1、Designation: C1629/C1629M 15Standard Classification forAbuse-Resistant Nondecorated Interior Gypsum PanelProducts and Fiber-Reinforced Cement Panels1This standard is issued under the fixed designation C1629/C1629M; the number immediately following the designation indicates theyear of original adopti
2、on or, in the case of revision, the year of last revision. A number in parentheses indicates the year of lastreapproval. A superscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope*1.1 This standard establishes classifications of abuse resis-tance based on t
3、he abrasion resistance and impact resistanceperformance of nondecorated interior gypsum panel productsand fiber-reinforced cement panels (abuse resistant wall pan-els).1.1.1 This standard is a method of classifying gypsum panelproduct performance and is not intended to classify systems forabuse resi
4、stance.1.2 The values stated in inch-pound and SI (metric) units areto be regarded separately as standard. Within the text, the SIunits are shown in brackets. The values stated in each systemshall be used independent of the other. Values from the twosystems shall not be combined.1.3 This standard do
5、es 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 and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 ASTM Sta
6、ndards:2C11 Terminology Relating to Gypsum and Related BuildingMaterials and SystemsC473 Test Methods for Physical Testing of Gypsum PanelProductsC840 Specification forApplication and Finishing of GypsumBoardC1154 Terminology for Non-Asbestos Fiber-Reinforced Ce-ment ProductsD4977 Test Method for Gr
7、anule Adhesion to Mineral Sur-faced Roofing by AbrasionD5420 Test Method for Impact Resistance of Flat, RigidPlastic Specimen by Means of a Striker Impacted by aFalling Weight (Gardner Impact)E695 Test Method of Measuring Relative Resistance ofWall, Floor, and Roof Construction to Impact Loading2.2
8、ISO Documents:ISO 6707-1 Building and Civil EngineeringVocabularyPart 1: General Terms3. Terminology3.1 Definitions of terms shall be in accordance with Termi-nologies C11 and C1154.3.2 Definitions of Terms Specific to This Standard:3.2.1 failure (hard body impact), ntest result constitutedby the pe
9、netration or deformation of the wall cavity by theimpact head establishing a residual deflection of the panelexceeding the nominal thickness of the test panel.3.2.2 structural failure (soft body impact), na test resultconstituted by the penetration or deformation of the wall cavityby the soft body i
10、mpact bag establishing a residual deflectionof any area on the test panel that exceeds the nominal thicknessof the test panel.3.2.2.1 deformation, nchange of shape or dimension orboth. ISO 6707-13.2.2.2 surface damage, npulverization of the core of thetest panel at the point of impact, which is evid
11、enced bycracking, creasing, or other visible damage short of failure asdefined in 3.2.2.3.2.3 residual deflection, npermanent deformation of abuilding element, component, or structure after removal ofapplied force.3.2.3.1 DiscussionAlso called permanent set or residualdeformation.4. Significance and
12、 Use4.1 Each abuse/impact property of abuse resistant wallpanels is divided into three classification levels. The threelevels of classification are: Level I, Level II, and Level III, withLevel I representing the lowest rating for any given property.The test methods specified are utilized to establis
13、h the abuse-resistance classification of an abuse resistant wall panel. Each1This classification is under the jurisdiction of ASTM Committee C11 onGypsum and Related Building Materials and Systems and is the direct responsibilityof Subcommittee C11.01 on Specifications and Test Methods for Gypsum Pr
14、oducts.Current edition approved June 1, 2015. Published July 2015. Originally approvedin 2005. Last previous edition approved in 2014 as C1629/C1629M 14a. DOI:10.1520/C1629_C1629M-15.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.
15、org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.*A Summary of Changes section appears at the end of this standardCopyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
16、1classification level requires a minimum overall specified per-formance.Any classified abuse resistant wall panel can be usedat a classification level which is rated lower than the highestlevel qualified.5. Basis of Classification5.1 Abuse resistant wall panels are classified into one ofthree levels
17、 of abuse resistance based on minimum perfor-mance when tested in accordance with test methods thatevaluate surface abrasion, indentation, soft body impact, andhard body impact as specified in 6.1 6.4.5.2 Minimum requirements for each level are as shown inTables 1-4.6. Test Methods6.1 Surface Abrasi
18、on TestThis test is conducted in accor-dance with Test Method D4977 using a total load of 25.0 lb11.3 kg. The specimen is conditioned to constant weight at70F 21C and 50 % relative humidity and subjected to 50abrasion cycles. The abrasive motion on the specimen createsmeasurable surface wear or inde
19、ntation which is measured todetermine the level of surface abrasion resistance.NOTE 1It is especially important to prepare the apparatus andcondition the brush as specified in Test Method D4977.6.2 Indentation TestThis test, conducted in accordancewith Test Method D5420 (Gardner Impact), utilizes pr
20、ocedureGC, with a58-in. 15.9 mm hemispherical head and a 72 in.-lb12.6 J impact energy. The depth of the indentation ismeasured to determine the level of indentation resistance.6.3 Soft Body Impact TestThis test, conducted in accor-dance with Method E695, is performed with the use of thestandard lea
21、ther bag filled with steel pellets to a weight of60.0 lb 27.2 kg and dropped through an angular distance untilthe specimen is impacted. The point of impact shall be midwaybetween studs at the mid-height of the test panel.6.3.1 Apparatus:6.3.1.1 Wall AssemblyA single 4 by 8 ft 1200 by2400 mm panel is
22、 mounted on a wood stud wall constructed ofnominal 2 by 4 in. 38 by 89 mm studs. The studs shall bespaced 16 in. 400 mm on center, and the wall shall beconstructed with the abuse resistant wall panel attached parallelto the framing members following methods outlined in TestMethod C840 sections on “A
23、pplication of Gypsum Board” and“System I: Application of Single-Ply Gypsum Board to WoodFraming Members.”6.3.1.2 Measurement ToolsA vernier or digital caliperstyle depth gauge capable of measuring not less than 2 in.50 mm at 0.0005 inch 0.01 mm resolution shall be used tomeasure the depth of residua
24、l deflection. The depth gauge shallbe attached to a base of sufficient width to span the16 in. 400 mm between the studs of the wall assembly. Thebase shall be sufficiently stiff to resist bending. A micrometercapable of measuring 1 in. 25 mm at 0.001 0.01 mmresolution shall be used to measure the av
25、erage thickness of thepanel as specified in Test Method C473.6.3.2 A single specimen is repeatedly impacted at a singlepoint of impact in one cavity with the drop height beingincreased by 6 in. 150 mm (30 lbf 133 N) with eachsuccessive drop until structural failure as defined in 3.2.2 isachieved.6.3
26、.2.1 The level of energy, surface damage, deformation,and residual deflection at the point of impact are recordedfollowing each impact. The residual deflection shall be mea-sured from the face side of the panel.(1) Residual deflection shall be visually evaluated to deter-mine where the deepest defle
27、ction occurs. Three measures shallbe made in this area to the nearest 0.001 in. 0.01 mm and thenaveraged. This measurement shall be used to determine thedepth of the residual deflection.NOTE 2Surface damage and deformation, which do not constitutestructural failure, may compound the results.6.3.3 Fo
28、llowing structural failure in the initial cavity, theprocedure described in 6.3.2 is repeated on the next cavity,beginning with a drop height of 6 in. 150 mm higher than thedrop height causing structural failure in 6.3.2.6.3.3.1 If structural failure in the second cavity occurs withthe first drop, t
29、he test is terminated and the level of energyrequired to cause the failure is calculated to determine the softbody impact resistance.6.3.3.2 If structural failure in the second cavity occurs onthe second or subsequent drop, repeat the procedure describedTABLE 1 Performance RequirementsSurface Abrasi
30、on ResistanceClassificationLevelAbraded DepthMaximumin. mm1 0.126 3.22 0.059 1.53 0.010 0.3TABLE 2 Performance RequirementsIndentation ResistanceClassificationLevelIndentationMaximumin. mm1 0.150 3.82 0.100 2.53 0.050 1.3TABLE 3 Performance RequirementsSoft Body Impact TestClassificationLevelSoft Bo
31、dyMinimumft-lbf J1 90 1222 195 2653 300 408TABLE 4 Performance RequirementsHard Body ImpactClassificationLevelHard BodyMinimumft-lbf J1 50 682 100 1363 150 204C1629/C1629M 152in 6.3.3 in the next cavity, beginning with a drop height 6 in.150 mm higher than the drop height causing structural failurei
32、n the second cavity.6.3.4 Repeat the procedures in 6.3.2 6.3.3.2 until struc-tural failure occurs on a single drop in a fresh cavity, at whichtime the test is terminated and the level of energy required tocause the failure is calculated to determine the soft body impactresistance.6.4 Hard Body Impac
33、t TestThis test is conducted inaccordance with the method described in Annex A1 or withanother apparatus equipped with an equivalent impact headthat is capable of delivering equivalent impact loads.ANNEX(Mandatory Information)A1. HARD BODY IMPACT TESTA1.1 ScopeA1.1.1 The hard body impact test measur
34、es resistance topenetration of a wall panel when impacted by a rigid body.Failure in the hard body impact test is achieved when theimpacting head completely penetrates through the test panel, orthe depth of the indentation exceeds the thickness of theproduct being tested when measured from the face
35、sidefollowing impact, or both.A1.2 Summary of Test MethodA1.2.1 A nominal 2 by 2 ft 610 by 610 mm specimen ismounted to the apparatus frame. A ramming arm impactorstrikes the wall specimen while swinging in an arc. Theimpactor is dropped from a fixed height to impart specificdesign energy to the wal
36、l specimen. Weights are progressivelyadded to the impactor to increase the design impact energyuntil specimen failure occurs. For each impact, a new testspecimen is used.A1.3 Significance and UseA1.3.1 The test method measures relative performance ofinterior wall panel materials. Although the test p
37、anel ismounted on framing and tested vertically as a wall assembly,the impact damage is normally limited to a small area.A1.4 ApparatusA1.4.1 The apparatus consists of a rigid frame with aramming arm pinned to swing in an arc. See Figs. A1.1 andA1.2. The frame is constructed of 14 ga, 158 by 158 in.
38、41 by 41 mm B-Line B24 Regular Framing Channels.A1.4.1.1 The dimensions and details of the ramming armimpactor are shown in Fig. A1.3. The ramming arm impactorconsists of a cylindrical steel impact head (made by milling around steel bar), a structural steel tubing with square cross-section, two squa
39、re steel plates (front and rear end plates of thestructural steel tubing), a steel plate pivot arm, a round steel bar(to add weights), and a rectangular steel plate attached to thebottom of the structural steel tubing. The total weight of thecomponents of the ramming arm impactor is 20.0 lb 9.07 kg6
40、 0.5 %, as shown in Table A1.1. The center of mass of theramming arm impactor coincides with the location of the steelround bar (that is, the weight bar). Additional weights areattached to the weight bar to increase the impacting energy.A1.4.1.2 The ramming arm impactor shall have a suitablemechanis
41、m to secure it at the top of the swing. An example ofsuch a mechanism is a small eyebolt attached to the back of theimpactor. When released from the top of the swing, the dropheight of the center of mass of the ramming arm impactor shallbe 12.0 in. 305 mm.A1.4.1.3 The ramming arm is located such tha
42、t the face ofthe impactor head, when hanging free at the bottom of the arc,is in the same plane as the surface of the test specimen so that,when dropped, the impactor head strikes the surface of thespecimen at the bottom of the arc.A1.5 Test SpecimenA1.5.1 The test wall assembly shall be constructed
43、 byattachinga2by2ft610 by 610 mm specimen of the interiorwall panel material to a frame of 358 in. 92 mm deep 20 gasteel studs with Type S-12 bugle head screws spaced 8 in.200 mm o.c. as shown in Fig. A1.4. The length of the screwsshall be 114 in. 32 mm for panels up to58 in. 15.9 mm inthickness. Fo
44、r panels with thickness greater than58 in.15.9 mm, the length of the screws shall be at least58 in.16 mm longer than the panel thickness.TABLE A1.1 Weight (Mass) Schedule for the Components of theRamming Arm ImpactorComponentWeightlb, 0.5 %Masskg, 0.5 %Structural Steel Tubing (square cross-section)8
45、.10 3.67Steel Plate Pivot Arm 1.10 0.50Front Square Steel Plate (end plateattached tothe front of the structural steel tubing)0.90 0.41Rear Square Steel Plate (end plateattached tothe back of the structural steel tubing)0.90 0.41Cylindrical Steel Impact Head 1.90 0.86Steel Round Bar (Weight Bar) 2.6
46、0 1.18Bottom Rectangular Steel Plate (attachedto thebottom of the structural steel tubing)4.50 2.04C1629/C1629M 153A1.6 Preparation of ApparatusA1.6.1 The apparatus shall be securely anchored to a levelfloor to prevent sliding or rocking of the apparatus duringimpact.A1.7 ProcedureA1.7.1 The test wa
47、ll assembly shall be securely clamped tothe face of the apparatus so that the surface of the test specimenis in the same plane as the face of the impact head.A1.7.1.1 A new test wall assembly shall be used for eachimpact.A1.7.2 The ramming arm is raised to the top or the arc andsecured with a pin.A1
48、.7.3 The pin is removed, allowing the arm to swing freelyand strike the test specimen.A1.7.4 A new test wall assembly is mounted to the appara-tus and the weight on the impactor is increased by adding2.50 lb 1.10 kg to the weight bar and the test repeated.A1.7.5 The test shall be performed by increm
49、entally in-creasing the barbell free weights on the impactor until a failureimpact energy is achieved.A1.7.5.1 The failure impact energy is defined as the mini-mum energy required for the impactor to penetrate through theface of the panel into the stud cavity, or when the depth of theindentation exceeds the nominal thickness of the product beingtested when measured from the face side.A1.7.6 Testing shall continue until the failure impact energyis confirmed
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