ANSI AWWA C207-2018 Steel Pipe Flanges for Waterworks Service Sizes 4 In Through 144 In (100 mm Through 3 600 mm).pdf

上传人:appealoxygen216 文档编号:434014 上传时间:2018-11-11 格式:PDF 页数:40 大小:896.29KB
下载 相关 举报
ANSI AWWA C207-2018 Steel Pipe Flanges for Waterworks Service Sizes 4 In Through 144 In (100 mm Through 3 600 mm).pdf_第1页
第1页 / 共40页
ANSI AWWA C207-2018 Steel Pipe Flanges for Waterworks Service Sizes 4 In Through 144 In (100 mm Through 3 600 mm).pdf_第2页
第2页 / 共40页
ANSI AWWA C207-2018 Steel Pipe Flanges for Waterworks Service Sizes 4 In Through 144 In (100 mm Through 3 600 mm).pdf_第3页
第3页 / 共40页
ANSI AWWA C207-2018 Steel Pipe Flanges for Waterworks Service Sizes 4 In Through 144 In (100 mm Through 3 600 mm).pdf_第4页
第4页 / 共40页
ANSI AWWA C207-2018 Steel Pipe Flanges for Waterworks Service Sizes 4 In Through 144 In (100 mm Through 3 600 mm).pdf_第5页
第5页 / 共40页
点击查看更多>>
资源描述

1、ANSI/AWWA C207-18 (Revision of ANSI/AWWA C207-13) AWWA Standard SM Steel Pipe Flanges for Waterworks Service, Sizes 4 In. Through 144 In. (100 mm Through 3,600 mm) Effective date: April 1, 2018. First edition approved by AWWA Board of Directors June 17, 1955. This edition approved Jan. 20, 2018. App

2、roved by American National Standards Institute Dec. 19, 2017.ii AWWA Standard This document is an American Water Works Association (AWWA) standard. It is not a specification. AWWA standards describe minimum requirements and do not contain all of the engineering and administrative information normall

3、y contained in specifications. The AWWA standards usually contain options that must be evaluated by the user of the standard. Until each optional feature is specified by the user, the product or service is not fully defined. AWWA publication of a standard does not constitute endorsement of any produ

4、ct or product type, nor does AWWA test, certify, or approve any product. The use of AWWA standards is entirely voluntary. This standard does not supersede or take precedence over or displace any applicable law, regulation, or code of any governmental authority. AWWA standards are intended to represe

5、nt a consensus of the water industry that the product described will provide satisfactory service. When AWWA revises or withdraws this standard, an official notice of action will be placed in the Official Notice section of Journal - American Water Works Association. The action becomes effective on t

6、he first day of the month following the month of Journal AWWA publication of the official notice. American National Standard An American National Standard implies a consensus of those substantially concerned with its scope and provisions. An American National Standard is intended as a guide to aid t

7、he manufacturer, the consumer, and the general public. The existence of an American National Standard does not in any respect preclude anyone, whether that person has approved the standard or not, from manufacturing, marketing, purchasing, or using products, processes, or procedures not conforming t

8、o the standard. American National Standards are subject to periodic review, and users are cautioned to obtain the latest editions. Producers of goods made in conformity with an American National Standard are encouraged to state on their own responsibility in advertising and promotional materials or

9、on tags or labels that the goods are produced in conformity with particular American National Standards. Caution Notice : The American National Standards Institute (ANSI) approval date on the front cover of this standard indicates completion of the ANSI approval process. This American National Stand

10、ard may be revised or withdrawn at any time. ANSI procedures require that action be taken to reaffirm, revise, or withdraw this standard no later than five years from the date of ANSI approval. Purchasers of American National Standards may receive current information on all standards by calling or w

11、riting the American National Standards Institute, 25 West 43rd Street, Fourth Floor, New York, NY 10036; 212.642.4900; or emailing infoansi.org. ISBN-13, print: 978-1-62576-284-9 eISBN-13, electronic: 978-1-61300-465-4DOI: http:/dx.doi.org/10.12999/AWWA.C207.18 All rights reserved. No part of this p

12、ublication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information or retrieval system, except in the form of brief excerpts or quotations for review purposes, without the written permission of the publisher. Copyrigh

13、t 2018 by American Water Works Association Printed in USAiii Committee Personnel The Steel Water Pipe Manufacturers Technical Advisory Committee (SWPMTAC) Task Group on AWWA C207, which revised this standard, had the following personnel at the time: Mike Vanderbosch, Chair Brent Keil, Vice-Chair Gen

14、eral Interest Members S.A. Arnaout, US Pipe Inc., Dallas, Texas H.H. Bardakjian, Consultant, Glendale, Calif. E. Bird, Smith-Blair Inc., Texarkana, Texas S. Bradberry, Ford-Meter Box Company, Pell City, Ala. B. Card, Manufacturers Consultant, Sugar Hill, Ga. A. Collins, JCM Industries, Nash, Texas K

15、. Couture, American SpiralWeld Pipe Company, Birmingham, Ala. D. Dechant, Manufacturers Consultant, Aurora, Colo. R. Deremiah, Hanson Pressure Pipe Inc., Dallas, Texas M. Fite, Pacific Coast Flange, Mound House, Nev. J. Forni, Jifco Inc., Livermore, Calif. B.D. Keil, Northwest Pipe Company, Draper,

16、Utah D. Lay, Hytorc, Provo, Utah J.L. Luka, American SpiralWeld Pipe Company, Columbia, S.C. J. Olmos, Ameron Water T ransmission Group, Rancho Cucamonga, Calif. R.N. Satyarthi, Baker Coupling Company Inc., Los Angeles, Calif. D. Seals, JCM Industries, Nash, Texas C. Shelley, Victaulic, Atlanta, Ga.

17、 B.P . Simpson, American SpiralWeld Pipe Company, Birmingham, Ala. G. Tate, Viking Johnson, Hitchin, United Kingdom N. Thogersen, Romac Industries Inc., Bothell, Wash. M. Vanderbosch, CAB Inc., Nacogdoches, Texas J. Waterland, VSP Technologies, Prince George, Va. iv The AWWA Standards Committee on S

18、teel Pipe, which reviewed and approved this standard, had the following personnel at the time of approval: John H. Bambei Jr., Chair Dennis Dechant, Vice-Chair John L. Luka, Secretary General Interest Members J.H. Bambei Jr., Bambei Engineering Services, Arvada, Colo. W.R. Brunzell, Brunzell Associa

19、tes Ltd., Skokie, Ill. R.J. Card, Lockwood, Andrews (2) the fact that cast valves and fittings will always have flanges of large outside diameter, which cannot be reduced because of * American National Standards Institute, 25 West 43rd Street, Fourth Floor, New York, NY 10036. Hill, H.O., et al. 194

20、4. Fabricated Steel Ring Flanges for Water Pipe Service for Low Pressure and Low Temperatures. Journal AWWA, 36:9:968. ASME International, 3 Park Avenue, New York, NY 10016.x the wall thickness of this equipment; (3) the need for interchangeability of equipment through the use of common drilling pat

21、terns; and (4) the fact that standards could be based on the successful usage and good service records of existing installations. A survey of water utility users indicated that it was desirable to maintain the outside diameter and drilling of flanged fittings and valves given in ANSI/AWWA C500, Gate

22、 Valves for Water and Sewage Systems, and ANSI/ASME B16.1, Cast Iron Pipe Flanges and Flanged Fittings (for Classes 25, 125, 250, and 800). The committee decided to follow this practice for sizes 648 in. (1501,200 mm). In its extensive deliberations, the ASME/AWWA committee had available the results

23、 of special research and testing conducted by Armco Steel Corporation, Bethlehem Steel Company, and Taylor Forge and Pipe Works. The various design methods and test results were given in “Steel Ring Flanges for Steel Pipe,” ARMCO Bulletin 47-A (1947), from the American Rolling Mill Company, Middleto

24、wn, Ohio. The design of flanges for waterworks service, with the results of the preceding report, was published in Journal AWWA in October 1950, pp. 931944. A discussion in the paper by T aylor Forge, participants in the ASME/AWWA committee, states the reasons why a waterworks flange is not an ASME/

25、Taylor Forge flange. Concern about high secondary stresses at the attachment, e.g., thick material to thin wall pipe, is covered here along with the published “Design of Wye Branches” (Journal AWWA, June 1955, appendix C, pp. 581630). Beginning in 2006, a special flange task group investigated the d

26、evelopment history of the flange dimensions found in the standard. After 5 years of research, the task group reached the following conclusions: 1. There is no one exact stress-based design method that could reproduce the thickness values in the tables. However, it appears the ring flange thicknesses

27、 in this standard are based on using the LaTourBarnard design procedure (ARMCO Bulletin 47-A, 1947) for ring flanges, which is based on ASME integral flange design procedures. 2. A current design analysis was performed based on the LaTourBarnard proposed design method (which was based on physical te

28、sts on pipes with steel-ring flanges) that demonstrated comparable results. The original LaTourBarnard design procedure was a bending-stress design methodology. 3. It has been established that flange thickness design based solely on a stress- based design procedure is incorrect. In Barnards October

29、1950 Journal AWWA paper, he writes: “When the test results were analyzed, it became obvious that the design formulas used in establishing American Standard flange dimensions predicted xi fantastically high localized stresses even when the joint assembly performed satisfactorily. Since a method of de

30、signing by test was being sought, a reconciliation of the apparent contradictions between theory and test results had to be explored. To find the answer, attention was turned to the behavior under load of the steel being tested in pipe wall and flange. Also, the stress factors in the formulas were f

31、urther examined to discover whether or not a different concept of design would compose the apparent differences between theory and test results. It was found that theory fits the data when the concept of calculated stress level design is displaced by a concept of limiting-strain design. Then there w

32、as good correlation between theory, the test results, and past field experience and practice.” Simply put, the design of flange thickness was performed as a limiting-strain type of design procedure and not based on stress. The limiting strain was 5,000 in./in. as determined by the 0.5 percent load e

33、xtension method. 4. Many steel-ring flanges have been supplied with thicknesses and dimensions that match the tables herein since these initial investigations were performed in the 1940s and 1950s by the ASME/AWWA committees leading up to the first edition of AWWA C207. As written by Barnard in 1950

34、, “the primary aim in flange design should be to prevent joint leakage since steel flange joints do not fail by fracture.” The current flange task group has found this to be true over the past 60 years as there have been no reported occurrences of steel flanges fracturing when servicing the pressure

35、 that they were supplied to meet. 5. The determination of the steel-cylinder thickness at the flange attachment to be used in this standard is based on the design procedures for internal pressures shown in AWWA Manual M11, Steel PipeA Guide for Design and Installation. This practice is deemed accept

36、able based on empirical data of successful performance dating back to the early 1950s. Tables 2 through 5 are based on historical dimensions and are presented without additional calculations. I.B. History. The report of the ASME/AWWA committee was approved in 1951, and the first edition of this stan

37、dard, designated AWWA C207-52T, was published in 1952 under the title T entative Standard Specifications for Steel Pipe Flanges. That edition covered diameters from 6 to 48 in. (from 150 to 1,200 mm) and pressures through 150 psi (1,034 kPa). In 1954, a committee composed of T aylor Forge, Armco, Bethlehem Steel, and consulting engineers revised the existing standard to include diameters through 96 in. (2,400 mm) and pressures upto 275 psi (1,896 kPa). This

展开阅读全文
相关资源
  • ANSI Z97 1-2009 American National Standard for Safety Glazing Materials used in Buildings - Safety Performance Specifications and Methods of Test《建筑物中窗用玻璃材料安全性用.pdfANSI Z97 1-2009 American National Standard for Safety Glazing Materials used in Buildings - Safety Performance Specifications and Methods of Test《建筑物中窗用玻璃材料安全性用.pdf
  • ANSI Z97 1 ERTA-2010 Re ANSI Z97 1 - 2009 Errata《修订版 美国国家标准学会Z97 1-2009标准的勘误表》.pdfANSI Z97 1 ERTA-2010 Re ANSI Z97 1 - 2009 Errata《修订版 美国国家标准学会Z97 1-2009标准的勘误表》.pdf
  • ANSI Z21 40 2a-1997 Gas-Fired Work Activated Air-Conditioning and Heat Pump Appliances (Same as CGA 2 92a)《燃气、工作激活空气调节和热泵器具(同 CGA 2 92a)》.pdfANSI Z21 40 2a-1997 Gas-Fired Work Activated Air-Conditioning and Heat Pump Appliances (Same as CGA 2 92a)《燃气、工作激活空气调节和热泵器具(同 CGA 2 92a)》.pdf
  • ANSI Z124 9-2004 American National Standard for Plastic Urinal Fixtures《塑料小便器用美国国家标准》.pdfANSI Z124 9-2004 American National Standard for Plastic Urinal Fixtures《塑料小便器用美国国家标准》.pdf
  • ANSI Z124 4-2006 American National Standard for Plastic Water Closet Bowls and Tanks《塑料抽水马桶和水箱用美国国家标准》.pdfANSI Z124 4-2006 American National Standard for Plastic Water Closet Bowls and Tanks《塑料抽水马桶和水箱用美国国家标准》.pdf
  • ANSI Z124 3-2005 American National Standard for Plastic Lavatories《塑料洗脸盆用美国国家标准》.pdfANSI Z124 3-2005 American National Standard for Plastic Lavatories《塑料洗脸盆用美国国家标准》.pdf
  • ANSI T1 659-1996 Telecommunications - Mobility Management Application Protocol (MMAP) RCF-RACF Operations《电信 可移动管理应用协议(MMAP) RCF-RACF操作》.pdfANSI T1 659-1996 Telecommunications - Mobility Management Application Protocol (MMAP) RCF-RACF Operations《电信 可移动管理应用协议(MMAP) RCF-RACF操作》.pdf
  • ANSI T1 651-1996 Telecommunications – Mobility Management Application Protocol (MMAP)《电信 可移动性管理应用协议》.pdfANSI T1 651-1996 Telecommunications – Mobility Management Application Protocol (MMAP)《电信 可移动性管理应用协议》.pdf
  • ANSI T1 609-1999 Interworking between the ISDN User-Network Interface Protocol and the Signalling System Number 7 ISDN User Part《电信 ISDN用户间网络接口协议和7号信令系统ISDN用户部分.pdfANSI T1 609-1999 Interworking between the ISDN User-Network Interface Protocol and the Signalling System Number 7 ISDN User Part《电信 ISDN用户间网络接口协议和7号信令系统ISDN用户部分.pdf
  • ANSI T1 605-1991 Integrated Services Digital Network (ISDN) - Basic Access Interface for S and T Reference Points (Layer 1 Specification)《综合服务数字网络(ISDN) S和T基准点的.pdfANSI T1 605-1991 Integrated Services Digital Network (ISDN) - Basic Access Interface for S and T Reference Points (Layer 1 Specification)《综合服务数字网络(ISDN) S和T基准点的.pdf
  • 猜你喜欢
    相关搜索

    当前位置:首页 > 标准规范 > 国际标准 > ANSI

    copyright@ 2008-2019 麦多课文库(www.mydoc123.com)网站版权所有
    备案/许可证编号:苏ICP备17064731号-1