: 4.10.1 the restop manufacturers knowledgeable and qualied technical personnel, 4.10.2 a registered professional engineer, or Fire Protection Engineer, k

31、nowledgeable in restopping systems, 4.10.3 an independent testing agency or a listing agency, or 4.10.4 technical personnel with experience in restopping. 5. General Principles 5.1 The principles in this section shall apply to all subsequent sections. 5.2 The rating criteria and conditions of accept

32、ance as set out inTest Method E814 shall be used in the evaluation of the effect of the change to the restop system. 5.3 Conclusions derived from using this guide indicate only whether or not a change in the application or design of the restop system reduces the re resistance rating. 5.4 The restop

33、system is limited to the maximum dimensions of the opening in the assembly that have been re tested according to E814 or E119 under positive furnace pressure as specied in E814. 5.5 The restop product(s) is limited to the product(s) re tested. 5.6 Angled PenetrationsWhere the penetrating item is ind

34、icated as a metallic pipe, conduit, tube, duct or cable, and the restopsystemconsistsofallmaterial(suchassealants,putty,ormortar)andapackingmaterial,thepenetrantmaypassthrough the opening in the wall or oor assembly at an angle, provided the annular space is maintained on both sides of the wall or o

35、or assembly. In all other cases, except where otherwise indicated in the system, the penetrating item shall penetrate the wall or oor assembly at a 90 angle. 6. Principles for Firestops NOTE 3Information regarding the re resistance of the wall or oor assemblies can be found in Guide E2032 or ACI 216

36、. See Appendix X3 for additional information. 6.1 Concrete or Masonry Assemblies: 6.1.1 Increase in thickness of the assembly will not decrease the re resistance of the restop. Exception: Where it is known or suspected that locating a material further from the re or on the unexposed side of the asse

37、mbly will reduce the F-rating. 6.1.2 Firestop systems tested in concrete oor assemblies can be used in concrete or masonry wall assemblies providing that they are installed symmetrically on both sides of the wall. 6.1.2.1 Firestop systems need not be installed on both sides of the wall assembly if t

38、hey are symmetrical and equidistant from both surfaces. 6.1.3 Firestop systems re tested in wall assemblies cannot be installed in oor assemblies unless re tested according to Test Method E814 as a oor assembly. 6.1.4 Firestop systems can be used in concrete or masonry assemblies of equal or lower r

39、e resistance as long as the Firestop system tested design is not modied in relation to restop thickness, bonding and support, and is not modied in relation to the assembly thickness. 6.2 Gypsum Board Wall Assemblies: 6.2.1 Increase in the depth of studs or thickness or number of layers of gypsum boa

40、rd will not decrease the re resistance of the restop.Exception 1: Where the restop materials are at different positions within the assembly relative to the heat source. Exception 2: In assemblies where the active components on both sides of the assembly contribute to the test performance. NOTE 4Wher

41、e it is known or suspected that locating a material further from the re or on the unexposed side of the assembly will reduce the resistance to the test. Exception 3: Where it is known that locating a material on the non-re side of the assembly further from the re will reduce the performance of the r

42、estop. 6.2.2 Firestop systems cannot be used in assemblies of lower resistance ratings without re testing. E275013 3Exception:Arestop system that is tested and listed for a symmetrical gypsum wall assembly that includes multiple layers of gypsum board per side, can be used to maintain the re resista

43、nce rating of a gypsum wall assembly that includes fewer layers of gypsum board per side, as long as the sealant depth in the listed system, does not exceed the thickness of that reduced number of layers of gypsum board. 6.2.3 Symmetrical Installations: 6.2.3.1 The results of the re resistance test

44、are deemed to be applicable to a similar type of untested system providing the following are true. (1)The maximum dimension of the opening is not increased. (2)The total area of the opening is not increased. (3)Neither the restop product(s) or damming material is changed. (4)The thickness of neither

45、 the restop product(s) or damming material is decreased. 6.2.3.2 Refer to 6.1 for restrictions related to changes in the supporting construction. 6.3 Wood Deck Floor/Ceiling Assemblies: 6.3.1 The following changes, individually or in combination, would not reduce the F-rating, provided that: (1) the

46、 restop is in the same position relative to the heat source, and (2) the restop is at least in contact with the same material as tested; 6.3.1.1 Increase in the depth of joists or trusses, 6.3.1.2 Increase in thickness or number of layers of gypsum board, 6.3.1.3 Increase in the overall assembly thi

47、ckness due to additional oor coverings or ceiling nishes. Exception 1: In assemblies where there are restop materials not part of the exposed side that is part of the tested or listed restop conguration. Exception 2: Where it is known or suspected that locating a material further from the re or on t

48、he unexposed side of the assembly will reduce the resistance to the test. 6.3.2 Firestopsystemscannotbeusedinassembliesoflowerresistanceratingswithoutretesting.Exception:Arestopsystem that is tested and listed for a oor/ceiling assembly that includes multiple layers of gypsum board, can be used to m

49、aintain the re resistance rating of a oor/ceiling assembly that includes fewer layers of gypsum board, as long as the sealant depth in the listed system, does not exceed the thickness of that reduced number of layers of gypsum board. 6.4 Floor/Ceiling Assembly with Concrete Floor: NOTE 5This section does not apply to oor/ceiling assemblies protected with direct applied reproong. 6.4.1 The following changes, individually or in combination, would not reduce the F-r