1、Designation: E1612/E2612M 94 (Reapproved 2013)1Standard Specification forPreformed Architectural Compression Seals for Buildingsand Parking Structures1This standard is issued under the fixed designation E1612/E2612M; the number immediately following the designation indicates the yearof original adop
2、tion or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval.A superscript epsilon () indicates an editorial change since the last revision or reapproval.1NOTEUnits information was editorially corrected in September 2013.1. Scope1.1 This
3、specification covers the physical requirements forthe fully cured elastomeric alloy and the movement capabilitiesof preformed architectural compression seals used for sealingexpansion joints in buildings and parking structures. Thepreformed architectural compression seal is a rectangularelastomeric
4、extrusion, having an internal baffle system pro-duced continuously and longitudinally throughout the material.The architectural compression seal functions under compres-sion and is usually chemically bonded in place with anadhesive.NOTE 1Movement capability is defined in Test Method E1399/E1399M.1.2
5、 This specification covers all colors of architecturalcompression seals.1.3 The values stated in either SI units or inch-pound unitsare to be regarded separately as standard. The values stated ineach system may not be exact equivalents; therefore, eachsystem shall be used independently of the other.
6、 Combiningvalues from the two systems may result in non-conformancewith the standard.1.4 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and health practices an
7、d determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2D395 Test Methods for Rubber PropertyCompression SetD412 Test Methods for Vulcanized Rubber and Thermoplas-tic ElastomersTensionD471 Test Method for Rubber PropertyEffect of LiquidsD518 T
8、est Method for Rubber DeteriorationSurfaceCracking (Withdrawn 2007)3D624 Test Method for Tear Strength of Conventional Vul-canized Rubber and Thermoplastic ElastomersD746 Test Method for Brittleness Temperature of Plasticsand Elastomers by ImpactD792 Test Methods for Density and Specific Gravity (Re
9、la-tive Density) of Plastics by DisplacementD865 Test Method for RubberDeterioration by Heating inAir (Test Tube Enclosure)D1052 Test Method for Measuring Rubber DeteriorationCut Growth Using Ross Flexing ApparatusD1149 Test Methods for Rubber DeteriorationCracking inan Ozone Controlled EnvironmentD
10、2000 Classification System for Rubber Products in Auto-motive ApplicationsD2240 Test Method for Rubber PropertyDurometer Hard-nessD3183 Practice for RubberPreparation of Pieces for TestPurposes from ProductsE577 Guide for Dimensional Coordination of RectilinearBuilding Parts and Systems (Withdrawn 2
11、011)3E631 Terminology of Building ConstructionsE1399/E1399M Test Method for Cyclic Movement andMeasuring the Minimum and Maximum Joint Widths ofArchitectural Joint Systems3. Terminology3.1 DefinitionsTerms defined in Terminology E631 willprevail for terms not defined in this specification.3.2 Defini
12、tions of Terms Specific to This Standard:3.2.1 architectural compression seala preformedextrusion, manufactured from a fully cured elastomeric alloy,having an internal baffle system produced continuously and1This specification is under the jurisdiction of ASTM Committee E06 onPerformance of Building
13、s and is the direct responsibility of Subcommittee E06.21on Serviceability.Current edition approved Sept. 1, 2013. Published September 2013. Originallyapproved in 1994. Last previous edition approved in 2009 as E1612 94 (2009).DOI: 10.1520/E1612_E1612M-94R13E01.2For referenced ASTM standards, visit
14、the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3The last approved version of this historical standard is referenced onwww.astm.org.Copyright ASTM
15、International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States1longitudinally throughout the material without flanges ormeans of securing it mechanically.3.2.2 architectural joint systemany filler or cover, exceptpoured or formed in place sealants, used to span, c
16、over, fill, orseal a joint.3.2.2.1 DiscussionJoint is defined in Guide E577.4. Materials and Manufacture4.1 The architectural compression seal shall be a preformedextrusion manufactured from a fully cured elastomeric alloy.This alloy shall be classified under Classification SystemD2000 as either of
17、the following:4.1.1 M2CE 706 A16B15C12C20F19Z1Z2, or4.1.2 M2CE 708 A16B15C12C20F19Z1Z2.4.2 Z1 represents more than 2 000 000 flex cycles as testedunder the Ross Flex Test, Test Method D1052.4.3 Z2 represents a 40 % maximum compression set as inaccordance with Test Methods D395, Method B, 22 h at 125
18、C257F at 25 % deflection.5. Physical Requirements5.1 The fully cured elastomeric alloy supplied in plaqueform shall conform to the material requirements prescribed inTable 1.5.2 The finished architectural joint seal shall conform to thematerial requirements prescribed in Table 2.5.3 The movement cap
19、abilities shall be established usingTest Method E1399/E1399M.6. Dimensions, Mass, and Permissible Variations6.1 The size, shape, internal structure, and tolerances shallbe as agreed upon by the purchaser and the producer orsupplier.7. Workmanship, Color, and Appearance7.1 The architectural compressi
20、on seal shall be free ofdefects in workmanship. Defects in the extrusion shall consistof the following:7.1.1 Holes,7.1.2 Air bubbles, and7.1.3 Parts not conforming to 6.1.7.2 The cross section of the seal shall be as agreed upon bythe purchaser and the producer or supplier.7.3 The color of the seal
21、shall be as agreed upon by thepurchaser and the producer or supplier.8. Significance and Use8.1 Architectural compression seals included in this speci-fication shall be those as follows:8.1.1 Without frames.8.1.2 Without flanges and nosing material(s).8.1.3 Used in interior or exterior applications.
22、8.1.4 Used in any construction of the building.8.2 This specification will give users, producers, buildingofficials, code authorities, and others a basis for verifyingmaterial and performance characteristics of representativespecimens under common test conditions. This specificationwill produce data
23、 on the following:8.2.1 The physical properties of the fully cured elastomericalloy.8.2.2 The movement capability in relation to the nominaljoint width as defined under Test Method E1399/E1399M.8.3 This specification compares similar architectural com-pression seals but is not intended to reflect th
24、e systemsapplication. “Similar” refers to the same type of architecturalcompression seal within the same subsection under 8.1.8.4 This specification does not provide information on thefollowing:8.4.1 Durability of the architectural compression seal underactual service conditions, including the effec
25、ts of cycledtemperature on the compression seal.8.4.2 Loading capability of the system and the effects of aload on the functional parameters established by this specifi-cation.8.4.3 Shear and rotational movements of the specimen.8.4.4 Any other attributes of the specimen, such as fireresistance, wea
26、r resistance, chemical resistance, air infiltration,watertightness, and so forth.8.4.5 Testing or compatibility of substrates.8.4.6 Strip seals.8.4.7 Architectural compression seals used with frames.8.4.8 Architectural compression seals used with flanges andnosing material(s).TABLE 1 Requirements fo
27、r Fully Cured Elastomeric AlloyInjection Molded PlaquesProperty Requirement Test MethodTensile strength, min, MPa psi 4.3 625 D412Elongation at break, min, % 300 D412Hardness, Type A durometer, points (5 s delay) 6176 D2240Specific gravity at 23C 73F 0.931.13 D792100 % modulus, min, MPa psi 1.7 250
28、D412Weight gain, max, % (24 h at 121C 73FASTM No. 3 Oil)95 D471TABLE 2 Material Requirements for Architectural CompressionSealsProperty Requirement Test MethodTensile strength, min, MPa psi 4.3 625 D412Elongation at break, min, % 300 D412Hardness, Type A durometer, points(5 s delay)688 D2240Ozone re
29、sistance, 1 ppm, 100 h at40C 104F 7 magnificationNo Cracks D1149Compression set, % max, 22 h at100C 212F35 D395Compression set, % max, 70 h at100C 212F40 D395Heat aging, 70 h at 100C 212Fchange in:D865Hardness, Shore A, max, points (5 s delay) 4Ultimate tensile strength, max,% loss15Ultimate elongat
30、ion, max, % loss 15Tear resistance, min, N/mm lb/in. 21 120 D624Brittleness temperature, min, C F 48 55 D746Water absorption, max, % loss/gain 4 D471E1612/E2612M 94 (2013)128.5 This specification is intended to be used only as oneelement in the selection of an architectural compression sealfor a par
31、ticular application. It is not intended as an independentpass or fail acceptance procedure. Other standards shall beused in conjunction with this specification to evaluate theimportance of other service conditions such as durability,structural loading, and compatibility.9. Sampling9.1 The fully cure
32、d elastomeric alloy injection-moldedplaques shall be sampled and tested to determine materialconformance to Table 1.9.2 The finished part shall also be sampled and tested todetermine whether the part conforms to the material require-ments given in Table 2, tolerances, design, and the producersfuncti
33、onal parameters in accordance with Test Method E1399/E1399M.9.3 A lot of material shall consist of the following quantityfor each:9.3.1 A specified mass as manufactured by the producer.Sample each lot.9.3.2 A cross section as manufactured by the producer.Sample each lot.9.4 Obtain samples by one of
34、the following methods:9.4.1 Take samples provided by the producer.9.4.2 Take samples at random from each shipment.9.5 A sample constitutes a minimum, as required, to per-form the tests but not less than the following:9.5.1 23 kg 50 lb of the fully cured elastomeric alloy inpellet form.9.5.2 2.8 m 9
35、lf of each specific size and cross section ofthe finished part.10. Specimen Preparation10.1 Maintain the laboratory at a temperature of 23 6 2C73 6 4F.10.2 Maintain the laboratory at a relative humidity of 50 %6 5%.10.3 Test Plaque Specimens:10.3.1 Use equipment in accordance with Annex A1.10.3.2 Pr
36、oduce 20 quality assurance test plaques in accor-dance with Annex A2.10.4 Compression Seal Specimens:10.4.1 Cut all test specimens from the architectural com-pression seal sample. Except as otherwise specified in theapplicable specifications or test methods given in Table 2,prepare the test specimen
37、s in accordance with the requirementsof Practice D3183.10.4.2 Prepare the test specimens for determining tensilestrength and elongation using Die C (Test Methods D412)orDie D when the flat sections of a seal are too small for Die C.However, the requirements of Table 2 shall apply regardless ofthe di
38、e used.10.4.3 The grain or flow pattern for all specimens preparedfor tensile strength and elongation testing (Test Methods D412)shall be parallel to the length of the die.10.4.4 Prepare the test specimens for ozone resistance inaccordance with Procedure A of Test Method D518, and wipethem with tolu
39、ene before testing to remove surface contami-nation.10.4.5 The grain or flow pattern for all specimens preparedfor tear resistance testing (Test Method D624) shall be perpen-dicular to the length of the die.11. Test Methods11.1 Determine compliance of the fully cured elastomericalloy injection-molde
40、d plaques with the requirements of Table1 by conducting the tests in accordance with the test methodsspecified.11.2 Determine compliance of the architectural compressionseal material with the requirements of Table 2 by conductingthe tests in accordance with the test methods specified.11.3 Determine
41、compliance with the manufacturers perfor-mance data by conducting the tests in accordance with TestMethod E1399/E1399M.12. Acceptance12.1 The acceptance of the architectural compression sealshall be based on one or more of the following procedures,when specified by the purchaser:12.1.1 When specifie
42、d in the purchase order or contract, thepurchaser shall be furnished certification that samples repre-senting each lot have been either tested or inspected, or both,as directed in this specification and that the requirements havebeen met. When specified in the purchase order or contract, areport of
43、the test results from Tables 1 and 2 shall be furnished.12.1.2 When specified in the purchase order or contract,certified test results shall be provided by an independent testingagent.12.1.3 Testing by the purchaser of any or all properties shallbe in accordance with the provisions of this specifica
44、tion. Theresults shall be accompanied by a statement from an indepen-dent expert witness certifying that the material has beensampled, tested, and inspected in accordance with the provi-sions of this specification.13. Product Marking13.1 The architectural compression seals shall be packagedfor shipm
45、ent in containers or on spools or pallets markedclearly with the name of the producer or supplier, or both, sizeof the seal, lot number, ASTM standard number, and date ofmanufacture.14. Precision and Bias14.1 PrecisionThe precision of this sample preparationwill be determined when experience with it
46、s use has grownsufficiently to justify a cooperative study.14.2 BiasSince there is no accepted reference materialsuitable for determining bias, no statement on bias is made.15. Keywords15.1 architectural; buildings; compression seal; parkingstructures; sealE1612/E2612M 94 (2013)13ANNEXES(Mandatory I
47、nformation)A1. EQUIPMENT NECESSARY TO PRODUCE THE TEST PLAQUESA1.1 Injection Molder, with 136 metric tons 150 tons ofclamping force, 170 to 225 g 6 to 8 oz maximum shot size,a 45-mm 1.8-in. screw diameter, a screw length to diameter(L/D) ratio of 61 to 1 through 19 to 1, a maximum injectionpressure
48、of 145 MPa 21 000 psi minimum, and the capabilityof setting an initial injection timer to 0.01 s accuracy.A1.2 Mold Temperature Control Equipment.A1.3 Two-Cavity Mold, capable of molding two 120 by 80by 3-mm 4.625 by 3.25 by 0.125-in. test plaques simultane-ously.A1.4 Heat-Resistant Gloves.A1.5 Side
49、 Cutters, to remove runners and sprue.A2. PLAQUE PROCESSINGA2.1 The following procedure shall be followed whenprocessing plaques.A2.2 Have the equipment calibrated at least once per yearby the equipment manufacturer or its authorized service agent.A2.3 Set the barrel temperature controllers, cycle timers,and pressures in accordance with Tables A2.1 and A2.2.A2.4 Perform a check on the safety guard interlocks andemergency stop buttons.A2.5 Ensure that the hopper is clean and free of a
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