ANSI T 402 SP-2013 Standard conditioning and testing atmospheres for paper board pulp handsheets and related products.pdf

1、TAPPI/ANSI T 402 sp-13 OFFICIAL STANDARD 1926 REVISED 1970 OFFICIAL TEST METHOD 1983 REVISED 1988 REVISED 1993 STANDARD PRACTICE 1998 REVISED 2003 REVISED 2008 REVISED 2013 2013 TAPPI Approved by the Standard Specific Interest Group for this Test Method TAPPI CAUTION: This Test Method may include sa

2、fety precautions which are believed to be appropriate at the time of publication of the method. The intent of these is to alert the user of the method to safety issues related to such use. The user is responsible for determining that the safety precautions are complete and are appropriate to their u

3、se of the method, and for ensuring that suitable safety practices have not changed since publication of the method. This method may require the use, disposal, or both, of chemicals which may present serious health hazards to humans. Procedures for the handling of such substances are set forth on Mat

4、erial Safety Data Sheets which must be developed by all manufacturers and importers of potentially hazardous chemicals and maintained by all distributors of potentially hazardous chemicals. Prior to the use of this method, the user must determine whether any of the chemicals to be used or disposed o

5、f are potentially hazardous and, if so, must follow strictly the procedures specified by both the manufacturer, as well as local, state, and federal authorities for safe use and disposal of these chemicals. Standard conditioning and testing atmospheres for paper, board, pulp handsheets, and related

6、products 1. Scope 1.1 This standard practice defines the standard atmospheres for normal preconditioning, conditioning, and testing of paper and paper products, paperboard, fiberboard, and containers made from them. It also specifies procedures for handling these materials in order that they may rea

7、ch equilibrium with the respective atmosphere. 1.2 This standard practice is also applicable to standard pulp test handsheets, except that the preconditioning procedure is omitted, that is, the sheets are not dried to conditions below those obtained by exposure to the standard conditioning and testi

8、ng atmospheres. (See TAPPI T 205 “Forming Handsheets for Physical Tests of Pulp.”) 1.3 This standard practice does not include special conditioning and testing atmospheres, such as those that attempt to simulate tropical or arctic environments. 2. Significance 2.1 The physical properties of a sample

9、 at 50% RH depend on whether the sample was brought to 50% from higher or lower relative humidities; this “humidity hysteresis effect” is 5-25% of the test value for many physical properties. For example, a hysteresis effect of 1% moisture content (or 16% of the test value of 6% moisture content) is

10、 typical. Preconditioning on the dry side within the range specified will avoid most of the hysteresis effect and result in the moisture content of a given sample being established within 0.15% when the sample is later conditioned to 50% RH and 23C. Conditioning down to 50% gives most papers a moist

11、ure content very nearly the same as conditioning up to 60%. 2.2 Both temperature and relative humidity have significant effects on the physical properties of paper and board (1, 2). For some properties of paper and board (e.g., MD tensile and CD stretch) a change of 1C may have nearly as much effect

12、 as a change of 2% RH. For synthetic fibers and plastic laminates, the temperature effect may be greater than the RH effect. 3. Standard atmospheres 3.1 Preconditioning atmosphere, 10-35% RH and 22-40C (72-104F) (see Appendix). 3.2 Conditioning atmosphere, 50.0% 2.0% RH and 23.0 1.0C (73.4 1.8F.) 3.

13、3 Testing atmosphere, same as for conditioning. T 402 sp-13 Standard conditioning and testing atmospheres for / 2 paper, board, pulp handsheets, and related products NOTE 1: It is important to distinguish between the overall limits of the temperatures within which conditioning and testing may be car

14、ried out and the limits within which the temperature must be maintained in order to maintain the specified relative humidity limits; i.e., the close temperature tolerance of 1C required in 3.2 and 3.3 will not in itself ensure the close relative humidity requirement of 2% RH, as a sudden change of 1

15、C when at 23C and 50% RH will change the RH about 3%. 4. Apparatus 4.1 Preconditioning chamber1, a room or cabinet in which sample sheets or specimens may be individually exposed to circulating air at the preconditioning relative humidity and temperature. NOTE 2: For smaller sheets or specimens, the

16、 required preconditioning may be achieved easily with a simple cabinet, if no other means are available. If this cabinet is operated in a room maintained at 50% RH and 23C and so designed that room air is drawn through it, and if the air entering and in the cabinet is heated to a temperature of 39 1

17、C (102.2 1.8F), the relative humidity in the cabinet will be at or about 20% RH, which is within the allowed range of 10-30% RH. Commercially available forced-ventilation “ovens“ should prove satisfactory. Input air to the oven should be drawn from the standard room, output should be vented outside

18、of the standard room. 4.1.1 For many papers and boards, approximately the same preconditioning moisture content obtained by the above procedure may be achieved by using a sealed cabinet operated in a room maintained at 23 1C and using a saturated solution of lithium chloride (LiCl) to obtain a relat

19、ive humidity of about 12-13%. For larger rooms needed for preconditioning sealed containers and large sheets, the required low relative humidity may be achieved by drawing air over a refrigerator expansion coil operating at a few degrees above freezing temperature. 4.2 Conditioning and testing chamb

20、er, one or more rooms or cabinets in which sample sheets or specimens may be individually exposed to circulating air at the conditioning relative humidity and temperature and then tested under the same conditions. NOTE 3: The required relative humidity (50.0 2.0%) and temperature (23.0 1.0C) is not

21、easy to achieve, and therefore careful attention must be given to the design, evaluation, and maintenance of the “standard room.“ A separate procedure, TAPPI TIP 808-04, has been prepared for this. 4.3 Hygrometer, any instrument that can indicate directly or indirectly the relative humidity of the a

22、ir with a calibrated accuracy of 1.0% RH at 23C and 50% RH. 4.4 Thermometer, either the dry bulb of a psychrometer (i.e., a hygrometer of the wet- and dry-bulb type) or a separate thermometer of any convenient design. If a separate thermometer, it should be graduated to 0.2C (0.5F) or closer with sc

23、ale errors not exceeding these values. (Psychrometer thermometers must be graduated and correct to 0.05C or closer and carefully matched to each other to give the required accuracy and repeatability in the measurement of relative humidity.) Wet-dry bulb psychrometry requires close attention to techn

24、ique, sources of error, purity of water, cleanliness of wick, proper air flow, and in particular the tightness of the wick on the temperature sensor. 5. Procedure 5.1 Obtain and preserve the sample in accordance with TAPPI T 400 “Sampling and Accepting a Single Lot of Paper, Paperboard, Containerboa

25、rd, or Related Product.” In particular, avoid exposure of the sample to direct sunlight, to extremes of temperature, and to relative humidities above 65% (see Appendix A.1). If the sample is to be held for some time before testing, preserve it at a temperature below 25C (77F) and relative humidity b

26、elow 65%, but not below 10% as the paper may curl or cockle and change in other respects. If low temperature storage is used, the sample should be protected against condensation. 5.2 Specimen preparation 5.2.1 Cut specimens from a sample where critical dimensions are involved only after conditioning

27、 the sample. Where there are no critical dimensions, specimens may be cut before preconditioning or conditioning. 5.2.2 If shipping containers are to be sealed with aqueous adhesives, make the seal prior to preconditioning. 5.3 Expose the sample sheets or specimens to the preconditioning atmosphere

28、so that both surfaces of single 1Names of suppliers of testing equipment and materials for this method may be found on the Test Equipment Suppliers list, available as part of the CD or printed set of Standards, or on the TAPPI website general Standards page. 3 / Standard conditioning and testing atm

29、ospheres for T 402 sp-13 paper, board, pulp handsheets, and related products sheets and exterior surfaces of laminated products or sealed containers are freely exposed. This is best achieved by suspending them from overhead or supporting them on a wire grid or rack. 5.4 Precondition the sample sheet

30、s or specimens by exposing them as specified above (5.3) to the preconditioning atmosphere. Precondition for a minimum of 24 h, unless a lesser time has been found to give satisfactory results through careful experimentation. If the sample is to be stored for a time after preconditioning, store at a

31、 temperature below 25C (77F) and a relative humidity below 40%, but not below 10%. NOTE 4: From anecdotal experience, the following preconditioning times have usually been found satisfactory for a preconditioning apparatus of ample capacity and air circulation: paper of ordinary weight and compositi

32、on, less than 1 h; boards (i.e., linerboard, corrugating medium, chipboard, boxboard), 1-2 h; corrugated and solid fiberboard in sheet form, 5-10 h; sealed boxes (including shipping containers), 12-16 h; boards of heavy substances and specially treated water vapor resistant papers and boards, 24 h o

33、r more. 5.5 Condition the sample sheets or specimens by exposing them as specified in 5.3 to the standard conditioning atmosphere for a sufficient time for them to come into equilibrium with the atmosphere. Pulp handsheets (see T 205, Note 8) should be conditioned in the drying rings to the standard

34、 conditioned atmosphere. Determine that equilibrium has been obtained by weighing the sheets or specimens at time intervals which increase roughly geometrically. Plot the weight against log time (i.e., on semilogarithmic paper); the desired equilibrium exists when the plotted curve becomes essential

35、ly parallel to the time axis. NOTE 5: From anecdotal experience, the following conditioning times have usually been found satisfactory for a conditioning apparatus of ample capacity and air circulation: paper of ordinary weight and composition, 4 h; boards (i.e., linerboard, corrugating medium, chip

36、board, boxboard) and unsealed boxes, 5-8 h; sealed boxes (including shipping containers), 16 h; and much longer periods for boards of heavy substances and specially treated water-vapor-resistant papers and boards and wax-treated containers a minimum of 72 h. 5.6 Handle preconditioned and conditioned

37、 sheets or specimens as little as possible; especially avoid touching or breathing on test areas. 5.7 Test the specimens in the standard testing atmosphere. 6. Report 6.1 Report the temperature, relative humidity, and total time of: 6.1.1 Preconditioning. 6.1.2 Conditioning before testing. 6.2 Repor

38、t the minimum and maximum temperature and relative humidity during testing. 6.3 Report any variations in procedure from this method. 7. Keywords Temperature control, Test facilities, Humidity rooms, Test conditions, Conditioning, Atmosphere, Controlled atmospheres, Paper, Paperboard, Handsheets, Fib

39、er boards, Container boards 8. Additional information 8.1 Effective date of issue: April 30, 2013. 8.2 In the 2008 revision, the method was modified to clarify wording in Note 2, to make the wording in Note 4 and Note 5 more consistent, to reflect more accurately the information published by Wink (1

40、), and to add identifiers to the graph. Also in 2008, the method was supposed to have been revised to change the % high relative humidities in the Appendix and Section 5.1. However, the five-year review of the 2008 document revealed that the percentages had been changed in the Appendix, but not in S

41、ection 5.1, so this correction was made in the 2013 edition. Also in the 2013 edition, a Reference section was added. 8.3 Related methods: ASTM D 685, ISO 187, Australian Standard AS/NZ 1301.414 and AS/NZ 1301.415s: 1998, SCAN P2-75, DIN 50014 B = absorption curve; C = partial adsorption; CD = C fol

42、lowed by desorption to point D; E = partial desorption; EF = E followed by adsorption to point F. 5 / Standard conditioning and testing atmospheres for T 402 sp-13 paper, board, pulp handsheets, and related products Literature cited 1. Wink, W. A., Tappi 44 (6): 171A (1961). 2. Crook, D. M., and Ben

43、nett, W. E., Brit. Paper & Board Industry Research Association, Report RA/T/90, Feb. 1962. References Fellers, C., and Brange, A., “The impact of water sorption on the compressive strength of papers,” Proceedings of the 8thFundamental Research Symposium, Fundamental Research Society, Lancashire, Eng

44、land, pp. 497-509, 1985, http:/www.ppfrs.org/. Markstrom, H., Testing Methods and Instruments for Corrugated Boards, Lorentzen & Wettre, Kista, Sweden, 1999, Ch. 11. Quick, R. H., “Containerboard moisture content at TAPPI standard conditions,” Corrugating International 3 (3): 13-14 (2001). Parker, M

45、. E., Bronlaund, J.E., and Mawson, A. J., “Moisture sorption isotherms for paper and paperboard in food chain conditions,” Packaging Technology and Science, 19 (4): 193-209 (2006). Your comments and suggestions on this procedure are earnestly requested and should be sent to the TAPPI Standards Department.