ASTM D6226-2010 4375 Standard Test Method for Open Cell Content of Rigid Cellular Plastics《硬质泡沫塑料的开孔含量的标准试验方法》.pdf

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1、Designation: D6226 10Standard Test Method forOpen Cell Content of Rigid Cellular Plastics1This standard is issued under the fixed designation D6226; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revision. A numbe

2、r in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This test method covers cellular plastics, which arecomposed of membranes or walls of polymer separating smallcavities or cells. These cells

3、 may be interconnecting (opencell), non-connecting (closed cell), or any combination of thesetypes. This test method determines numerical values for opencells. It is a porosity determination, measuring the accessiblecellular volume of a material. The remaining volume is thatoccupied by closed cells

4、and cell walls. Since any convenientlysized specimen can only be obtained by some cutting opera-tion, a fraction of the closed cells will be opened by specimenpreparation and will be included as open cells, (see Note 2).1.2 This test method provides good accuracy on predomi-nantly highly open-celled

5、 materials. By not accounting forclosed cells that were opened during specimen preparation, theaccuracy decreases as the closed cell content increases and asthe cell size increases.1.3 The values as stated in SI units are to be regarded as thestandard. The values in parentheses are given for referen

6、ceonly.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 and determine the applica-bility of regulatory limitations prior to use.NOTE 1Th

7、is test method and ISO 4590 use the same basic principlesbut are significantly different in experimental detail.NOTE 2Two procedures for correcting for cells opened during speci-men preparation are described in Appendix X1.1.2. Referenced Documents2.1 ASTM Standards:2D883 Terminology Relating to Pla

8、sticsD2842 Test Method for Water Absorption of Rigid CellularPlasticsD3576 Test Method for Cell Size of Rigid Cellular PlasticsE691 Practice for Conducting an Interlaboratory Study toDetermine the Precision of a Test Method2.2 ISO Standard:ISO 4590 Cellular PlasticsDetermination of Volume Per-centag

9、e of Open and Closed Cells of Rigid Materials33. Terminology3.1 Definitions:3.1.1 Terms relating to plastics as given in TerminologyD883 shall be used where applicable.3.2 Definitions of Terms Specific to This Standard:3.2.1 closed cella cell totally enclosed by its walls andhence not interconnectin

10、g with other cells.3.2.2 open cella cell not totally enclosed by its walls andopen to the surface either directly or by interconnecting withother cells.3.2.3 volume of closed cells and cell wallsinaccessibleinternal volume, consisting of an aggregate of solid polymervolume (cell walls, struts), fill

11、er volume, when applicable(solid particles or fibers), the volume of individual closed cells,and the volume of small cell groups interconnected by rupturedcell walls but otherwise inaccessible.3.2.4 uncorrected volume of open cellsthe aggregate mea-surement of both the internal porous volume of the

12、materialand the various irregular volumes accessible at the cut-cellsurface of the test specimen.3.3 Symbols:3.3.1 dspecimen diameter, cm.3.3.2 hspecimen height, cm.3.3.3 lspecimen length, cm.3.3.4 Ovvolume, percent open cells.3.3.5 Vgeometric volume of specimen, cm3.3.3.6 VCALIBvolume of the calibr

13、ation standard, cm3.3.3.7 VCHAMBERvolume of the sample chamber, cm3.3.3.8 VEXPexpansion reference volume, cm3.3.3.9 VSPECspecimen displacement volume, cm3, and,3.3.10 wspecimen width, cm.4. Summary of Test Method4.1 This test method is based on a determination of porosityin which the accessible cell

14、ular volume of a cellular plastic is1This test method is under the jurisdiction of ASTM Committee D20 on Plasticsand is the direct responsibility of Subcommittee D20.22 on Cellular Materials -Plastics and Elastomers.Current edition approved Aug. 1, 2010. Published September 2010. Originallyapproved

15、in 1998. Last previous edition approved in 2005 as D6226 - 05. DOI:10.1520/D6226-10.2For referenced ASTM standards, visit 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 p

16、age onthe ASTM website.3Available from American National Standards Institute (ANSI), 25 W. 43rd St.,4th Floor, New York, NY 10036.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.determined by application of Boyles Law, which states t

17、hatthe increase in volume of a confined gas results in a propor-tionate decrease in pressure. The apparatus consists of twochambers of known volume connected by a valve. One of thechambers, the calibrated sample chamber, is accessible forinsertion of the test specimen and is connected to a source of

18、high purity (at least 99.99 %) dry gas, such as nitrogen orhelium. The pressure in the sample chamber is increased to apredetermined pressure and this value, P1, is noted. The valvebetween the two chambers is then opened and the second,lower Pressure, P2, is again noted. The ratio of the pressurecha

19、nge P1/P2, is directly related to the volume of the samplechamber displaced by the specimen. The difference betweenthis volume and the geometric volume of the specimen is ameasure of the open-cell volume.NOTE 3The criteria for selecting a dry gas are that the gas shall notexhibit significant non-ide

20、al behavior, dissolve the matrix, or readilydiffuse into the matrix.5. Significance and Use5.1 This test method is intended to be used in specificationswhere porosity of cellular plastics has a direct bearing on theirend use. For example, for thermal insulation applications, ahigh percentage of clos

21、ed cells is necessary to prevent escapeof gases and to promote low thermal conductivity. In flotationapplications, high closed-cell content generally reduces waterabsorption.5.2 Before proceeding with this test method, reference shallbe made to the specification of the material being tested. Anytest

22、 specimen preparation, conditioning, or dimensions, orboth, and testing parameters covered in the materials specifi-cation shall take precedence over those mentioned in this testmethod. If there are no material specifications, then the defaultconditions apply.6. Apparatus6.1 Gas PycnometerA schemati

23、c diagram of the pycnom-eter apparatus is shown in Fig. 1. It shall have the followingfeatures:6.1.1 Sample Chamber (VCHAMBER), having a volume ap-proximately between 30 and 150 cm3(1.8 and 9.2 in.3),calibrated to the nearest 0.1 cm3(0.006 in.3).6.1.2 Expansion Reference Volume (VEXP), a precisely c

24、ali-brated volume known to the nearest 0.1 cm3(0.006 in.3).6.1.3 Gage Pressure Transducer, capable of measuring 0 to175 kPa (0 to 25 psig) with minimum volume displacement andlinear within 0.1%.6.1.4 Pressure Relief Valve, to avoid over pressurization ofthe transducer.6.1.5 Filter, to prevent powder

25、 from contaminating thetransducer and selector valves.6.1.6 Input Flow Control Toggle and Needle Valves,oralternative means to control pressurization.6.1.7 Output Flow Control Toggle and Needle Valves,oralternative means to vent the gas.6.1.8 Two-Way Selector Valve, to connect the referencevolume to

26、 the sample chamber.6.1.9 Nonporous Calibration Standard, (for example, astainless steel sphere) of known volume which fills from13 to23 of the sample chamber.6.1.10 Digital Meter, for reading the pressure from thetransducer to 0.007 kPa (0.001 psig).6.1.11 Sample Chamber Closure, with O-ring seal.6

27、.1.12 Calibration Procedure, for the gas pycnometer isoutlined in A2.26.2 Cutting Device, for specimen preparation, such as abandsaw or hobby jigsaw, the blade of which must be capableof producing a smooth cut. This will require a blade with atleast 4 teeth/cm (10 teeth/in.). A cellular hole cutter

28、can also beused.6.3 Vernier Calipers, or micrometer measuring device, ca-pable of measuring specimens to the nearest 0.003 cm (0.001in.).7. Sampling and Test Specimen Preparation7.1 The standard test specimen is two cubes having anominal dimension of 2.5 by 2.5 by 2.5 cm (1.0 by 1.0 by 1.0in.), (see

29、 Note 4). An alternative configuration is two cylinderswith nominal cross sectional areas of 6.25 cm2(0.97 in.) by 2.5cm (1.0 in.) in height, (see Note 5). It is possible that it will bepractical in some instances (for example, when using smaller-sized sample chambers or when there is a limited amou

30、nt ofmaterial) to use only one cube or one cylinder. However, thespecimen displacement volume (VSPEC) shall be at least 15 %of the sample chamber volume.NOTE 4The analyst shall not substitute a single 5 by 2.5 by 2.5 cmrectangular prism for the two cubes because the surface areas are notequal.NOTE 5

31、The cylindrical configuration is not recommended for aniso-tropic materials.7.2 Unless otherwise agreed upon, at least three sets of twocubes or two cylinders, selected at random, shall be tested. Allspecimens having obvious defects shall be omitted.7.3 Sample selection on commercially available mat

32、erialsshall be by agreement between the supplier and the user.7.4 Test specimens shall be machined or sawed from thesample so as to have smooth surfaces. It is permissible formachined or sawed surfaces to be further smoothed by slicingtechniques or sanding with a number 400 or finer sandpaper.Result

33、ing dust shall be blown from the specimens.8. Conditioning8.1 Condition specimens at standard laboratory atmosphere23 6 2C (73.4 6 3.6F) and 50 6 10 % relative humidity fora minimum of 24 h.FIG. 1 Schematic Diagram of Gas PycnometerD6226 1028.2 Since this test method depends on very accurate mea-sur

34、ement of gas pressures, the temperature of the environment,the apparatus, the specimen, and the sample cup must be keptconstant within 62C.8.3 The temperature at which the calibration is performedshall be within 62C of the temperature at which the analysisis performed.9. Procedure9.1 Measure and rec

35、ord the length, l, height, h, and width,w, of the specimens to the nearest 0.003 cm (0.001 in.). If usingcylindrical specimens measure the height, h, and diameter, d.9.2 Close the flow valve if not already closed.9.3 Operate the two-way selector valve so that it isolates theexpansion volume (referen

36、ce) chamber from the rest of thesystem.9.4 Open the vent valve if not already open.9.5 Remove the sample chamber cap if not already open andremove any previous specimen.9.6 Insert the new specimen and securely replace the samplechamber cap.9.7 Air, and vapors trapped within pores, crevices, or among

37、the pieces of the specimen will be removed from the specimenby a prolonged purge when all valves are opened. Report thetime used. However, these impurity gases are much morerapidly removed by alternately increasing and decreasing thegas pressure in the sample chamber.9.8 Close the vent valve and ope

38、n the flow valve. Allow thepressure to rise to 20 kPa (2.9 psig), then close the flow valveand open the vent valve. When the pressure has fallen to lessthan 3 kPa (0.4 psig), close the vent valve. This purgingprocess shall be repeated at least twice more. The vent valvemust remain open at the comple

39、tion of the purge process.Report the number of purge cycles used.9.9 Operate the two-way selector valve so that it connectsthe expansion volume (reference) chamber with the rest of thesystem. Allow the pressure to fall to a steady value, correctingthe pressure display with the zero control as necess

40、ary.9.10 Operate the two-way selector valve so that it againisolates the expansion volume (reference) chamber from therest of the system, ensuring that the pressure display does notshift from zero. If a shift occurs, repeat 9.9.9.11 Close the vent valve neglecting any change in pressure.9.12 Open th

41、e flow valve and fill the chamber to 20 kPa (2.9psig) as shown on the pressure indicator.NOTE 6It will be desirable in some instances to use pressures lessthan 20 kPa for the purging and testing steps. The applied pressure shallnot distort the specimen. If other pressures are used, they shall be not

42、ed onthe test report.9.13 Close the flow valve and allow the pressure to stabilizeor wait a fixed period of time (10 to 15 s give best results formost samples) and record the final pressure as P1. Report thetime used if the pressure did not stabilize.9.14 Immediately operate the two-way selector val

43、ve so thatit again connects the expansion volume (reference) chamberwith the rest of the system and allow the pressure to stabilizeor wait the same fixed period of time as in 9.13. Record thefinal pressure as P2.NOTE 7If the pressure reading drifts continuously to lower pressures,the cells may be ru

44、pturing or the test gas may be diffusing through the cellwalls. Under these conditions, an accurate open-cell content cannot bedetermined.9.15 Open the vent valve and allow the pressure to fall to 0kPa (0 psig).9.16 Return to 9.9 if multiple determinations are to be madeon this specimen.9.17 Remove

45、the specimen from the sample chamber.9.18 If the instrument is to remain idle for an extendedperiod (days), close the sample chamber and shut off the gassupply.9.19 Calculate the specimen volume from the general equa-tion:VSPEC5 VCHAMBERVEXP/P1/P2! 1. (1)NOTE 8Several companies produce both manually

46、 operated andautomatically operated gas pycnometers which meet the specificationsdescribed herein. Please refer to the specific operating manuals foradditional details on operation and calibration.10. Calculation10.1 Calculate the geometric volume, V, in cubic centime-tres of the specimen by adding

47、together the volumes of itscomponent specimens determined from their measurements oflength, width, and height as follows:If two cubes: V 5 l13 w13 h1! 1 l23 w23 h2! (2)Or if two cylinders: V 5 p3d123 h1!/4 1 p3d223 h2!/4.(3)10.2 Calculate the open-cell content, Os, of each specimenexpressed as the p

48、ercentage of the calculated volume, V,asfollows:OV5 V VSPEC!/V 3 100 (4)10.3 If desired the percent volume occupied by the closedcells and cell walls, CWV, can be calculated from the equation:CWV5 100 OV(5)10.4 When the specific gravity of the material in its solidform is known the percent volumes o

49、ccupied by the cell walls,WV, and the closed cells, CV, can be calculated individually.The cell wall volume percentage is calculated as follows:WV5 m / sg 3 V!# 3 100 (6)where:m = the mass of the specimen, g,sg = the specific gravity of the material in solid form,g/cm3, andV = the geometric volume of the specimen, cm3.10.5 The closed cell volume percentage can be then calcu-lated with the equation:CV5 100 OV WV(7)11. Report11.1 Report the following information:11.1.1 Identification and description of the cellular material,11.1.2

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