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American Water Works Association
ANSI/AWWA C800-01(Revision of ANSI/AWWA C800-89)
AWWA STANDARD
FOR
UNDERGROUND SERVICE LINE
VALVES AND FITTINGS
Effective date: Sept. 1, 2001.
First edition approved by AWWA Board of Directors Sept. 1, 1948.
This edition approved Jan. 21, 2001.
Approved by American National Standards Institute, Inc., July 3, 2001.
AMERICAN WATER WORKS ASSOCIATION
6666 West Quincy Avenue, Denver, Colorado 80235
www. awwa.org
Copyright © 2001 American Water Works Association, All Rights Reserved
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 andadministrative information normally contained in specifications. The AWWA standards usuallycontain options that must be evaluated by the user of the standard. Until each optional feature isspecified by the user, the product or service is not fully defined. AWWA publication of a standarddoes not constitute endorsement of any product or product type, nor does AWWA test, certify, orapprove any product. The use of AWWA standards is entirely voluntary. AWWA standards areintended to represent a consensus of the water supply industry that the product described willprovide satisfactory service. When AWWA revises or withdraws this standard, an official notice ofaction will be placed on the first page of the classified advertising section of Journal AWWA. Theaction becomes effective on the first day of the month following the month of Journal AWWApublication of the official notice.
American National Standard
An American National Standard implies a consensus of those substantially concerned with its scopeand provisions. An American National Standard is intended as a guide to aid the manufacturer, theconsumer, and the general public. The existence of an American National Standard does not in anyrespect preclude anyone, whether that person has approved the standard or not, from manufactur-ing, marketing, purchasing, or using products, processes, or procedures not conforming to thestandard. American National Standards are subject to periodic review, and users are cautioned toobtain the latest editions. Producers of goods made in conformity with an American NationalStandard are encouraged to state on their own responsibility in advertising and promotionalmaterials or on tags or labels that the goods are produced in conformity with particular AmericanNational Standards.
CAUTION NOTICE: The American National Standards Institute (ANSI) approval date on the frontcover of this standard indicates completion of the ANSI approval process. This American NationalStandard may be revised or withdrawn at any time. ANSI procedures require that action be takento reaffirm, revise, or withdraw this standard no later than five years from the date of publication.Purchasers of American National Standards may receive current information on all standards bycalling or writing the American National Standards Institute, 11 W. 42nd St., New York, NY 10036;(212) 642-4900.
All rights reserved. No part of this publication may be reproduced or transmitted in any form or by anymeans, 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 ofthe publisher.
Copyright © 2001 by American Water Works AssociationPrinted in USA
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Copyright © 2001 American Water Works Association, All Rights Reserved
Committee Personnel
The Standards Committee on Water Service Line Fittings, which reviewed and
approved this standard, had the following personnel at the time of approval:
Lowell W. Warren, Chair
Consumer Members
T.M. Bowen, Manchester Water Works, Manchester, N.H. (AWWA)
S.C. Danos,* Council Liaison, Littleton Water Department, Littleton, Mass. (AWWA)
J.R. Doutt, Division of Water, Columbus, Ohio (AWWA)
R.J. Dudas, Orange County Public Utilities, Orlando, Fla. (AWWA)
R.E. Jennings, City of Fairborn, Fairborn, Ohio (AWWA)
E.J. King, Connecticut Water Company, Clinton, Conn. (NEWWA)
R.J. Krol, Department of Public Works, South Bend, Ind. (AWWA)
P.J. Lehman, Peace River/Manasota Regional Water, Sarasota, Fla. (AWWA)
General Interest Members
C.E. Cook, Camp Dresser & McKee Inc., Tallahassee, Fla. (AWWA)
J.W. Hellums, Community Resource Group Inc., Lake Charles, La. (AWWA)
R.A. Waggenspack, Owen & White Inc., Baton Rouge, La. (AWWA)
J.S. Wailes,* Standards Engineer Liaison, AWWA, Denver, Colo. (AWWA)
L.W. Warren, Tetra Tech Inc., Seattle, Wash. (AWWA)
Producer Members
Terry Agness,† Ford Meter Box Company Inc., Wabash, Ind. (AWWA)
E.G. Anderson, Orlando, Fla. (AWWA)
Mark Anderson, Ford Meter Box Company Inc., Wabash, Ind. (AWWA)
J.L. Daghe, A.Y. McDonald Manufacturing Company, Dubuque, Iowa (AWWA)
G.F. Denison, Romac Industries Inc., Seattle, Wash. (AWWA)
L.W. Fleury, Mueller Company, Smithfield, R.I. (AWWA)
Dennis Humes,† Mueller Company, Decatur, Ill. (AWWA)
Brian Quadt,† James Jones Company, El Monte, Calif. (AWWA)
*Liaison, nonvoting†Alternate
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Copyright © 2001 American Water Works Association, All Rights Reserved
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Copyright © 2001 American Water Works Association, All Rights Reserved
Contents
All AWWA standards follow the general format indicated subsequently. Some variations from this format may be
found in a particular standard.
SEC. PAGE SEC. PAGE
Foreword
I. Introduction.......................................... vii
I.A History. ............................................... vii
I.B Acceptance ........................................... viii
II Special Issues ........................................ ix
II.A Lead Fittings ........................................ ix
III Use of This Standard.......................... ix
III.A Purchaser Options and Alternatives ... ix
III.B Modification to Standard..................... x
IV Major Revisions..................................... x
V Comments.............................................. x
Standard
1 General
1.1 Scope ...................................................... 1
1.2 Purpose ................................................... 1
1.3 Application.............................................. 1
2 References ............................................ 2
3 Definitions........................................... 2
4 Requirements
4.1 Materials................................................. 3
4.2 General Design....................................... 4
4.3 Detailed Design...................................... 4
4.4 End Connections .................................... 6
4.5 Fabrication ............................................. 9
5 Verification
5.1 Inspection ............................................ 11
5.2 Testing................................................. 11
5.3 Rejection.............................................. 11
6 Delivery
6.1 Marking............................................... 11
6.2 Packing and Shipping ........................ 11
6.3 Affidavit of Compliance...................... 11
Appendixes
A Collected Standards for Service
Line Materials ............................. 13
B Field Testing .................................... 18
Figures
1 Standard AWWA Corporation Stop
Inlet Thread....................................... 8
2 Coupling Nut for Use With Flared
Copper Service Tube, Types
K and L ............................................ 10
3 Outlet End of Corporation Stop Showing
Increased-Size NPT External Threads
and Internal Driving
Threads ............................................ 10
4 Flared Fitting End Showing Threads
for Use With Flared Copper Service
Tube.................................................. 10
5 Outlet End of Corporation Stop
Showing Special-Purpose Coupling
Threads and Internal Driving
Threads ............................................ 10
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Copyright © 2001 American Water Works Association, All Rights Reserved
SEC. PAGE SEC. PAGE
Tables
1 Maximum Drill Sizes for Installation
of Corporation Stops in Service
Clamps or Saddles With a Drilling
Machine ........................................... 5
2 Maximum Overall Body Dimensions
for Corporation Stops for Use
With Tapping Machine...................... 5
3 Fitting Thread for Use With Flared
Copper Service Tube ....................... 6
4 Coupling Nut for Use With Flared
Copper Service Tube......................... 6
5 Corporation Stop Outlet Special-Purpose
Coupling Threads .............................. 7
6 Standard AWWA Corporation Stop
Inlet Threads and Corresponding
Internal Threads for Saddles............ 7
7 Tapered External Iron Pipe (NPT)
Threads for Outlet End of
Corporation Stops.............................. 9
8 Internal Driving Thread for
Corporation Stops............................ 10
A.1 Dimensions, Weights, and
Tolerances in Diameter and
Wall Thickness for Nominal or
Standard Copper Water
Tube Sizes........................................ 14
A.2 Dimensions, Weights, and Tolerances
for Standard Sizes of Seamless Red
Brass Pipe......................................... 15
A.3 Standard Weights and Dimensions
of Welded and Seamless
Steel Pipe ......................................... 16
vi
Copyright © 2001 American Water Works Association, All Rights Reserved
Foreword
This foreword is for information only and is not a part of AWWA C800.
I. Introduction.
I.A. History. In 1929, the development of a standard for threads for
underground service fittings was undertaken by the American Standards Association
(ASA). In 1932, the subcommittee that had been appointed for the task asked to be
discharged after it had submitted its proposed standards in the form of two drawings.
No action was taken by ASA on these proposed standards.
The American Water Works Association (AWWA) recognized the need for
standardization of these threads and appointed a committee in 1940 to prepare a
standard. The New England Water Works Association (NEWWA) also appointed a
committee to prepare a standard for these threads. The AWWA and NEWWA
committees cooperated closely in developing a tentative standard in 1947. This was
approved as a standard by AWWA on Sept. 1, 1948, and by NEWWA on Sept. 14,
1948. Revisions to the standard were made effective Jan. 17, 1955. In July 1963, a
committee was formed to revise C800-55 regarding to the evaluation of types K and
L copper tubing for water services. In the revision, published in 1966, threads
representing current practice were established for those fittings generally used in the
water utility field. Sizes 1/2 in. and 5/8 in. were added for inlet and outlet threads for
fittings and couplings for use with flared copper service tubing. The 1966 revision
introduced an appendix that was not part of the standard, but which listed standards
for water service line materials. The appendix was provided for information only
because the materials were covered by other standards. The appendix also contained
specifications for copper water tubing, red brass pipe, cast-iron pipe, and steel pipe.
In 1974, a standing committee was formed to revise and update C800-66. The
committee recognized the need to expand the scope of this standard beyond being a
standard covering only threads for underground service fittings. All previous versions
of C800 covered only the threads for fittings that were in common use in water
distribution systems. Subsequently, the scope of the standard was changed to include
performance standards for underground service line fittings as well as for the
threads. The 1984 revision to C800 was approved by the AWWA Board of Directors
on Jan. 29, 1984. The 1989 revision to C800 was approved by the AWWA Board of
vii
Copyright © 2001 American Water Works Association, All Rights Reserved
Directors on Jan. 1, 1990. This revision was approved by the AWWA Board of
Directors on January 21, 2001.
I.B. Acceptance. In May 1985, the US Environmental Protection Agency
(USEPA) entered into a cooperative agreement with a consortium led by NSF
International (NSF) to develop voluntary third-party consensus standards and a
certification program for all direct and indirect drinking water additives. Other
members of the original consortium included the American Water Works Association
Research Foundation (AWWARF) and the Conference of State Health and Environ-
mental Managers (COSHEM). The American Water Works Association (AWWA) and
the Association of State Drinking Water Administrators (ASDWA) joined later.
In the United States, authority to regulate products for use in, or in contact
with, drinking water rests with individual states.* Local agencies may choose to
impose requirements more stringent than those required by the state. To evaluate
the health effects of products and drinking water additives from such products, state
and local agencies may use various references, including
1. An advisory program formerly administered by USEPA, Office of Drinking
Water, discontinued on Apr. 7, 1990.
2. Specific policies of the state or local agency.
3. Two standards developed under the direction of NSF, ANSI†/NSF‡ 60,
Drinking Water Treatment Chemicals—Health Effects, and ANSI/NSF 61, Drinking
Water System Components—Health Effects.
4. Other references, including AWWA standards, Food Chemicals Codex,
Water Chemicals Codex,§ and other standards considered appropriate by the state or
local agency.
Various certification organizations may be involved in certifying products in
accordance with ANSI/NSF 61. Individual states or local agencies have authority to
accept or accredit certification organizations within their jurisdiction. Accreditation
of certification organizations may vary from jurisdiction to jurisdiction.
*Persons in Canada, Mexico, and non-North American countries should contact theappropriate authority having jurisdiction.
†American National Standards Institute, 25 W. 43rd St., New York, NY 10036.
‡NSF International, 789 N. Dixboro Rd., Ann Arbor, MI 48105.
§Both publications available from National Academy of Sciences, 2102 Constitution Ave.N.W., Washington, DC 20418.
viii
Copyright © 2001 American Water Works Association, All Rights Reserved
Annex A, “Toxicology Review and Evaluation Procedures,” to ANSI/NSF 61 does
not stipulate a maximum allowable level (MAL) of a contaminant for substances not
regulated by a USEPA final maximum contaminant level (MCL). The MALs of an
unspecified list of “unregulated contaminants” are based on toxicity testing
guidelines (noncarcinogens) and risk characterization methodology (carcinogens). Use
of Annex A procedures may not always be identical, depending on the certifier.
AWWA C800-01 does not address additives requirements. Thus, users of this
standard should consult the appropriate state or local agency having jurisdiction in
order to
1. Determine additives requirements, including applicable standards.
2. Determine the status of certifications by all parties offering to certify
products for contact with, or treatment of, drinking water.
3. Determine current information on product certification.
II. Special Issues.
II.A. Lead Fittings. All references to lead fittings have been removed from
C800 and the attached appendices. The AWWA Standards Department has available
to users of C800, copies of C800-84 information that contains references to lead
fittings.
III. Use of This Standard. AWWA has no responsibility for the suitability
or compatibility of the provisions of this standard to any intended application by any
user. Accordingly, each user of this standard is responsible for determining that the
standard’s provisions are suitable for and compatible with that user’s intended
application.
III.A. Purchaser Options and Alternatives. The following items should be
included in the purchaser’s specifications:
1. Standard used—that is, ANSI/AWWA C800, Standard for Underground
Service Line Valves and Fittings, of latest revision.
2. The purchaser should state whether compliance with ANSI/NSF 61
Drinking Water System Components—Health Effects is to be required, in addition to
the requirements of the Safe Drinking Water Act. If this certification is to be
required, the purchaser’s specification shall read, “This product shall be certified as
suitable for contact with drinking water by an accredited certification organization in
accordance with ANSI/NSF Standard 61, Drinking Water Systems Components—
Health Effects.
3. The size and type of fitting or valve.
ix
Copyright © 2001 American Water Works Association, All Rights Reserved
4. Quantity required.
5. Type of inlet thread (Sec. 4.4).
6. Size and type of outlet thread (Sec. 4.4).
7. Working pressures under which the valve or fitting will be operated after
installation—normal or high pressure (Sec. 4.2).
8. Whether an affidavit of compliance is to be provided (Sec. 6.3).
9. Whether records of factory tests are to be provided (Sec. 5.2.1).
10. Description of special castings or patterns, if required. Special casting
markings, if required, should be stated, including location of these markings
(Sec. 6.1).
11. Minimum inside diameter of waterway through corporation stops (Sec.
4.3.1.1).
III.B. Modification to Standard. Any modification to the provisions, defini-
tions, or terminology in this standard must be provided in the purchaser’s
specifications.
IV. Major Revisions. Major revisions made to the standard in this edition
include the following:
1. The format has been changed to AWWA standard style.
2. Approved wording has been added in Foreword Sec. I, III, V, and Sec. 1,
and Sec. 4.
V. Comments. If you have any comments or questions about this standard,
please call the AWWA Volunteer & Technical Support Group, (303) 794-7711 ext.
6283, FAX (303) 795-7603, or write to the group at 6666 W. Quincy Ave., Denver, CO
80235.
x
Copyright © 2001 American Water Works Association, All Rights Reserved
R
American Water Works Association
ANSI/AWWA C800-01(Revision of ANSI/AWWA C800-89)
AWWA STANDARD FOR
UNDERGROUND SERVICE LINE
VALVES AND FITTINGS
SECTION 1: GENERAL
Sec. 1.1 Scope
This standard describes valves and fittings in sizes 1/2 in. (12.7 mm) through
2 in. (50.8 mm) for use in the buried service line from the main to the meter valve or
meter setting appurtenance. Valves include corporation stops and curb stops. Fittings
include various types of couplings and adapters.
1.1.1 Installation. The performance of products depends on proper installa-
tion. The purchaser must follow instructions supplied by or available from the
manufacturer. If these instructions are not available, good installation practices shall
be followed.
Sec. 1.2 Purpose
The purpose of this standard is to provide purchasers, manufacturers, and
suppliers with the minimum requirements for underground service line valves and
fittings, including materials, design, inspection, and delivery.
Sec. 1.3 Application
This standard or sections of this standard can be referenced in specifications for
purchasing and receiving underground service line valves and fittings. The stipula-
tions apply when this document has been referenced and then only to underground
service line valves and fittings.
1
Copyright © 2001 American Water Works Association, All Rights Reserved
2 AWWA C800-01
SECTION 2: REFERENCES
This standard references the following documents. In their latest editions, they
form a part of this standard to the extent specified within this standard. In any case
of conflict, the requirements of this standard shall prevail.
ANSI*/ASME† B1.1—Unified Inch Screw Threads (UN and UNR Thread Form).
ANSI/ASME B1.20.1—General Purpose (Inch) Pipe Threads.
ANSI/ASME B1.20.3—Dryseal Pipe Threads (Inch).
ANSI/ASME B16.18—Cast Copper Alloy Solder Joint Pressure Fittings.
ANSI/ASTM‡ B62—Standard Specification for Composition Bronze or Ounce
Metal Castings.
ANSI/ASTM B88—Standard Specification for Seamless Copper Water Tube.
ANSI/ASTM B88M—Standard Specification for Seamless Copper Water Tube
(Metric).
ANSI/ASTM B584—Standard Specification for Copper Alloy Sand Castings for
General Applications.
SECTION 3: DEFINITIONS
The following definitions shall apply in this standard:
1. Adapter: A fitting used to connect pipe, tubing, or other fittings with
differing characteristics such as sizes, diameters, or material type.
2. Chamfer: A bevel made on the end of a thread to facilitate thread
engagement.
3. Corporation stop (corporation valves): A valve attached to the water
main to start a service connection, which is used to interrupt flow during installation
or maintenance of the service line. This valve is frequently installed while the main
is under pressure.
4. Coupling: A fitting for connecting two pipe or tubing sections together.
*American National Standards Institute, 25 W. 43rd St., New York, NY 10036.
†American Society of Mechanical Engineers, 3 Park Avenue, New York, NY 10016-5990.
‡American Society for Testing and Materials, 100 Barr Harbor Dr., West Conshohocken, PA19428-2959.
Copyright © 2001 American Water Works Association, All Rights Reserved
UNDERGROUND SERVICE LINE VALVES AND FITTINGS 3
5. Curb stop (curb valves): A valve installed in the water service line and
accessible for operation from the surface of the ground for routinely interrupting flow
through the service line.
6. Driving thread: A thread installed on the outlet end of corporation stops
and used to hold the valve during installation.
7. Dryseal: A type of pipe thread described in ANSI/ASME B1.20.3. Dryseal
pipe threads are based on the USA (American) pipe thread; however, they differ from
the USA (American) pipe thread in that they are designed to seal pressure-tight
joints without the need for sealing compounds.
8. Fitting: A part used to connect piping or tubing.
9. Inlet: The opening in a valve or fitting through which flow from the water
main enters the valve or fitting.
10. Manufacturer: The party that manufactures, fabricates, or produces
materials or products.
11. NPT: National Pipe Thread as specified in ANSI/ASME B1.20.1.
12. Outlet: The opening in a valve or fitting through which flow from the
water main leaves the valve or fitting.
13. Purchaser: The person, company, or organization that purchases any materi-
als or work to be performed.
14. Service line check valve: A check valve used to minimize backflow and
reduce the potential for contamination of water in the main line if pressure in the
main is reduced or customer pressure is increased.
15. Service saddle: A fitting that attaches circumferentially to a pipe to
provide for attachment of a corporation stop.
16. Supplier: The party that supplies materials or services. A supplier may or
may not be the manufacturer.
SECTION 4: REQUIREMENTS
Sec. 4.1 Materials
4.1.1 General. Materials shall comply with the requirements of the Safe
Drinking Water Act and other federal, state, and local requirements. Legislation is
subject to change. Therefore, it is the manufacturer’s and purchaser’s responsibility
to verify the current requirements of federal, state, and local regulations.
Copyright © 2001 American Water Works Association, All Rights Reserved
4 AWWA C800-01
4.1.2 Castings. Materials in contact with potable water shall be made from
copper alloy No. C83600, in accordance with the chemical and mechanical require-
ments of ASTM B62 or ASTM B584. This alloy contains nominally 85 percent copper
and 5 percent each tin, lead, and zinc.
4.1.3. Component parts. Component parts such as fasteners, seals, and
packing may be of other materials selected for adequate endurance, corrosion
resistance, and strength.
Sec. 4.2 General Design
Valves and fittings described in this standard shall be adequate for the purpose
intended and shall be convenient to install, use, and operate. Valves, fittings, and
parts thereof shall be machined to the sizes and tolerances defined in the appropriate
standards. End connections may be threaded, brazed, compression, or flared, as
appropriate, in conformance with Sec. 4.4.
4.2.1 Pressure class. The purchaser may specify high-pressure or normal-
pressure valves and fittings. Use of valves and fittings above rated pressure must be
at the risk of the user and authorized specifically by the manufacturer.
4.2.2 Normal pressure. Normal-pressure service line valves and fittings shall
be suitable for use with water at 100°F (38°C) and 100 psig (700 kPa) for 1-in. (25.4-mm)
and smaller sizes, and 80 psig (560 kPa) for 11/4-in. (31.8-mm) through 2-in.
(50.8-mm) sizes.
4.2.3 High pressure. High-pressure service line valves and fittings shall be
suitable for use with water at 100° F (38° C) and 150-psig (1050-kPa) pressure.
Sec. 4.3 Detailed Design
4.3.1 Dimensions of corporation stops. Because corporation stops are fre-
quently used or installed with drilling or tapping machines, certain internal and
external size limitations are required for their proper use.
4.3.1.1 Minimum inside diameter. Unless otherwise specified by the pur-
chaser, the minimum inside diameter of the waterway through a corporation stop
shall be large enough to accommodate the drill sizes shown in Table 1.
4.3.1.2 Overall body dimensions. For corporation stop to be installed by a
tapping machine, overall body dimensions shall conform with the dimensions listed
in Table 2.
Copyright © 2001 American Water Works Association, All Rights Reserved
UNDERGROUND SERVICE LINE VALVES AND FITTINGS 5
.
4.3.2 Curb stops. Curb stops may be of an angle design or straight-through
design and shall provide a drip-tight shutoff in the closed position. The stop head
shall be of the tee design or flat design unless otherwise specified by the purchaser.
4.3.3 Service saddles. The service saddle shall have a body with a threaded
outlet, seal, and suitable means for attachment to the main. The body shall be made to
conform to the outside configuration of the main. The service saddle shall be designed
to provide a drip-tight connection when used as a service connection to the main.*
4.3.4 Service line fittings. The fittings used in service lines shall be designed
for connection to the service line by threads, brazing, compression, or flaring. Small
waterways and abrupt corners causing water turbulence and pressure drop should be
minimized.
Table 1 Maximum drill sizes for installation of corporation stops in service clamps or saddles with a drilling machine
Maximum Drill Size—(in.)
Corporation Stop Sizein.
Corporation StopWith AWWA Thread Inlet
Corporation Stop WithNPT Thread Inlet
1/2 7/16 7/16
5/8 9/16 —3/4 11/16 11/16
1 15/16 7/8
1 1/4 1 3/16 1 1/8
1 1/2 1 7/16 1 7/16
2 1 7/8 1 3/4
Table 2 Maximum overall body dimensions for corporation stops for use with tapping machine
Corporation Stop Sizein.
Maximum Radiusin.
Maximum Length (less nut)in.
1/2 1.500 4 5/85/8 1.500 4 5/83/4 1.500 4 5/8
1 1.500 4 5/8
1 1/4 2.500 9 1/16
1 1/2 2.500 9 1/16
2 2.500 9 1/16
*The materials used to produce service saddles are not limited to the cast copper alloys listedin Sec. 4.1.
Copyright © 2001 American Water Works Association, All Rights Reserved
6 AWWA C800-01
4.3.5 Service line check valves. Check valves may be of an angle design or
straight-through design, with good fluid-flow characteristics. The spring shall be
strong enough to resist opening with a 1-psi pressure in the direction of flow. The
check valve shall be field repairable without removing the valve body from the
service line.
Sec. 4.4 End Connections
This section describes the threads and other details of the threaded connections
used on products described in this standard.
4.4.1 Straight threads. All straight threads for flared copper connections
shall be in accordance with ANSI/ASME B1.1 and as shown in Tables 3, 4, and 5.
Table 3 Fitting thread for use with flared copper service tube*
NominalSizein.
Threadsper Inch
Major PitchMinor
Diameter(max.)
in.
Length L(min.)
in.Diameter
in.Tolerance
in.Diameter
in.Tolerance
in.1/2 14 1.004 –0.010 0.958 –0.006 0.911 9/16
5/8 14 1.160 –0.010 1.114 –0.006 1.067 9/16
3/4 14 1.259 –0.010 1.213 –0.006 1.171 5/8
1 11 1/2 1.593 –0.015 1.536 –0.008 1.486 3/4
1 1/4 11 1/2 2.055 –0.015 1.998 –0.008 1.948 1
1 1/2 11 1/2 2.465 –0.015 2.408 –0.008 2.358 1 1/16
2 11 1/2 3.185 –0.015 3.128 –0.008 3.078 1 5/16
* See ASTM B88, B88M, and Sec. A.2 of appendix A attached to this standard.
Table 4 Coupling nut for use with flared copper service tube**
* See ASTM B88, B88M, and Sec. A.2 of appendix A attached to this standard.
Nominal Threads per Inch
Major Diameter Pitch Minor Length L2†
† This thread is also for all internal threads in fittings used with external threads as shown in Figure 4.
Sizein.
(min.)in.
Diameterin.
Tolerancein.
Diameterin.
Tolerancein.
(min.)in.
(max.)in.
1/2 14 1.016 0.970 +0.006 0.933 +0.008 9/16 5/85/8 14 1.173 1.127 +0.006 1.089 +0.008 5/8 11/16
3/4 14 1.266 1.220 +0.006 1.189 +0.008 5/8 11/16
1 11 1/2 1.603 1.546 +0.008 1.509 +0.010 3/4 13/16
1 1/4 11 1/2 2.065 2.008 +0.008 1.971 +0.010 15/16 1
1 1/2 11 1/2 2.475 2.418 +0.008 2.381 +0.010 1 1 1/8
2 11 1/2 3.195 3.138 +0.008 3.101 +0.010 1 1/4 1 3/8
Copyright © 2001 American Water Works Association, All Rights Reserved
UNDERGROUND SERVICE LINE VALVES AND FITTINGS 7
4.4.2 Flared copper connection ends. The combined length of the rounded
nose and the external threads on fittings with male ends for connections shall be
sufficient to accommodate the copper flare nuts dimensioned in Table 4.
4.4.3 Tapered threads. Tapered threads other than the inlet thread of
corporation stops shall conform to ANSI/ASME B1.20.1.
4.4.4 Special thread consideration.
4.4.4.1 Standard AWWA corporation valve inlet threads shall conform todimensions given in Table 6. Also see Figure 1.
Table 5 Corporation stop outlet special-purpose coupling threads**
Corporation Stop Outlet External Threads Internal Threads of Connecting Coupling†
NominalSize
Threadsper
MajorDiameter Pitch Diameter—in.
Length L6(min.)
MinorDiameter Pitch Diameter—in.
in. Inch in. (max.) (min.) in. in. (max.) (min.)
1/2 14 31/32 0.913 0.907 1/2 57/64 0.926 0.9205/8 14 1 3/32 1.053 1.049 1/2 1 1.066 1.0603/4 14 1 1/4 1.213 1.207 9/16 1 3/16 1.226 1.220
1 12 1 1/2 1.456 1.450 9/16 1 13/32 1.467 1.461
* This thread is shown in Figure 5.
† The depth of internal threads on connecting couplings shall be sufficient to accommodate length L6.
Table 6 Standard AWWA corporation stop inlet threads and corresponding internal threads for saddles
Corporation Stop External Threads Internal Threads
Nominal Sizein.
Threads per Inch
Taper per Foot(Measured
Across Diameter)in.
Diameter at Small End LengthL1
(min)in.
PitchDiameter
at Large End
in.
Available Length for Corp. Stop Insertion(min.)*
* On saddles, this is the minimum distance from the outer end of the thread to the water main. This distance shall not begreater than 2 in. so as not to exceed the available travel of drilling machines.
Majorin.
Pitchin.
Minorin.
1/2 14 1 3/4 0.819 0.762 0.705 1 5/64 0.848 1 1/16
5/8 14 1 3/4 1.016 0.959 0.902 1 5/32 1.055 1 1/16
3/4 14 1 3/4 1.104 1.047 0.990 1 1/8 1.145 1 1/16
1 12 1 3/4 1.332 1.263 1.198 1 3/16 1.360 1 1/16
1 1/4 11 1/2 1 1.728 1.658 1.588 1 3/8 1.717 1 1/4
1 1/2 11 1/2 1 2.004 1.934 1.864 1 1/2 2.004 1 1/4
2 11 1/2 1 2.577 2.507 2.437 1 17/32 2.580 1 1/4
Copyright © 2001 American Water Works Association, All Rights Reserved
8 AWWA C800-01
Figure 1 Standard AWWA corporation stop inlet thread
4.4.4.2 When specified as NPT, the thread form for the inlet end of a
corporation stop shall be the same as that used on American National taper pipe
threads specified in ANSI/ASME B1.20.1.
4.4.4.3 If the purchaser specifies NPT threads for the inlet end of corporation
stops, extra threads shall be added at the large end of the corporation stop inlet.
4.4.4.4 In gauging standard AWWA and NPT thread for corporation stop inlet
threads, the thread is within tolerances when the gauge is within one full turn in
either direction of the extreme end or face of the inlet of the stop, except as provided
in Sec. 4.4.4.6
4.4.4.5 All starting threads for the inlet end of a corporation stop shall be
chamfered.
4.4.4.6 Any plain extension beyond the chamfer on the inlet end of a
corporation stop shall be in addition to the thread length L1, shown in Figure 1 and
dimensioned in Table 6.
4.4.5 Internal threads for connection.
4.4.5.1 Internal threads for connecting the corporation stop inlet threads to the
pipe or saddle shall be either AWWA standard threads or NPT threads, as specified
by the purchaser.
4.4.5.2 Couplings having internal threads for connection to corporation stops
having flared copper connection threads shall conform to the applicable dimensions
in Table 4 and Figure 2.
Copyright © 2001 American Water Works Association, All Rights Reserved
UNDERGROUND SERVICE LINE VALVES AND FITTINGS 9
4.4.6 Outlet external threads.
4.4.6.1 Corporation-stop-outlet external threads shall conform to ANSI/ASME
B1.20.1, and sized in accordance with Table 7. Also see Figure 3.
4.4.6.2 Corporation-stop-outlet external threads for use with flared copper tub-
ing shall conform to Table 3 and Figure 4.
4.4.6.3 Corporation-stop-outlet external special-purpose coupling threads shall
conform to Table 5. Also see Figure 5.
4.4.7 Coupling nuts. Fittings connecting to special-purpose coupling threads
shall have internal threads conforming to the dimensions in Table 5.
4.4.8 Driving threads. When specified by the purchaser or when standard
with the manufacturer, the corporation stop shall have outlet ends provided with
internal driving threads in accordance with Table 8. Also see Figures 3 and 5. These
threads attach to tools used during corporation-stop installation.
4.4.9 Other connections. Compression connections, copper tube flare connec-
tions, and swivel connections shall be designed to provide a seal and retain water
service pipe or the tube without slippage at a working pressure of 150 psig (1,050 kPa).
4.4.10 Solder ends for copper tube. Solder ends shall conform to ANSI/ASME
B16.18.
Sec. 4.5 Fabrication
4.5.1 Workmanship. Valves and fittings shall be free of metal chips and
filings and excess lubricant in the waterway. Castings shall be clean and sound and
without defects that could impair their service.
Table 7 Tapered external iron pipe (NPT) threads for outlet end of corporation stops
NPT Thread Size—in.Corporation Stop Size
in.NPT Threads Same
Size as Corporation StopIncreased-SizeNPT Threads*
* This corporation stop shall have internal driving threads conforming to Table 8 and Figure 3.
1/2 1/2 3/45/8 — 3/43/4 3/4 1
1 1 1 1/41 1/4 1 1/4 1 1/21 1/2 1 1/2 22 2 2 1/2
Copyright © 2001 American Water Works Association, All Rights Reserved
10 AWWA C800-01
Table 8 Internal driving thread for corporation stops**
* This internal driving thread is commonly used on several different types of corporation stop. See Figures 3 and 5.
NominalSizein.
Threadsper Inch
MajorDiameter Pitch Minor Length L3
(min.)in.
Diameterin.
Tolerancein.
Diameterin.
Tolerancein.
(min.)in.
1/2 12 0.604 0.550 +0.006 0.511 +0.009 5/85/8 12 0.735 0.681 +0.006 0.635 +0.009 5/83/4 12 0.855 0.801 +0.006 0.765 +0.009 5/8
1 12 1.089 1.035 +0.006 0.999 +0.009 11/16
1 1/4 10 1.374 1.309 +0.010 1.266 +0.011 13/16
1 1/2 8 1.666 1.585 +0.010 1.531 +0.014 12 8 2.165 2.084 +0.010 2.030 +0.014 1 1/8
Figure 2 Coupling nut for use with flared copper service tube, types K and L
Figure 3 Outlet end of corporation stop showing increased-size NPT external threads and internal driving threads
Figure 4 Flared fitting end showing threads for use with flared copper service tube (Minimum length L is from Table 3)
Figure 5 Outlet end of corporation stop showing special-purpose coupling threads and internal driving threads
Copyright © 2001 American Water Works Association, All Rights Reserved
UNDERGROUND SERVICE LINE VALVES AND FITTINGS 11
SECTION 5: VERIFICATION
Sec. 5.1 Inspection
All work according to this standard is subject to inspection and approval by the
purchaser.
Sec. 5.2 Testing
A purchaser who intends to use or test service line valves and fittings at
pressures in excess of those stated in this standard should consult the manufacturer
in advance.
5.2.1 Factory tests. The manufacturer shall factory test valves and fittings to
meet the pressure requirements as outlined in Sec. 4.2.2 and Sec. 4.2.3.
Sec. 5.3 Rejection
Unless the terms of the sale were otherwise stated in the purchaser’s
specifications, the purchase contract, or the manufacturer’s warranty, any service line
valve or fitting that the purchaser rejects as not conforming to this standard shall be
returned to the manufacturer.
SECTION 6: DELIVERY
Sec. 6.1 Marking
The manufacturer’s name or trademark shall appear on the body of valves and
fittings. When appropriate and possible, it is recommended that markings on valves
also include size, pressure rating, and direction of flow. The pressure rating shall be
marked on high-pressure service valves as defined in this standard.
Sec. 6.2 Packing and Shipping
Valves and fittings shall be complete and ready to install when shipped. The
manufacturer shall use care in preparing them for shipment to avoid damage during
handling or transit.
Sec. 6.3 Affidavit of Compliance
The purchaser may require an affidavit from the manufacturer or vendor
stating that the products provided comply with all applicable provisions of this
standard.
Copyright © 2001 American Water Works Association, All Rights Reserved
APPENDIX A
Collected Standards for Service Line Materials
This appendix is for information only and is not a part of AWWA C800.
The following standards for various types of service line materials are included
for reference. The suitability of the materials referenced for any particular
application must be determined by the user.
SECTION A.1: MATERIALS COVERED
References included in this appendix describe the following materials:
• Copper water tube (Sec. A.2)• Red brass pipe (Sec. A.3)• Steel pipe (Sec. A.4)• Plastic pipe and tube (Sec. A.5)
SECTION A.2: COPPER WATER TUBE
Sec. A.2.1 Scope
This reference describes seamless copper tubing suitable for underground water
services. Tube is designated as type K and type L.
Sec. A.2.2 Standard Specifications
This material shall be supplied in conformance with ANSI*/ASTM† B88, type K
or type L; or ANSI/ASTM B88M, type A or type B, as designated.
Sec. A.2.3 Dimensions
For reference, Table A.1 lists the dimensions derived from ANSI/ASTM B88 and
ANSI/ASTM B88M.
*American National Standards Institute, 11 W. 42nd St., New York, NY 10036.
†American Society for Testing and Materials, 100 Barr Harbor Dr., West Conshohocken, PA19428-2959.
13
Copyright © 2001 American Water Works Association, All Rights Reserved
14 AWWA C800-01
SECTION A.3: RED BRASS PIPE
Sec. A.3.1 Scope
This reference describes seamless red brass pipe suitable for use in water
service lines and plumbing.
Sec. A.3.2 Standard Specifications
The pipe shall be supplied in conformance with
ANSI/ASTM B43—Standard Specification for Seamless Red Brass Pipe, Stan-
dard Sizes.
Sec. A.3.3 Dimensions
For reference, Table A.2 lists the dimensions derived from ANSI/ASTM B43.
Table A.1 Dimensions, weights, and tolerances in diameter and wall thickness for nominal or standard copper water tube sizes
Nominalor
Standard Outside
AverageOutside
Diameter*
Nominal WallThickness and Tolerances—in.
Type K (A) Type L (B)Theoretical
Weight—lb/ft
Sizein.
Diameterin.
Tolerance—in.Annealed Drawn
WallThickness Tolerance†
WallThickness Tolerance†
Type K(A)
Type L(B)
1/4 0.375 0.002 0.001 0.035 0.004 0.030 0.0035 0.145 0.1263/8 0.500 0.0025 0.001 0.049 0.004 0.035 0.0035 0.269 0.1981/2 0.625 0.0025 0.001 0.049 0.004 0.040 0.0035 0.344 0.2855/8 0.750 0.0025 0.001 0.049 0.004 0.042 0.0035 0.418 0.3623/4 0.875 0.003 0.001 0.065 0.0045 0.045 0.004 0.641 0.455
1 1.125 0.0035 0.0015 0.065 0.0045 0.050 0.004 0.839 0.655
1 1/4 1.375 0.004 0.0015 0.065 0.0045 0.055 0.0045 1.04 0.884
1 1/2 1.625 0.0045 0.002 0.072 0.005 0.060 0.0045 1.36 1.14
2 2.125 0.005 0.002 0.083 0.007 0.070 0.006 2.06 1.75SOURCE: Extracted from Table 4, ANSI/ASTM B88-88, Standard Specification for Seamless Copper Water Tube; and Table 4.
See ANSI/ASTM B88M-88, Standard Specification for Seamless Copper Water Tube (Metric) for metric dimensions, weights,and tolerances.
NOTE: All tolerances are plus and minus except as otherwise indicated.
* The average outside diameter of a tube is the average of the maximum and minimum outside diameter, as determined atany one cross section of the tube.
† Maximum deviation at any one point.
Copyright © 2001 American Water Works Association, All Rights Reserved
UNDERGROUND SERVICE LINE VALVES AND FITTINGS 15
SECTION A.4: STEEL PIPE
Sec. A.4.1 Scope
These specifications describe the supplying of steel pipe, either plain or
galvanized, for use in underground water service lines.
Sec. A.4.2 Standard Specifications
This material shall be supplied in conformance with
ANSI/ASTM A53/A53M—Standard Specification for Pipe, Steel, Black and Hot-
Dipped, Zinc-Coated Welded and Seamless.
Sec. A.4.3 Dimensions
For reference, Table A.3 lists the dimensions derived from ANSI/ASTM A53/A53M.
Table A.2 Dimensions, weights, and tolerances for standard sizes of seamless red brass pipe
StandardPipe-Size
in.
Nominal OutsideDiameter
in.
Average OutsideDiameter
Tolerances*
(All Minus)in.
* The average outside diameter of a tube is the average of the maximum and minimum outside diameters as determined atany one cross section of the tube.
Nominal WallThickness
in.Tolerance†
in.
† Maximum deviation at any one point.
TheoreticalWeightlb/ft
Regular1/8 0.405 0.004 0.062 0.004 0.2531/4 0.540 0.004 0.082 0.005 0.4473/8 0.675 0.005 0.090 0.005 0.6271/2 0.840 0.005 0.107 0.006 0.9343/4 1.050 0.006 0.114 0.006 1.27
1 1.315 0.006 0.126 0.007 1.781 1/4 1.660 0.006 0.146 0.008 2.631 1/2 1.900 0.006 0.150 0.008 3.132 2.375 0.008 0.156 0.009 4.12
Extra-Strong1/8 0.405 0.004 0.100 0.006 0.3631/4 0.540 0.004 0.123 0.007 0.6113/8 0.675 0.005 0.127 0.007 0.8291/2 0.840 0.005 0.149 0.008 1.233/4 1.050 0.006 0.157 0.009 1.67
1 1.315 0.006 0.182 0.010 2.461 1/4 1.660 0.006 0.194 0.010 3.391 1/2 1.900 0.006 0.203 0.011 4.102 2.375 0.008 0.221 0.012 5.67
SOURCE: Extracted from Table 1, ANSI/ASTM B43, Specification for Seamless Red Brass Pipe, Standard Sizes.NOTE: All tolerances are plus and minus except as otherwise indicated.
Copyright © 2001 American Water Works Association, All Rights Reserved
16 AWWA C800-01
SECTION A.5: PLASTIC PIPE AND TUBE
Sec. A.5.1 Scope
The following documents describe plastic pipe and tubing commonly used for
underground water service lines.
Sec. A.5.2 Standard Specifications
The following standards specifically describe this type of pipe and tubing:
ANSI/AWWA C901—Standard for Polyethylene (PE) Pressure Pipe and Tubing,1/2 In. Through 3 In., for Water Service.
ANSI/ASTM D1785—Standard Specification for Poly (Vinyl Chloride) (PVC)
Plastic Pipe, Schedules 40, 80, and 120.
ANSI/ASTM D2239—Standard Specification for Polyethylene (PE) Plastic Pipe
(SIDR-PR) Based on Controlled Inside Diameter.
ANSI/ASTM D2241—Standard Specification for Poly (Vinyl Chloride) (PVC)
Pressure-Rated Pipe (SDR Series).
ANSI/ASTM D2447—Standard Specification for Polyethylene (PE) Plastic Pipe,
Schedules 40 and 80 Based on Outside Diameter.
ANSI/ASTM D2466—Standard Specification for Poly (Vinyl Chloride) (PVC)
Plastic Pipe Fittings, Schedule 40.
ANSI/ASTM D2467—Standard Specification for Poly (Vinyl Chloride) (PVC)
Plastic Pipe Fittings, Schedule 80.
Table A.3 Standard weights and dimensions of welded and seamless steel pipe
NPSDesignator
Outside Diameter
in.
Threadsper Inch
Schedule 40Standard-Weight Pipe
Schedule 80Extra-Strong Pipe
Double-Extra-Strong Pipe
WallThickness
in.
Nominal Weightin lb/ft
WallThickness
in.
NominalWeight per
FootPlain End
lb
WallThickness
in.
NominalWeight per
FootPlain End
lbPlain End Threaded1/2 0.840 14 0.109 0.85 0.85 0.147 1.09 0.294 1.713/4 1.050 14 0.113 1.13 1.13 0.154 1.47 0.308 2.44
1 1.315 11 1/2 0.133 1.68 1.68 0.179 2.17 0.358 3.66
1 1/4 1.660 11 1/2 0.140 2.27 2.28 0.191 3.00 0.382 5.21
1 1/2 1.900 11 1/2 0.145 2.72 2.73 0.200 3.63 0.400 6.41
2 2.375 11 1/2 0.154 3.65 3.68 0.218 5.02 0.436 9.03SOURCE: Extracted from Tables X2.2, X2.3, and X3.1 of ASTM A53-87b, Standard Specification for Pipe, Steel, Black and
Hot-Dipped, Zinc-Coated Welded and Seamless.
Copyright © 2001 American Water Works Association, All Rights Reserved
UNDERGROUND SERVICE LINE VALVES AND FITTINGS 17
ANSI/ASTM D2609—Standard Specification for Plastic Insert Fittings for
Polyethylene (PE) Plastic Pipe.
ANSI/ASTM D2662—Standard Specification for Polybutylene (PB) Plastic Pipe
(SIDR-PR) Based on Controlled Inside Diameter.
ANSI/ASTM D2666—Standard Specification for Polybutylene (PB) Plastic
Tubing.
ANSI/ASTM D2683—Standard Specification for Socket-Type Polyethylene Fit-
tings for Outside Diameter-Controlled Polyethylene Pipe and Tubing (Rev. A).
ANSI/ASTM D2737—Standard Specification for Polyethylene (PE) Plastic
Tubing.
ANSI/ASTM D3035—Standard Specification for Polyethylene (PE) Plastic Pipe
(SDR-PR) Based on Controlled Outside Diameter.
ANSI/ASTM D3261—Standard Specification for Butt Heat Fusion Polyethylene
(PE) Plastic Fittings for Polyethylene (PE) Plastic Pipe and Tubing.
Copyright © 2001 American Water Works Association, All Rights Reserved
APPENDIX B
Field Testing
This appendix is for information only and is not a part of AWWA C800.
If purchasers choose to conduct field tests, the following recommendations are
available for general information.
SECTION B.1: FIELD TESTS
Field tests by the purchaser shall be in accordance with the pressures specified
in Sec. 4.2.2 or 4.2.3 as appropriate. External leakage through the valve body is not
allowed. The corporation outlet may be capped to eliminate leakage through the
closed valve’s port opening.
If higher test pressures, not to exceed 150 percent of the pressure rating, are
required, it is recommended that corporation stops be capped and tested in the open
position.
When testing a water main, if capping the corporation stop is impractical, the
recommended alternative is to test to the curb stop with the corporation stop open.
It is recommended that pressure testing of service lines be done before
backfilling to detect and facilitate the repair of any leaks at the joint or from the pipe,
valves, or fittings.
18
Copyright © 2001 American Water Works Association, All Rights Reserved