1、Designation: D6098 10Standard Specification forExtruded and Compression Molded Shapes Made fromPolycarbonate (PC)1This standard is issued under the fixed designation D6098; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year o
2、f last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.INTRODUCTIONThis specification is intended to be a means of calling out mechanical grade plastic product used inthe fabrication
3、of end items or parts.1. Scope1.1 This specification covers requirements and test methodsfor the material, dimensions, and workmanship, and the prop-erties of extruded and compression molded plate, rod, andtubular bar manufactured from polycarbonate.1.2 This specification is not intended to cover ma
4、terials usedin glazing and signage as defined in 3.2.1 and 3.2.6.Itisintended to be a means of calling out mechanical grade plasticproducts used for fabrication of end items or parts as defined in3.2.2.1.3 The properties included in this specification are thoserequired for the compositions covered.
5、Requirements neces-sary to identify particular characteristics important to special-ized applications are to be described by using the classificationsystem given in Section 4.1.4 This specification allows for the use of recycled plasticsas defined in Guide D7209.21.5 The values stated in inch-pound
6、units are to be regardedas the standard in all property and dimensional tables. Forreference purposes, SI units are also included in Table S-PCand Table 1 only.1.6 The following precautionary caveat pertains only to thetest method portions, Section 12, of this specification. Thisstandard does not pu
7、rport to address all of the safety concerns,if any, associated with its use. It is the responsibility of the userof this standard to establish appropriate safety and healthpractices and determine the applicability of regulatory limita-tions prior to use.NOTE 1There is no known ISO equivalent to this
8、 standard.2. Referenced Documents2.1 ASTM Standards:3D256 Test Methods for Determining the Izod PendulumImpact Resistance of PlasticsD618 Practice for Conditioning Plastics for TestingD638 Test Method for Tensile Properties of PlasticsD790 Test Methods for Flexural Properties of Unreinforcedand Rein
9、forced Plastics and Electrical Insulating MaterialsD883 Terminology Relating to PlasticsD3892 Practice for Packaging/Packing of PlasticsD3935 Specification for Polycarbonate (PC) Unfilled andReinforced MaterialD4000 Classification System for Specifying Plastic Materi-alsD7209 Guide for Waste Reducti
10、on, Resource Recovery, andUse of Recycled Polymeric Materials and Products2.2 ANSI Standard:Z1.4-1993 Sampling Procedures and Tables for Inspectionby Attributes43. Terminology3.1 Definitions:3.1.1 For definitions of other technical terms pertaining toplastics used in this specification, see Terminol
11、ogy D883 orGuide D7209.3.1.2 regrind plastic, na product or scrap such as spruesand runners and edge trim that have been reclaimed byshredding and granulating for use in-house.1This specification is under the jurisdiction of ASTM Committee D20 onPlastics and is the direct responsibility of Subcommit
12、tee D20.15 on ThermoplasticMaterials.Current edition approved Dec. 1, 2010. Published January 2011. Originallyapproved in 1997. Last previous edition approved in 2003 as D6098 - 97(2003).DOI: 10.1520/D6098-10.2As defined in Guide D7209.3For referenced ASTM standards, visit the ASTM website, www.astm
13、.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.4Available from American National Standards Institute (ANSI), 25 W. 43rd St.,4th Floor, New York, NY 10036, http:/www.ansi.or
14、g.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.3.2 Definitions of Terms Specific to This Standard:3.2.1 glazing product, na finished product which is glazedor set in frame or sash and not held by mechanical fastenerswhich pass thr
15、ough the product.3.2.2 mechanical grade plastic product, nextruded orcompression molded shapes made from polycarbonate used forfabrication of end items or parts.3.2.3 plate, nflat stock greater than14 in.3.2.4 recycled-plastic shape, na product made from up to100 % recycled plastic.3.2.5 rod, nan ex
16、truded solid cylindrical shape with aminimum diameter of18 in.3.2.6 signage product, na fabricated sign or outdoor/indoor structure, consisting of any letter, figure, character,mark, point, plane, marquee sign, design, poster, pictorial,picture, stripe, line, trademark, reading matter or illuminatin
17、gdevice, which is constructed, attached, erected, fastened, ormanufactured in any manner so that the same shall be used forthe attraction of the public to any place, subject, person, firm,corporation, public performance, article, machine or merchan-dise, and displayed in any manner for recognized ad
18、vertisingpurposes.3.2.7 tubular bar, nan extruded annular shape with mini-mum inside diameter of38 in. and minimum wall thickness of116 in.4. Classification and Material4.1 Product shape and size as defined in the applicablepurchase order.4.2 This specification covers product extruded and compres-si
19、on molded as listed in Table S-PC. Products included in thedesignations refer to Specification D3935 callouts where ap-plicable.4.2.1 The type of polycarbonate shape product can becategorized by type, grade and class depending on resin andfiller compositions as defined in Table S-PC.4.2.2 Each type
20、of polycarbonate shape can be categorizedinto one of several grades as follows:4.2.2.1 Grade 1General PurposeExtruded or compres-sion molded product made using only 100 % virgin polycar-bonate resin.4.2.2.2 Grade 2RecycledExtruded or compressionmolded product made using any amount up to 100 % recycl
21、edpolycarbonate plastics.4.3 The type, class and grade is further differentiated basedon dimensional stability (elevated temperature excursion test),Table S-PC, and dimensional requirements, Tables A and B.4.4 Property Tables:4.4.1 Table S-PC is used to describe both extruded orcompression molded pr
22、oducts.4.4.2 Table 1 is used to describe extruded or compressionmolded products not included in Table S-PC via a cell calloutthat includes the applicable Table S-PC polycarbonate type andspecific properties (Designations 17).4.4.3 To facilitate the incorporation of future or specialmaterials not cov
23、ered by Table S-PC, the “as specified”category (00) for type, class and grade is shown in the tablewith the basic properties to be obtained from Table 1, as theyapply.4.4.4 Reinforcements and Additive MaterialsA symbol(single-letter) will be used for the major reinforcement orcombination, or both, a
24、long with two numbers that indicate thepercentage of addition by mass with the tolerances as tabulatedbelow. This must be included in all Table 1 callouts.Symbol MaterialTolerance(Based on the Total Mass)C Carbon and graphite fiber 62%reinforcedG Glass-reinforced15 % glass content 63%L Lubricants (f
25、or example, Depends upon material andPTFE, graphite, and silicone) processto be specifiedM Mineral 62%R Combinations of reinforcements 63 % for the total reinforcementor fillers, or both4.5 Callout DesignationA one-line system shall be usedto specify polycarbonate materials covered by this specifica
26、-tion. The system uses pre-defined cells to refer to specificaspects of this specification as illustrated below:4.5.1 Examples:4.5.1.1 Example 1Product made from general purposepolycarbonate:CELL CALLOUT: S-PC0111S-PC01 = Product made from PC in accordance with Table S-PC1 = Unfilled class1 = Genera
27、l purpose grade product4.5.1.2 Example 2Product made from 20 % glass rein-forced general purpose polycarbonate:CELL CALLOUT: S-PC0100G20I3454430S-PC0100 = Product made from PC in accordance with Table S-PCG20 = 20 % glass1 = Table 1 properties3 = Tensile strength (10,000 psi)4 = Elongation at break
28、(10 %)5 = Tensile Modulus (500,000 psi)4 = Dimensional stability (0.4 %)4 = Flexural Modulus (550,000 psi)3 = Izod Impact (1.0 ft-lb/in. of notch)0 = Unspecified4.5.2 These two examples illustrate how a one-line, alpha-numeric sequence can identify the product composition, com-mercial parameters and
29、 physical characteristics of extruded orcompression molded product. A space must be used as aseparator between the specification number and the typedesignation. No separators are needed between type, class andgrade. When special notes are to be included, such informationshould be preceded by a comma
30、. Special tolerances must benoted at the time of order and are inserted after the grade inparenthesis and preceded by a comma.5. Ordering Information5.1 All shapes covered by this specification shall be orderedusing the proper callout designation (see 4.5).6. Physical Property Requirements6.1 The ph
31、ysical property values listed within this specifi-cations tables are to be considered minimum specificationvalues. Any requirement for specific test data for a givenproduction lot should be specified at the time of order. PhysicalD6098 102properties for products not yet included in Table S-PC arespe
32、cified using Table 1 for extruded or compression moldedproducts.7. Dimensional Requirements7.1 The type, class and grade is differentiated based ondimensional stability (elevated temperature excursion test), asindicated in Table S-PC.7.2 Products shall be produced within commercial toler-ances and w
33、ith the lowest stress levels for machined parts asdelineated in Tables A-1, B-1, and B-2.7.3 Tubular bar dimensions shall be supplied in the unfin-ished condition, unless otherwise specified at time of order,sufficient to finish to the nominal dimension ordered.7.4 The maximum allowable camber and/o
34、r bow shall bewithin the limits referenced in Tables A-1, B-1, and B-2.8. Workmanship, Finish, and Appearance8.1 AppearanceThe resin material color is transparentwith water-white or light straw color. Natural resin is alsooffered with various amounts of blue tinting. The product colorshall be as pub
35、lished by the shapes manufacturer. They shall beuniform in color throughout the thickness. Specific colors andcolor matching only as agreed to by order.8.1.1 Physical properties, although unaffected by tinting,can be affected if coloring by other means.8.2 FinishAll products shall be free of blister
36、s, wrinkles,cracks, gouges and defects that restrict commercial use of theproduct. Special surface finish shall be supplied only whenspecified in the purchase order or contract.8.3 DefectsAll products shall be free of voids, dirt,foreign material and embedded particles exceeding 0.040 in.maximum dia
37、meter as defined in 8.3.1.8.3.1 The criteria for determining the internal cleanlinessshall be external visual inspection. A maximum number of twointernal defects per square foot of plate and one foot length ofrod and tubular bar are allowed. Clusters of defects less than0.040 in. diameter are to be
38、counted as a single defect.8.3.2 For compression molded products, four defects up to0.080 in. diameter per square foot of plate are allowed.9. Sampling9.1 Sampling shall be statistically adequate to satisfy therequirements of this specification as applicable (see ANSI Z1.4- 1993).9.2 For purposes of
39、 sampling, an inspection lot for exami-nation and tests shall consist of all material of the same type,class, grade and nominal size submitted for inspection at onetime.10. Number of Tests10.1 Routine lot inspection shall consist of all the criteriaspecified in the applicable product tables.10.2 The
40、 criteria listed in these product tables and defini-tions are sufficient to establish conformity of the sheet, plate,rod or tubular bars to this specification. When the number oftest specimens is not stated in the test method, a singledetermination is sufficient. If more than single determinationsan
41、d separate portions of the same sample are made, the resultsshall be averaged. The final result shall conform to therequirements prescribed in this specification.11. Test Conditions11.1 Conditioning of SpecimensThe specification valuesand dimensions are based on conditioning techniques outlinedin Pr
42、ocedure A of Practice D618.11.2 Standard TemperatureThe tests shall be conducted atthe standard laboratory temperature of 73.4 6 3.6F (23 62C) and 50 6 5 % relative humidity.12. Test Methods12.1 Test tensile strength at break, elongation at break, andtensile modulus (tangent) in accordance with Test
43、 MethodD638, at the rate of 0.2 in./min.12.1.1 Test all plate specimens in accordance with Type I ofTest Method D638.12.1.2 Test all rod specimens in accordance with TestMethod D638.12.1.3 Test all tubular bar specimens in accordance withTest Method D638.12.2 Dimensional Stability:12.2.1 Specimen Pr
44、eparation (a Minimum of Three TestSamples Required):12.2.1.1 Rods and Tubular BarPrepare each specimen bycutting a 1.5 in. long slice from the shape to be tested. Machinethe slice using a coolant and good machining practices to alength of 1.000 6 0.005 in. Each end of the specimen shallhave a machin
45、ed surface.12.2.1.2 PlateEach specimen shall consist ofa2in.diameter disc machined from the flat (diameter shall equal testspecimen thickness with a minimum of 2.0 in.). The same careshall be used in the machining as described in 12.1.1. Thethickness of the specimen shall be that of the original fla
46、t fromwhich it was cut, no machining being done on the top orbottom faces.12.2.2 Testing ProcedureMeasure the outside diameterand thickness or length of the specimen as applicable at 73.4 61.8F (23 6 1C) to the nearest 0.0001 in. All measurementsshall be done on the centerline and 90 from the center
47、 line forplate. Also take measurements for thickness halfway to center,and for diameter at mid-point. Place the specimen in a bathconsisting of polyalkylene glycol or an air circulating ovenheated to 250 6 5F (121 6 3C). After 6 h, allow thespecimen to slowly cool to room temperature at a rate not t
48、oexceed 40F (22C) / h. Measure the specimen at 73.4 6 1.8F(23 6 1C) and calculate the percent change in each dimen-sion.12.3 Lengthwise Camber and Widthwise Bow12.3.1 Make all measurements for camber and bow usingthe maximum distance rod, sheet or plate deviates from thestraight line extended from e
49、dge to edge when measured inaccordance with 12.3.2. The shape shall be oriented such thatthe weight of the product does not influence the results.12.3.2 Rod and Plate:12.3.2.1 RodLay each rod on its side and measure it withconcave side facing a straight edge. Measure camber from thestraight edge to the maximum concave point on the rod.Camber shall not exceed the values of Table A-1.D6098 10312.3.2.2 PlatePlate shall not exceed the requirements ofTables B-1 and B-2 on the lengthwise ends and widthwiseedges when laid on a flat surface (cr
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