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本文(MSS SP-106-2012 Cast Copper Alloy Flanges and Flanged Fittings Class 125 150 and 300《铸铜合金法兰和法兰管件 125 150和300级》.pdf)为本站会员(sofeeling205)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

MSS SP-106-2012 Cast Copper Alloy Flanges and Flanged Fittings Class 125 150 and 300《铸铜合金法兰和法兰管件 125 150和300级》.pdf

1、 MSS SP-106-2012 Cast Copper Alloy Flanges and Flanged Fittings: Class 125, 150, and 300 Standard Practice Developed and Approved by the Manufacturers Standardization Society of the Valve and Fittings Industry, Inc. 127 Park Street, NE Vienna, Virginia 22180-4602 Phone: (703) 281-6613 Fax: (703) 281

2、-6671 E-mail: standardsmss-hq.org MSS www.mss-hq.org MSS STANDARD PRACTICE SP-106 i This MSS Standard Practice was developed under the consensus of MSS Technical Committees 201 and the MSS Coordinating Committee. The content of this Standard Practice is the resulting efforts of competent and experie

3、nced volunteers to provide an effective, clear, and non-exclusive standard that will benefit the industry as a whole. This MSS Standard Practice describes minimal requirements and is intended as a basis for common practice by the manufacturer, the user, and the general public. The existence of an MS

4、S Standard Practice does not in itself preclude the manufacture, sale, or use of products not conforming to the Standard Practice. Mandatory conformance to this Standard Practice is established only by reference in other documents such as a code, specification, sales contract, or public law, as appl

5、icable. MSS has no power, nor does it undertake, to enforce or certify compliance with this document. Any certification or other statement of compliance with the requirements of this Standard Practice shall not be attributable to MSS and is solely the responsibility of the certifier or maker of the

6、statement. “Unless indicated otherwise within this MSS Standard Practice, other standards documents referenced to herein are identified by the date of issue that was applicable to this Standard Practice at the date of approval of this MSS Standard Practice (see Annex A). This Standard Practice shall

7、 remain silent on the validity of those other standards of prior or subsequent dates of issue even though applicable provisions may not have changed.” By publication of this Standard Practice, no position is taken with respect to the validity of any potential claim(s) or of any patent rights in conn

8、ection therewith. MSS shall not be held responsible for identifying any patent rights. Users are expressly advised that determination of patent rights and the risk of infringement of such rights are entirely their responsibility. In this Standard Practice, all text, notes, annexes, tables, figures,

9、and references are construed to be essential to the understanding of the message of the standard, and are considered normative unless indicated as “supplemental”. All appendices, if included, that appear in this document are construed as “supplemental”. Note that supplemental information does not in

10、clude mandatory requirements. This document has been substantially revised from the previous 2003 edition. It is suggested that if the user is interested in knowing what changes have been made, that direct page by page comparison should be made of this document and that of the previous edition. Non-

11、toleranced dimensions in the Standard Practice are nominal, and, unless otherwise specified, shall be considered for reference only. Excerpts of this Standard Practice may be quoted with permission. Credit lines should read Extracted from MSS SP-106-2012 with permission of the publisher, Manufacture

12、rs Standardization Society of the Valve and Fittings Industry. Reproduction and/or electronic transmission or dissemination is prohibited under copyright convention unless written permission is granted by the Manufacturers Standardization Society of the Valve and Fittings Industry Inc. All rights re

13、served. Originally Published: November 1990 Current Edition Approved: July 2011 Current Edition Published: March 2012 MSS is a registered trademark of the Manufacturers Standardization Society of the Valve and Fittings Industry, Inc. Copyright , 2012 by Manufacturers Standardization Society of the V

14、alve and Fittings Industry, Inc. Printed in U.S.A. MSS STANDARD PRACTICE SP-106 ii TABLE OF CONTENTS SECTION PAGE 1 SCOPE . 1 2 REFERENCES 1 3 GENERAL REQUIREMENTS . 1 4 PRESSURE-TEMPERATURE RATINGS . 1 5 SIZE . 1 6 MATERIALS 2 7 DIMENSIONS . 2 8 BOLTS, NUTS, AND GASKETS . 3 9 FLANGE CONNECTIONS 3 1

15、0 ALIGNMENT . 4 11 FACING 4 12 TOLERANCES . 4 13 MARKING 4 14 TESTS . 5 TABLE 1 Dimensions of Class 125 and 150 Solder Joint Flanges 7 2 Dimensions of Class 150 Threaded Companion and Blind Flanges 8 3 Dimensions of Class 300 Threaded Companion and Blind Flanges 9 4 Dimensions of Class 150 Elbows, T

16、ees, Crosses, Laterals, True Ys (Straight Sizes), and Reducers 10 5 Pressure-Temperature Ratings for ASTM B62, Copper Alloy UNS No. C83600 and ASTM B584, Copper Alloy UNS No. C83600 11 6 Pressure-Temperature Ratings for ASTM B584, Copper Alloy UNS Nos. C83600 and C84400 11 7 Pressure-Temperature Rat

17、ings of Solder Joints . 12 FIGURE 1 Method of Designating Outlets of Reducing Fittings 6 ANNEX A Referenced Standards and Applicable Dates . 13 MSS STANDARD PRACTICE SP-106 1 1. SCOPE 1.1 This Standard Practice establishes requirements for cast copper alloy flanges and flanged fittings having dimens

18、ions, ratings, and materials not included in ASME B16.24. Specifically, this Standard Practice encompasses the following: 1.1.2 Solder joint flanges, when made of ASTM B62, Copper Alloy UNS No. C83600, ASTM B584, Copper Alloy UNS Nos. C83600, C83800, and C84400, for rating Class 125 and Class 150. 1

19、.1.3 Threaded flanges and blind flanges, when made of ASTM B584, Copper Alloy UNS Nos. C83600, C83800, and C84400 for rating Class 150 and Class 300. 1.1.4 Flanged fittings, when made of ASTM B584, Copper Alloy UNS Nos. C83600, C83800, and C84400 for rating Class 150. 2. REFERENCES 2.1 Standards and

20、 specifications normatively referenced in this Standard Practice are shown in Annex A for convenience of identifying edition number, date, and source of developer. 3. GENERAL REQUIREMENTS 3.1 The ratings listed are based upon good practice for alignment and assembly. Use of the ratings for flanged j

21、oints not conforming to such practice is the sole responsibility of the user. Requirements for alignment and assembly of joints and considerations of leakage due to forces and moments developed in the connected piping or equipment are not covered in this Standard Practice. 3.2 Guidelines for (SI) me

22、tric data conversion may be found in MSS SP-86. 4. PRESSURE-TEMPERATURE RATINGS 4.1 Flanges or flanged fittings conforming to this Standard Practice shall have pressure-temperature ratings that are the lower of Table 5 or 6, as applicable, or Table 7. All ratings are the maximum allowable non-shock

23、pressures at the tabulated service temperatures. 4.2 If the two flanges in a flanged joint do not have the same pressure-temperature rating because one or both is soldered, blind, threaded, or made of another material, the rating of the joint at any temperature is the lower of the two flange ratings

24、. 4.3 The temperature shown for a corresponding pressure rating is the temperature of the pressure-containing shell of the flange or flanged fitting. In general, this temperature is the same as that of the contained fluid. 4.4 Ratings in this document apply to flanged joints that conform to the limi

25、tations on bolting in Section 6.2 or gaskets in Section 8.2. 5. SIZE 5.1 The “size“ of the flanges in Table 1 corresponds to “standard water tube size“ as specified in the ASTM B88. 5.2 The “size“ of flanges and flanged fittings shown in Tables 2, 3, and 4 are identified by the corresponding “nomina

26、l pipe size“ (NPS). 5.3 Reducing fittings shall be designated by the size of the openings in their proper sequence as indicated in Figure 1. CAST COPPER ALLOY FLANGES AND FLANGED FITTINGS: CLASS 125, 150 AND 300 MSS STANDARD PRACTICE SP-106 2 6. MATERIALS 6.1 Castings Castings shall be produced to m

27、eet the requirements of ASTM B62, Copper Alloy UNS No. C83600, and ASTM B584, Copper Alloy UNS Nos. C83600, C83800, or C84400. When castings are produced to meet the requirements of ASTM B584, Copper Alloy UNS No. C83600, they are also required to meet the requirements of the ASME Boiler and Pressur

28、e Vessel Code. The certification of all testing is mandatory as is the testing of each lot number. 6.2 Bolting Bolting materials used with these flanges shall conform to one of the following paragraphs. 6.2.1 Steel Bolting Carbon steel bolting conforming to ASTM A307 shall not be used below -20 F, n

29、or above 400 F. Also see Section 8.1. 6.2.2 Non-ferrous Bolting The following non-ferrous materials may be used within the temperature limitation stated. Also see Section 8.1. Other materials having at least 40 ksi specified minimum yield strength may be considered. ASTM Copper Alloy UNS No. Conditi

30、on a) B98 See Note (a)C65100 (Half Hard) C65500 (Half Hard) C66100 (Half Hard) b) B150 See Note (b)C61400 N/A C63000 C64200 N04400 c) B164 See Note (b)N04400 (Hot Finish) N04400 (Cold Drawn) N04400 (Cold Drawn, Stress Relieved) N04400 (Cold Drawn, Stress Equalized) N04405 (Hot Finish) N04405 (Cold D

31、rawn) NOTES: (a)Maximum Operating Temperature 350 F (b)Maximum Operating Temperature 550 F 7. DIMENSIONS 7.1 Class 125 and 150 Interchangeability Class 125 and Class 150 cast copper alloy flanges and flanged fittings are dimensionally interchangeable with ASME B16.1 Class 125 cast iron flanges, with

32、 ASME B16.5 Class 150 steel and alloy flanges, with ASME B16.24 Class 150 copper alloy flanges, and with ASME B16.42 Class 150 ductile iron flanges. 7.2 Class 300 Interchangeability Class 300 flanges are dimensionally interchangeable with ASME B16.1 Class 250 cast iron flanges, with ASME B16.5 Class

33、 300 steel and alloy flanges, with ASME B16.24 Class 300 copper alloy flanges, and ASME B16.42 Class 300 ductile iron flanges. 7.3 Flange Bolt Holes Flange bolt holes shall be in accordance with the dimensions shown in Tables 1, 2, and 3. 7.3.1 When flanges are integral with fittings, pairs of bolt

34、holes shall straddle the center line. 7.4 Fitting Configurations 7.4.1 Side-Outlet Fittings Side-outlet elbows and side-outlet tees shall have all openings on intersecting center lines. 7.4.2 Elbows The center-to-face dimensions for straight-size 90-degree elbows, 90-degree long-radius elbows, 45-de

35、gree elbows, and side-outlet 90-degree elbows are shown in Table 4. Use of 90-degree reducing elbows and reducing side-outlet 90-degree elbows shall have the same center-to-face dimensions as straight-size fittings shown in Table 4, corresponding to the size of the largest opening. Elbows ranging fr

36、om 1 degree to 45 degrees, inclusive, shall have the same center-to-face dimensions given for 45-degree elbows, and those over 45 degrees and up to 90 degrees, inclusive, shall have the same center-to-face dimensions given for 90-degree elbows. MSS STANDARD PRACTICE SP-106 3 The angle designation of

37、 an elbow is its deflection from straight-line flow and is the angle between the flange faces. 7.4.3 Tees, Crosses, and Laterals The center-to-face dimensions for straight-size tees (with or without side outlet), crosses, and laterals are shown in Table 4. Reducing tees (with or without side outlet)

38、, reducing crosses, and reducing laterals shall have the same center-to-face dimensions as straight-size fittings shown in Table 4, corresponding to the size of the largest opening. Tees, crosses, and laterals that reduce on the run only shall have the same center-to-face dimensions as straight-size

39、 fittings shown in Table 4, corresponding to the size of the largest opening. Tees reducing on both runs are generally known as bullhead tees and have the same center-to-face dimensions as straight-size fittings corresponding to the size of the outlet. 7.4.4 True Ys Center-to-face dimensions for str

40、aight-size true Ys are shown in Table 4. Reducing sizes are considered special and are not covered by this Standard Practice, but can be made upon agreement between the purchaser and manufacturer. 7.4.5 Reducers and Eccentric Reducers The face-to-face dimensions for all combinations of reducers and

41、eccentric reducers shall be the same as given in Table 4, for the larger opening. 7.4.6 Crosses and Lateral Reinforcement Crosses and lateral (Y-branches) both straight and reducing shall be reinforced where necessary to compensate for inherent weakness in the shape of these fittings. 7.5 Spot Facin

42、g All flanges covered by this Standard practice shall have bearing surfaces for bolting that are parallel to the flange face within 1 degree. Any back facing or spot facing required to accomplish parallelism shall not reduce the flange thickness, “B“ or “C“, below the dimensions given in Tables 1, 2

43、, and 3. The diameter of spot facing shall be in accordance with MSS SP-9. When cutting into the hub of a flange with back facing tools, the intersection shall have a radius of not less than 1/16 inch. 8. BOLTS, NUTS, AND GASKETS 8.1 For carbon steel and non-ferrous bolts smaller than three-quarter

44、inch, ASME B18.2.1 standard square heads or standard heavy hex heads and ASME B18.2.2 standard heavy hex nuts are recommended. For carbon steel and non-ferrous bolts three-quarter inch and larger, ASME B18.2.1 standard hex heads or heavy hex heads and ASME B18.2.2 standard hex nuts or heavy hex nuts

45、 are recommended. All bolts and nuts shall be threaded in accordance with ASME B1.1 standard unified screw threads, coarse thread series, Class 2A and Class 2B. 8.2 Full-faced gaskets extending to the flange edge are required. Metallic gaskets shall not be used. If bolting material is carbon steel o

46、r non-ferrous, compressed-sheet gaskets less than 0.12 inches thick should not be used. 9. FLANGE CONNECTIONS 9.1 All solder joint connections shall be to the dimensions shown in Table 1. These dimensions are the same as solder joint dimensions shown in ASME B16.18. 9.2 The standard method of gaugin

47、g the diameter tolerances for female ends shall be by the use of plain plug gauges designed to hold the product within the limits established in Table 1. 9.3 When gauging the diameters of solder-cup ends using direct reading instruments, refer to Note (e) of Table 1. 9.4 All threaded flanges shall h

48、ave a taper pipe thread conforming to ASME B1.20.1. MSS STANDARD PRACTICE SP-106 4 9.5 All threads shall be countersunk a distance not less than one-half the pitch of the thread at an angle of approximately 45 degrees with the axis of the thread, and, for the purpose of easier entrance in making a j

49、oint and for protection of the thread, all external threads shall be chamfered at an angle of 30 to 45 degrees from the axis. Countersinking and chamfering shall be concentric with the threads. 9.6 The length of threads specified in all tables shall be measured to include the countersink or chamfer. 9.7 Tapered pipe threads (NPT) shall be checked by use of working plug gauges, either standard or limit types. Gauges shall be threaded-in hand tight. The reference point for gauging internal threads depends upon the chamfer diameter. When the internal chamfer-diameter exce

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