RFP 100 2 Cobalt Series CS100.2 MMABR1016

User Manual: Cobalt Series CS100.2

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RFP 100-2

McCANNA Valves

An ISO 9001 Registered Company

McCannaseal ®
Top Entry Wedge-Seated Ball Valves
Regular and Full Port

Flow Control Division

McCANNA Valves

Table of Contents
McCannaseal Ball Valves
Design Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
Body Variations and Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
Seat Materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
Bonnet Configurations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6
Application and Special Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9
Fire-Seal ®/High-Temperature Service/Ball Stops . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
Low Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
Pressure/Temperature Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
Performance Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
Dimensions and Weights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
Materials of Construction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19
Automated McCannaseal Valve Packages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21
How to Specify and Order . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23

Industry Standards
McCannaseal Ball Valves meet the following valve industry standards, within temperature ratings published on pages 12 and 13 of this brochure:
ANSI B16.34, B16.5, B16.10, B16.11, B16.25 and B2.1.

2

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McCANNA Valves

Design Features
The McCannaseal is the original top entry
wedge seated ball valve. Available in regular port sizes
from 1/2" through 20" and pressure classes from 150 to
1500, and in full port sizes ranging from 1" through
16" class 150 to 1500, the McCannaseal has proven
itself successful in over 43 years of severe service
applications. The McCannaseal reputation for
consistent, reliable operation in handling today’s most
volatile applications is known the world over and is
featured in various approved manufacturer’s lists for
all types of processes.

4.
1. Top Entry for fast, easy, in-line service that simplifies scheduled
maintenance and permits emergency entry in minutes just by removing
the bonnet. All working parts are accessible for service while the valve
body stays fixed in the line. No special tools or training are required.
5.
2. Wedge-Seat Design permits use of a wide range of seat materials. The
ball and seats are self-adjusting, assuring leak-tight closure under all
6.
operating conditions and valve orientations. Seats are kept in tight
contact with the ball to assure an even, non-binding, elastic load on the
seats at all pressures, temperatures and at all stages of seat wear.
Consequently, positive leak-tight shut-off is assured for the full life of
the seats. Seats are under compression load only and there is no
7.
flexing or bending of the seat material.
3. Available in a Wide Range of Body and Trim Materials. Body and
trim materials include Carbon Steel, Stainless Steel, Titanium, Nickel,
Monel*, Hastelloy* “B” and “C”, Alloy 20 and others. Almost any fluid
can be handled including liquids, gases, slurries, semisolids, viscous
substances and some molten materials.

Seat Range. McCANNA offers a wide variety of seats, ranging from
soft seats (plastics) to full ceramic. This allows the McCannaseal to
handle temperatures from -320°F to 1500°F and beyond.
Ball is Wiped Clean Each Time the Valve is Operated. Ball-seat
contact is constantly maintained, extending seat life.
Backseated Stem-Conical Stem Seals. The stem shoulder design
eliminates any possibility of stem blowout. The double set of stem
seals are designed so that increased line pressure will increase stem
sealing.
Bi-Directional Flow Capability for tight closure in either flow direction.

8. Quarter-Turn and Low Torquemake McCannaseal ball valves
particularly suitable for remote operations with pneumatic or electric
actuators, especially when high cycle frequency is required.
* Various trademarks

3

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McCANNA Valves

Body Variations and Materials
Body Variations

Flanged

Threaded and Socket End

Butt Weld End

Raised face.
(125-250 Micro-Inches Ra).

Threaded per ASME B1.20.1.
Socket Weld per ANSI B16.11.

Per ANSI B16.25.
Various schedules available.

Flat faced.
Ring type joint.
Large or small tongue and groove per
ANSI B16.5.
Boss flanges for actuator mounting standard on
regular port sizes 3/4" – 6" up to 600 Class, and
full port 1" – 4" up to 600 Class.

Body Materials

Trim Materials

AL

— Aluminum

NI

— Nickel

AL

— Aluminum

A2

— Alloy 20

N8

— Incoloy 800

A2

— Alloy 20

BR — Bronze

S4

— Stainless Steel 304

BR — Bronze

CS

— Carbon Steel

4L

— Stainless Steel 304L

HB — Hastelloy “B”

C3

— LCB

6L

— Stainless Steel 316L

HC — Hastelloy “C”

DS — Duplex S.S.

S6

— Stainless Steel 316

IN

HB — Hastelloy “B”

TI

— Titanium

MO — Monel

HC — Hastelloy “C”

9L

— Stainless Steel 904L

NI

— Nickel

IN

N9

— Incoloy 825

4L

— Stainless Steel
304L

— Inconel

MO — Monel

— Inconel

...plus many special body and trim materials.
Refer to the “Material Selection Guide” in the “McCANNA Flow Manual for Quarter-Turn Valves” for information on material compatibility.

4

Flow Control Division

McCANNA Valves
Seat Materials
T – TFE Unfilled polytetrafluoroethylene. Molded fluorocarbon plastic
having low coefficient of friction and unique anti-stick properties. Material
has a waxy texture and is opaque with a milk-white color. TFE is noncontaminating and accepted by FDA for use in food services. The material
is highly resistant to oxidation and the effect of most chemical agents and
gases. Although resistant to most organic hydrocarbons, unfilled TFE is
not recommended for use in halogenated solvents or permeative media
(vinyl chloride, styrene).

M – Metal seats are intended for use under extreme service conditions
falling outside the limitations of resilient seating materials, and above the G
seat 700°F (371°C) limit in oxidizing media. They are strongly
recommended for highly abrasive media and for temperatures to 1000°F
(538°C), and may be applied in saturated steam to 700 psig (47.6 bar) at
502°F (261°C).
Waukesha 88* Non-galling high nickel content alloy.
Maximum temperature rating 1000°F (538°C).
Recommended for services that are both corrosive and
abrasive and in oxidizing media above 700°F (371°C). Also
used in abrasive services in the G seat range where entry of
black particulate into the product stream cannot be tolerated.

U – Reinforced TFE (Fire-Seal design) (nonpigmented) Qualified to API607 4th edition, TFE resin compounded with a selected percentage of
glass filler material to provide improved strength and resistance to
abrasive wear, cold flow, and permeation in the finished molded seat.
Reinforcement permits application at higher pressure and temperature
than unfilled TFE. Not recommended for applications known to attack
glass (hydrofluoric acid, hot, strong caustics typical).

Stellite* Cobalt-chromium-tungsten alloy recognized for
resistance to wire drawing, erosion and galling, and retention
of hardness at high temperatures. Corrosion resistance
approximates that of 18-8 stainless steel. Stellite seats are
normally recommended for the most abrasive service media
(catalyst fines, mine slurries typical), to 1500°F (816°C).

R – Reinforced TFE Same material as U seat, except non-fire-seal design.
R seats are pigmented red for identification.
W – HiLoad TFE (Fire-Seal design) Filled TFE qualified to API-607 fire
test. TFE resin compounded with a special carbon reinforcing material to
provide exceptional resistance to load deformation, abrasion, and fluid
penetration. The finished properties permit application at higher pressures
and temperatures than the R or U seats, including use in saturated steam
and many chemical solvents up to 400°F (204°C). Maximum temperature
is 550°F (288°C). The W seat will generally be applied in difficult higher
temperature services that may be flammable, hazardous, or mildly
abrasive. The resistance to fluid penetration provided by the “barrier”
characteristics of the filler in the molded structure will provide longer
service life than possible with the general purpose reinforced material. The
W material is black in color.
G – Carbon graphite manufactured by blending carbon and/or graphite
powders with a binder, pressing the mass into a desired shape, and baking
the molded form at high temperatures. The resultant hard seat material is
highly wear and abrasion resistant, nearly chemically inert, and thermally
stable. G seats are generally intended for valve service conditions ranging
from 550°F (228°C) up to 1000°F (538°C) maximum in non-oxidizing
service fluids and gases. Application in oxidizing media (nitric acid,
chromic acid, sulfuric acid, chlorine, peroxides, nitrates, nitrites, chlorates,
perchlorates, permanganates, ozone, oxygen, and air, typical) is limited to
700°F (371°C). G seats are excellent in high-pressure saturated steam
service — maximum 300 psig (20.4 bar) @ 422°F (217°C) — and
superheated steam to a maximum of 700 psig (47.6 bar) @ 750°F
(399°C). (-400°F on the low end.)
J – PEEK Carbon reinforced polyetheretherketone. This black seat material
has excellent wear properties in high cycle long term services. Pressure
capability is 1275 psig (85 bar) at 360°F (182°C), and maximum
temperature is 600°F (316°C). Recommended applications include
saturated steam and non-sticking polymer service as well as radiation
service. Conditions to avoid include food service where the black color
might be a contamination problem, concentrated sulfuric (H2SO3), and
concentrated nitric (HNO3) acids.

L – CeraMc has high hardness for erosion/abrasion resistance, inertness
for chemical resistance, and the ability to withstand extremely high
temperatures to 1500°F (816°C). A unique process produces a new
“Toughened” ceramic material that is stronger and more durable than the
alloys and metal composites previously available.
Also available:
D – Double block and bleed

C – FEP

K – Kel-F*

Z – Tefzel*

P – UHMW Polyethylene

3 – ZYMAXX*

V – Polyimide
See pages 12 and 13 for Pressure/Temperature Ratings.
Note: Other special materials are available for your critical applications.
For your specific application recommendation contact Flowserve.
Standard Seal Materials** (Stem, Bonnet, Ball Stops)

*

For Seats:

Standard Seal

T

TFE

R

RTFE

U, W, G, M, L, J, 3

Flexible Graphite†

Various trademarks

** Application information or customer request can change
selection as appropriate.
†

Spiral wound bonnet gasket available.

5

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McCANNA Valves

Bonnet Configurations
Bonnets
McCannaseal valves are available in a wide variety of bonnet
configurations. In addition to standard bonnets, McCannaseal valves
are offered with extended bonnets for high-temperature, semicryogenic and cryogenic applications.

Extended Bonnets
Extended bonnets for McCannaseal ball valves are available in sizes from
1
/2" through 8".
The extended bonnet supports potential side loads thereby reducing the
possibility of stem galling and leakage under severe services.
Insulation can be securely packed up to the top of the bonnet with little
danger of undetected stem leakage.
The McCannaseal extended bonnet assembly is interchangeable with
standard McCannaseal bonnet assemblies.
Configurations:
DAE – Improves stem seal performance by raising the seal arrangement
out of the proximity of the fluid flow, thus maintaining seals at a more
normal temperature. Recommended for clean services. Special
preparation designation DAE.
DAB – One set of stem seals located at the lower end of the stem journal
in place of the guide bushing used in type DAE. Recommended where line
fluid may solidify upon cooling or where fluids contain fine solids. Special
preparation designation DAB.
FAB – Equipped with a leak detection port between two sets of packing.
Should the lower packing fail, a leak would be detected before it escapes
into the atmosphere.
The intermediate packing area can also be pressurized in some
applications to ensure one direction emission flow into the process with a
benign medium. Special preparation designation FAB. For more
information refer to brochure for Fugitive Emissions, FETR-1.

DAE

6

Regular Port
Valve Size
in/mm

Full Port
Valve Size
in/mm

Amount
of Extension
Above Standard

Max.
Insulation
Thickness

1
/2, 3/4, & 1
15, 20 & 25

—
—

1.75
31.8

1.5
38.1

11/2
40

1
25

1.5
38.1

2.00
50.8

2
50

11/2
40

1.75
44.4

2.5
63.5

3
80

2
50

2.00
50.8

2.75
69.9

4
100

3
80

2.00
50.8

3.5
88.9

6
150

4
150

2.00
50.8

4.00
101.6

8
200

6
150

2.00
50.8

4.75
120.7

Note: The DAB extended bonnet configuration is standard on all sizes of
ANSI Class 600, 900 and 1500 valves.

DAB

Fugitive Emission

Flow Control Division

McCANNA Valves

Application and Special Services
McCannaseal ball valves are manufactured in a broad
range of materials to handle nearly any service. Corrosive
chemicals, viscous liquids, gases, acids, alkalies, and
hydrocarbons are easily controlled. In addition,
specifically fabricated McCannaseal valves are available
for special services including:
Chlorine – The McCannaseal ball valve meets all
recommendations listed in the Chlorine Institute Pamphlet
Number 6 “Piping and Equipment For Use With Dry
Chlorine.” This top entry valve can be supplied specially
prepared and tested with any combination of materials as
specified by the Chlorine Institute. For further information refer
to McCANNA Product Data Bulletin PDB-5.
Hydrogen Peroxide – Basic recommendation is a one-way
valve if compatible with the system. If not compatible, a
special self-relieving seat design prevents trapped hydrogen
peroxide from building up pressure in the body cavity. For
further information refer to McCANNA Product Data Bulletin
PDB-22.
PTA – McCannaseal top entry ball valves are readily available in
the appropriate sizes, materials, pressure and temperature
specifications to meet any PTA service condition. For further
information refer to McCANNA brochure PTA-01.
Vacuum – McCannaseal valves can be specially prepared for
vacuum service and are suitable for high vacuum to 1 x 10-6
mm Hg. If required, certified mass spectrometer test can be
supplied. For further information refer to McCANNA Product
Data Bulletin PDB-3.
Oxygen – McCannaseal valves for gaseous oxygen service are
specially cleaned, assembled, and tested to ensure removal of
all burrs, dirt, hydrocarbon grease, and other contaminants.
Valves are individually wrapped and sealed in polyethylene
bags before shipment. For further information refer to
McCANNA Product Data Bulletin PDB-15.
LPG – Underwriters Laboratories Inc. has listed certain
McCannaseal ball valves for use in applications handling
Liquefied Petroleum Gas. For further information refer to
McCANNA Product Data Bulletin PDB-9.

Fire Protection – Underwriters Laboratories Inc. has listed
certain McCannaseal ball valves for use in Fire Protection
Systems. These valves are listed under U.L. Guide No. VQGU
for installation in water lines for sprinkler system, fire hoses,
and other applications concerned with fire protection. The
following McCannaseal valves are included: 3/4" through 3",
threaded ends; 3/4" through 4", ANSI Class 150 flanged ends;
bronze (1/2" – 3"), carbon steel, SS316 body and trim
materials; TFE bonnet gasket; TFE seats and seals.
Steam – The design principle of the McCannaseal valve lends
itself to applications in steam service of much higher
pressures than other ball valve designs. For further information
refer to McCANNA Product Data Bulletin PDB-6.
Block and Bleed – ANSI Class 150 and 300 McCannaseal
valves can be furnished with double block and bleed seat
designs. Positive tight closure in both directions
simultaneously is possible, preventing product contamination
in a pipe manifold arrangement. For further information refer
to McCANNA Product Data Bulletin PDB-4.

7

Flow Control Division

McCANNA Valves

Application and Special Services
Throttling – McCannaseal ball
valves with electric or pneumatic
actuators and positioners
provide throttling control for
liquids and gases. Ball valves
provide tight shutoff unlike
some other types of control
valves. The ball valve is
approximately equal percentage
(flow characteristic curve),
which makes it ideally suited for
control applications in the 10% to 90% range.
Thermal Fluid Service – Extended bonnets permit the valve to be
insulated with no contact between the insulation and the moving
stem. Longer packing life results as the critical rings operate at a
lower temperature. An accessible packing nut provides for visual
leak detection and easy adjustment. McCannaseal’s wedge design
permits the use of high temperature rigid seats that are fieldmaintainable and cost-effective.
Other
TDI
VCM
Ti02
Phosgene
HF Acid
Hydrogen Peroxide
Ethylene Oxide
Poly Ethelene

8

Catalyst Slurry
Nitric Acid
Pet
Caustic (NOAH)
H2S04
Ammonia
HCL

Flow Control Division

McCANNA Valves

Options

Gear Actuators

Locking Handles

Jacketed Valves

Gear actuators are available for manual
operation tailored to the torque characteristics
of the valve selected. Chainwheels and locking
devices are optional.

A locking device provides ability to lock open or
lock closed.

Jacketed valves for viscous or solidifying
services which must be kept heated for free flow
are available. The addition of a high-temperature
bonnet and carbon graphite or metal seats
enable a jacketed McCannaseal valve to handle
an ever widening range of difficult service. Full
fabricated jackets (oversize flanged); partial body
jackets or clamp-on type jackets can be supplied
to suit system requirements.

Power Actuators

Stem Extensions

Chain Handle Operation

McCannaseal valves are ideally suited for
remote actuation. See page 20 for actuator
recommendations.

For manual or automated operation in hard to
reach locations. Stem extensions are available
1
/2" through 4" in half-inch increments for all
sizes and classes of valves.

For actuation below valve installation.

9

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McCANNA Valves

Fire-Seal ®/ High-Temperature Service / Ball Stops
Fire-Seal® Seats
McCannaseal Valves with Fire-Seal seats are tested and approved to
meet API-607, 4th edition and Exxon fire testing standards. The FireSeal design consists of a metal retainer enclosing a TFE or RTFE seat.
Should the soft seat be destroyed by fire, a secondary metal seat
provides a backup. The non-cycling, compression-loaded spring
provides a mechanical advantage to ensure a tight ball-to-seat and
seat-to-body seal with either resilient or metal seating elements.
Flexible graphite stem seals and bonnet gaskets are standard in valves
with Fire-Seal seats.

Ball Stops
McCannaseal valves supplied with non-resilient (carbon-graphite,
metal, or ceramic) seat materials require additional considerations
because of service applications. The coefficient of friction of these
materials is greater than that of TFE or RTFE seats, and valves
supplied with carbon-graphite, metal, or ceramic seats will have
higher operating torque. Some applications for valves with these nonresilient seats will tend to increase the valve operating torque more
than can be tolerated. Examples of such applications are high
temperatures with large variations in temperature; fluids or gases
containing solids; solidifying services (such as molten metals); and
services which cause formation of deposits on ball or seat surfaces.
An adjustable ball stop is provided for use with non-resilient seat
materials. The ball stop permits the valve ball and seats to be
positioned to provide proper closure, but additional movement
downward in the
“wedge” is limited, and
increases in operating
torque in the services
described above are
controlled. The ball stop
Adapter Bushing
adjustment is set at the
(Welded on Both
Seals
factory for optimum
Inside and
Outside of Body)
performance, and is
Ball Stop
field adjustable to
Tamper
Follower
compensate for ball and
Resistant
Set Screw
Cover
seat wear or changes in
operating conditions.
All McCannaseal valves with metal or ceramic seats are supplied with
ball stops. Valves with carbon-graphite seats operating at
temperatures above 500°F must be supplied with ball stops. Carbongraphite seated valves operating at temperatures below 500°F may
require ball stops where other service conditions can cause high
operating torque.

High Temperature Service
The McCannaseal ball valve is a spring-loaded, self-adjusting, wedgeseated design. The seats are under compression load only, and not
dependent on flexure or bending to ensure positive shutoff, as are
most other ball valve designs. This design permits the use of nonresilient materials such as carbon graphite, metals, or ceramics as
seat materials, for services at temperatures well beyond the
capabilities of resilient seat materials.
Carbon-graphite seats may be used in services at temperatures up to
1000°F (538°C), and are unaffected by most chemical reagents.
Exceptions to this are highly oxidizing materials, in which cases the
maximum operating temperature must be limited to 700°F (371°C).
Carbon-graphite seats have inherent lubricating properties, which
result in operating torques lower than would normally be expected
from a non-resilient material.
Where highly oxidizing conditions exist, or where the service is highly
erosive or abrasive, the McCannaseal valve is available with metal
seats, either Waukesha 88 or Stellite*. Waukesha 88 alloy is highly
resistant to galling and seizing, and is recommended in oxidizing
services above the carbon-graphite seat limit, or for corrosive or
abrasive services to temperatures of 1000°F. Stellite balls and seats are
normally specified for the most highly abrasive services. Stellite resists
wire drawing, erosion and galling, as well as corrosion from a wide
range of acids, alkalis, and molten metals, and retains its hardness to
1500°F. Ceramic balls and seats are recommended in severely
corrosive services, and can also handle temperatures up to 1500°F.
Extended bonnets with flexible graphite stem seals and bonnet
gaskets should be used for valves in services where temperatures
will exceed 600°F.
* Registered trademark of Stoody Deloro Stellite, Inc.

10

Flow Control Division

McCANNA Valves

Low Temperature
Cryoseal Construction

McCannaseal Cryoseal®
For semi-cryogenic temperatures (-130°F (-89°C) to +32°F (+0°C)), (-40°F at stem seals) the
type DAE extended bonnet with reinforced TFE stem seals and seats may be used under
favorable conditions.
Cryogenic temperatures to -320°F (-196°C) require special Cryoseal bonnets.
The Cryoseal bonnets have a specially extended stem which positions stem seals in a warmer area
above the colder medium. This insulates the seal area from colder liquid, and prevents formation
of “ice cake” on the stem.
If liquid cryogen becomes trapped in the valve body cavity when the valve is closed, pressure
buildup from the warming liquid is relieved through a small hole immediately above and behind the
upstream body seating surface. As pressure builds, the fluid is vented back into the upstream line.
Stems are double-sealed and back-seated. Consequently, the higher the line pressure, the tighter
the stem seal will be. This limits external leakage if the stem is accidentally loosened while the
valve is still under pressure.

Cryoseal/ANSI Class 300/Threaded and
Socket Weld Ends/Series C302 & C303
Size in/mm

A1

A2

D

R

/4
20
1
25
11/2
40
2
50
3
80

3.81
96.8
3.81
96.8
4.88
124.0
5.63
143.0
9.19
208.0

3.69
93.7
3.69
93.7
4.75
120.7
5.50
139.7
8.00
203.2

11.75
298.5
11.75
298.5
12.81
325.4
14.19
360.4
16.31
414.3

.81
20.6
.81
20.6
1.19
30.2
1.50
38.1
2.25
57.2

3

A Threaded
1

D

Overall
dimension
pipe centerline
to top of
handle.

*

Part Description

Stainless Steel

Body—Threaded or
flanged ends

ASTM A351
CF 8M

Body—Socket or
butt weld ends

ASTM A351
CF 3M

Bonnet

ASTM A351
CF 8M

Upper Flange

ASTM A276
Type 304

Extension
Tubing Flange

ASTM A276
Type 304

Extension
Tube

ASTM A312
TP 304

Stem
Extension

ASTM A276
Type 316

Ball*

ASTM A276 ■
Type 316
ASTM A351 ■
CF 8M

Stem

ASTM A276 ●
Type 316
Cond. “B”

Spring

Inconel X750

Seat Ring

Aluminum**
ASTM B210
Alloy 6061-T6

Capscrew

SS 18-8

Size of valve determines ASTM
specifications. Consult factory for specific
information.

■ Hard chrome plated
R

● Crack-free chrome plated
** Stainless steel also available, please specify.

2

A Socket

A

Cryoseal/ANSI Class 150 & 300/Flanged Ends/Series C151 & C301
ANSI CLASS 150

ANSI CLASS 300

Size in/mm

A

D

R

Size in/mm

A

D

R

/4
20
1
25
11/2
40
2
50
3
80
4
100
6
150

4.88
117.5
5.00
127.0
6.50
165.1
7.00
177.8
8.00
203.2
9.00
228.6
15.50
393.7

11.75
298.5
11.75
298.5
12.81
325.4
14.19
360.4
17.75
450.9
18.06
458.7
20.94
531.9

.81
20.6
.81
20.6
1.19
30.2
1.50
38.1
2.25
57.2
3.00
76.2
4.50
114.3

/4
20
1
25
11/2
40
2
50
3
80
4
100
6
150

6.00
152.4
6.50
165.1
7.50
190.5
8.50
215.9
11.12
282.4
12.00
304.8
15.88
403.4

11.81
300.0
11.81
300.0
12.88
327.2
14.50
368.3
17.75
450.9
18.06
458.7
20.94
531.9

.81
20.6
.81
20.6
1.19
30.2
1.50
38.1
2.25
57.2
3.00
76.2
4.50
114.3

3

3

D

Overall
dimension
pipe centerline
to top of
handle.

R

A

NOTE: For Full Port Valves Consult Factory.

11

Flow Control Division

McCANNA Valves

Pressure/Temperature Ratings
POLYMERIC/FIRESEAL SEATS
Temperature (°C)
0
1600

100

200

300

400

500
110

Class 600

100
1400
90
80
70

1000

60

Class 300

800

50
600

Pressure (bar)

Pressure (psig)

1200

20

J-Peek – Seat Limit

10

W-Seat Limit – Fire-Seal
ZYMAXX

0

100

200

300

400

500

600

700

800

900

1000

Temperature (°F)

CARBON GRAPHITE, METAL & CERAMIC SEATS

12

T-TFE – Seat Limit

30

Class 150

200

0

Stainless Steel – Body Rating

R&U Reinforced TFE –
Seat Limit
R- Non-Fire-Seal
U- Fire-Seal

40

400

Carbon Steel – Body Rating

Flow Control Division

McCANNA Valves

Pressure/Temperature Ratings (continued)
TITANIUM BODIES

BRONZE AND ALUMINUM BODIES

Temperature (°C)
1600

100

200

Temperature (°C)
300

0
110

Class 600

200

300

1600

100

1400

100

110
100

1400

90

90
1200

70

1000

60

Class 300

800

50
600

40

400

Pressure (psig)

80

Pressure (bar)

Pressure (psig)

1200

30

Class 150

80
70

1000

60

800

50
600

Class 300

40

Pressure (bar)

0

30

400

20

20

200

200
10

10

Class 150

0

0
0

100

200

300

400

500

600

700

0

Temperature (°F)

100

200

300

400

500

600

700

Temperature (°F)

Titanium – Body Rating
T-TFE – Seat Limit – Fire-Seal

Bronze – Body Rating

R&U Reinforced TFE – Seat Limit – Fire-Seal

Aluminum – Body Rating

W-Seat Limit – Fire-Seal
Carbon Graphite (Non-Oxidizing)

ANSI Class 150 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .285 psig (19.4 bar)

Maximum seat temperature limit depending on pressure:

ANSI Class 300 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .740 psig (50.3 bar)

L = CeraMc . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1500°F (816°C)

ANSI Class 600 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1480 psig (100.7 bar)

M = Metal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1500°F (816°C)

ANSI Class 900 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2220 psig (151.0 bar)

G = Carbon-graphite (non-oxidizing) . . . . . . . . . . . . . . . .1000°F (538°C)

ANSI Class 1500 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3750 psig (255.1 bar)

G = Carbon-graphite (oxidizing) . . . . . . . . . . . . . . . . . . . . .700°F (371°C)
V = Polyimide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .650°F (343°C)

* Maximum 100°F working pressure for Carbon Steel (ANSI B16.34).

J

= Carbon-filled PEEK . . . . . . . . . . . . . . . . . . . . . . . . . . . .600°F (316°C)

W = Hi-Load Fire-Seal seats TFE . . . . . . . . . . . . . . . . . . . .550°F (288°C)
R = RTFE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .525°F (274°C)
T = TFE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .450°F (232°C)
K = Kel-F . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .300°F (149°C)
Z = TEFZEL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .525°F (274°C)
3 = ZYMAXX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .575°F (302°C)
U = Fire-seal RTFE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .525°F (274°C)

13

Flow Control Division

McCANNA Valves

Performance Data
Flow Coefficient (Cv) Versus Valve Size
Flanged Valves
Valve
Size (in.)

Class 150

Full Port
Class 150

Class 300

Full Port
Class 300

Class 600

Full Port
Class 600

Class 900

Class 1500

1

/2

26

—

26

—

26

—

—

—

3

/4

55

—

55

—

55

—

16

16

1

55

63

51

61

46

54

27

27

11/2

110

159

110

154

103

138

91

91

2

188

306

184

300

175

282

155

155

3

397

763

449

731

420

696

400

380

4

600

1430

720

1404

790

1355

740

640

6

1500

3548

1500

3522

1600

3339

1600

1550

8

2800

6148

2800

6004

2800

5779

3000

3000

10

4700

9684

4700

9684

4600

9368

—

4100

12

6600

14327

6600

14327

—

13964

—

—

14

7550

—

7550

—

—

—

—

—

16

9500

—

9500

—

—

—

—

—

18

14850

—

15150

—

—

—

—

—

Butt Weld Valves

Flanged Valves
Valve
Size (in.)

Class 300

Class 600

1

/2

17

17

3

/4

26

26

Valve
Size (in.)

Class 300

Class 600

1

/2

17

—

3

/4

26

—

1

35

35

1

35

—

11/2

70

70

11/2

70

—

2

120

120

2

120

—

3

240

—

3

400

410

4

720

780

6

1500

1700

8

2500

3100

10

3800

—

Cv values are for 100% open valve. For additional information, including Cv values for incremental valve positions, refer to McCANNA’s
“Flow Manual for Quarter-Turn Valves”

14

Flow Control Division

McCANNA Valves

Dimensions and Weights
Regular Port Class 150 — Flanged Ends – S151 Configuration
Size
in/mm

A

A

/2
15
3
/4
20
1
25
11/2
40
2
50
3
80
4
100
6
150
8
200
10
250
12
300
14
350
16
400
18
450

5.62
142.0
4.62
117.3
5.00
127.0
6.50
165.1
7.00
177.8
8.00
203.2
9.00
228.6
15.50
393.7
18.00
457.2
21.00
533.4
24.00
609.6
27.00
685.8
37.50
952.5
42.00
1066.8

—
—
—
—
5.50
139.7
7.00
177.8
7.50
190.5
8.50
215.9
9.50
241.3
16.00
406.4
18.50
469.9
21.50
546.1
24.50
622.3
27.50
698.5
38.00
965.2
42.50
1079.5

1

1

2

3

1

2

A

B

B

5.50
139.7
4.50
114.3
4.88
124.0
6.38
162.1
6.88
174.7
7.88
200.2
8.88
225.5
15.38
390.6
17.88
454.2
20.88
530.4
23.88
606.6
26.88
682.8
37.38
949.5
41.88
1063.8

3.60
91.4
3.70
94.0
3.77
95.8
4.44
112.8
4.86
123.4
6.27
159.3
7.77
197.4
10.16
258.1
15.13
384.33
15.5*
394.5*
18.55*
471.2*
20.37*
517.4*
22.42*
569.5*
25.18*
639.6

4.85
123.2
4.95
125.7
5.02
127.5
5.94
150.9
6.61
167.9
8.27
210.1
9.77
248.2
12.16
308.9
17.13
435.1
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A

C

D

Weight◊
lb/kg

.81
20.6
.81
20.6
.81
20.6
1.19
30.2
1.50
38.1
2.25
57.2
3.00
76.2
4.50
114.3
6.00
152.4
7.50
190.5
9.00
228.6
10.50
266.7
12.00
304.8
14.00
355.6

6.50
165.1
6.50
165.1
6.50
165.1
8.50
215.9
12.20
309.6
15.00
381.0
20.00
508.0
32.00
812.8
42.00
1066.8
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A

7
3.2
7
3.2
8
3.6
13
5.9
20
9.0
41
18.5
70
31.5
166
74.7
284
128
635
286
1150
518
1602
721
N/A
N/A
N/A
N/A

D

B1

C

A

Regular Port Class 300 — Flanged Ends – S301 Configuration
Size
in/mm

A1

A2

A3

B1

B2

C

D

Weight◊
lb/kg

1
/2
15
3
/4
20
1
25
11/2
40
2
50
3
80
4
100
6
150
8
200
10
250
12
300
14
350
16
400
18
450

5.50
139.7
6.00
152.4
6.50
165.1
7.50
190.5
8.50
215.9
11.12
282.4
12.00
304.8
15.88
403.4
19.75
501.6
22.38
568.5
25.50
647.7
30.00
762.0
39.00
990.6
42.00
1066.8

N/A
N/A
6.38
162.1
7.00
177.8
8.00
203.2
9.12
231.7
11.75
298.5
12.62
320.6
16.50
419.1
20.38
517.7
23.00
584.2
26.12
663.4
30.62
777.7
39.62
1006.3
42.62
1082.5

5.38
136.6
5.88
149.4
6.38
162.1
7.38
187.5
8.38
212.8
11.00
279.4
11.88
301.7
15.88
403.4
19.63
498.6
22.25
565.2
25.38
644.7
29.88
759.0
38.88
987.6
41.88
1063.8

3.60
91.4
3.80
96.5
3.85
97.8
4.46
113.3
4.93
125.2
6.46
164.1
7.77
197.4
10.16
258.1
15.13
384.3
15.53*
394.5*
18.55*
471.2*
20.37*
517.4*
22.42*
569.5*
25.18*
639.6*

4.85
123.2
5.05
128.3
5.10
129.5
5.96
151.4
6.68
169.7
8.46
214.9
9.77
248.2
12.16
308.9
17.13
435.1
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A

.81
20.6
.81
20.6
.81
20.6
1.19
30.2
1.50
38.1
2.25
57.2
3.00
76.2
4.50
114.3
6.00
152.4
7.50
190.5
9.00
228.6
10.50
266.7
12.00
304.8
14.00
355.6

6.50
165.1
6.50
165.1
6.50
165.1
8.50
215.9
12.20
309.6
15.00
381.0
20.00
508.0
32.00
812.8
42.00
1066.8
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A

8
3.6
9
4.1
11
5.0
19
8.6
26
11.7
59
26.6
95
42.8
171
77.0
350
158
675
304
1360
612
1915
862
N/A
N/A
N/A
N/A

Notes:

A1 = raised face A 2 = ring type joint A 3 = flat faced
B 1 = standard bonnet B 2 = extended bonnet

D

2

B

C

A

* Dimensions shown with asterisk are to top of stem. Handle not offered. Flange ends conform to
ANSI specifications B16.5. Flange facing finish is 125–250 Micro-inches Ra.
◊ All weights are approximate for steel. See page 17 for alloy weight conversion factors.

15

Flow Control Division

McCANNA Valves
Regular Port Class 600 — Flanged Ends – S601 Configuration
Size
in/mm

A

A

A

B

C

D

Weight◊
lb/kg

/2
15

6.50
165.1

6.44
163.6

6.00
152.4

5.26
133.6

.81
20.6

8.50
215.9

10
4.5

3
/4
20

7.50
124.0

7.50
190.5

7.00
177.8

5.26
133.6

.81
20.6

8.50
215.9

10
4.5

1
25

8.50
215.9

8.50
215.9

8.00
203.2

5.26
133.6

.81
20.6

8.50
215.9

16
7.2

11/2
40

9.50
241.3

9.50
241.3

9.00
228.6

6.21
157.7

1.17
29.7

12.19
309.6

28
12.6

2
50

11.50
292.1

11.62
295.2

11.00
279.4

7.05
179.1

1.50
38.1

15.00
381.0

40
18.0

3
80

14.00
355.6

14.12
358.7

13.50
342.9

8.90
226.1

2.25
57.2

20.00
508.0

78
35.1

4
100

17.00
431.8

17.12
434.9

16.50
419.1

10.11
256.8

3.00
76.2

32.00
812.8

153
68.9

6
150

22.00
558.8

22.12
561.9

21.50
546.1

13.09
332.5

4.50
114.3

57.00
1447.8

320
144

8
200

26.00
660.4

26.12
663.5

25.50
647.7

15.39*
390.9*

6.00
152.4

N/A
N/A

520
234

10
250

31.00
787.4

31.12
790.5

30.50
774.7

17.76*
451.1*

7.50
190.5

N/A
N/A

1000
450

1

1

2

3

D

2

B

C

A

Regular Port Class 900† — Flanged Ends – S901 Configuration
Size
in/mm

A1

A2

A3

B

C

D

Weight◊
lb/kg

3
80

15.00
381.0

15.12
384.1

14.50
368.3

9.66
245.4

2.25
57.2

20.00
508.0

150
67.5

4
100

18.00
457.2

18.12
460.3

17.50
444.5

12.82
325.6

3.00
76.2

57.00
1447.8

260
117

6
150

24.00
609.6

24.12
612.7

23.50
596.9

14.34*
364.2*

4.50
114.3

N/A
N/A

600
270

8
200

29.00
737.0

29.12
739.7

28.50
724.0

16.96*
430.8*

6.00
152.4

N/A
N/A

1175
529

D

2

B

Regular Port Class 1500† — Flanged Ends – S1501 Configuration
Size
in/mm

A1

A2

A3

B

C

D

Weight◊
lb/kg

1
/2
15

9.50
241.3

9.50
241.3

9.00
228.6

6.41
162.8

.81
20.6

12.19
309.6

.27
12.2

3
/4
20

9.75
247.7

9.75
247.7

9.25
235.0

6.41
162.8

.81
20.6

12.19
309.6

30
13.5

1
25

10.00
254.0

10.00
254.0

9.50
241.3

6.41
162.8

.81
20.6

12.19
309.6

35
15.8

11/2
40

12.00
304.8

12.00
304.8

11.50
291.1

8.22
208.8

1.17
29.7

15.00
381.0

70
31.5

2
50

14.50
368.3

14.62
371.4

14.00
355.6

8.63
219.2

1.50
38.1

20.00
508.0

105
47.3

3
80

18.50
469.9

18.62
473.0

18.00
457.2

11.57
293.9

2.25
57.2

20.00
508.0

260
117

4
100

21.50
546.1

21.62
549.1

21.00
533.4

13.94*
351.5*

3.00
76.2

N/A
N/A

400
180

6
150

27.75
704.9

28.00
711.2

27.25
692.2

15.96*
405.4*

4.50
114.3

N/A
N/A

960
432

8
200

32.75
831.9

33.12
841.3

32.25
819.2

21.17*
537.7*

6.00
152.4

N/A
N/A

1700
765

10
250

39.00
990.6

39.38
1000.3

38.50
977.9

23.75*
603.3*

7.50
190.5

N/A
N/A

N/A
N/A

Notes:

16

Extended bonnet standard on Class 600, 900 & 1500.
A1 = raised face A 2 = ring type joint A3 = flat faced
Flange ends conform to ANSI specifications B16.5.
See page 17 for alloy weight conversion factors.

† Available with metal or carbon graphite seats only.
* Dimensions shown with asterisk are to top of stem.
Handle not offered.
◊ All weights are approximate for steel.

C

A

Flow Control Division

McCANNA Valves

Dimensions and Weights (continued)
Full Port Class 150 — Flanged Ends – S1F1 Configuration
Weight†
lb/kg

Size
in/mm

A1

A2

B1

B2

C

D

1
25

7.00
177.8

7.50
190.5

4.68
118.9

6.18
157.0

1.19
30.2

8.50
215.9

13
5.9

11/2
40

8.75
222.3

9.25
235.0

5.11
129.8

6.86
174.2

1.50
38.1

12.19
309.6

20
9.0

2
50
3
80
4
100

10.50
266.7
13.50
342.9
17.00
431.8

11.00
279.4
14.00
355.6
17.50
444.5

6.72
170.7
8.30
210.8
10.79
274.1

8.72
221.5
10.30
261.6
12.79
324.9

2.25
57.2
3.00
76.2
4.50
114.3

15.00
381.0
20.00
508.0
32.00
812.8

41
18.5
70
31.5
166
74.7

6
150

21.50
546.1

22.00
558.8

15.55
395.0

17.55
445.8

6.00
152.4

42.00
1066.8

284
128

8
200
10
250

24.50
622.3
32.50
825.5

25.00
635.0
33.00
838.2

*15.70
398.8
*21.46
545.1

N/A
N/A
N/A
N/A

8.00
203.2
10.00
254.0

N/A
N/A
N/A
N/A

635
286
940
423

12
300

38.00
965.2

38.50
977.9

*21.94
557.3

N/A
N/A

12.00
304.8

N/A
N/A

1680
756

14
350

41.75
1060.5

41.88
1063.8

*25.42
645.7

N/A
N/A

14.00
355.6

N/A

D

B1

C

Full Port Class 300 — Flanged Ends – S3F1 Configuration
B2

C

D

Weight†
lb/kg

4.71
119.6

6.21
157.7

1.19
30.2

8.50
215.9

19
8.6

10.00
254.0

5.15
130.9

6.90
175.3

1.50
38.1

12.19
309.6

26
11.7

11.12
282.5
15.25
387.4

11.75
298.5
15.88
403.4

6.75
171.5
8.39
213.1

8.75
222.3
10.39
263.9

2.25
57.2
3.00
76.2

15.00
381.0
20.00
508.0

59
26.6
95
42.8

4
100

18.00
457.2

18.62
473.0

10.87
276.1

12.87
326.9

4.50
114.3

32.00
812.8

171
77.0

6
150
8
200

22.00
558.8
27.00
685.8

22.62
574.5
27.62
701.5

15.58
395.7
*15.88
403.4

17.58
446.5
N/A
N/A

6.00
152.4
8.00
203.2

42.00
1066.8
N/A
N/A

350
158
675
304

10
250

32.50
825.5

33.12
841.2

*21.46
545.1

N/A
N/A

10.00
254.0

N/A
N/A

1025
462

12
300
14
350

38.00
965.2
41.75
1060.5

38.62
981.0
41.88
1063.8

*21.94
557.3
*25.42
645.7

N/A
N/A
N/A
N/A

12.00
304.8
14.00
355.6

N/A
N/A

1770
797

Size
in/mm

A1

1
25

7.50
190.5

8.00
203.2

11/2
40

9.50
241.3

2
50
3
80

A2

B1

A

D

2

B

N/A

Full Port Class 600 — Flanged Ends – S6F1 Configuration
Size
in/mm

C

D

10.00
254.0
12.50
317.5
13.00
330.2

A

10.00
254.0
12.50
317.5
13.12
333.3

A

6.11
155.2
7.41
188.2
9.10
231.1

1.19
30.2
1.50
38.1
2.25
57.2

12.19
309.6
15.00
381.0
20.00
508.0

28
12.6
40
18.0
78
35.1

3
80

17.50
444.5

17.62
447.6

9.78
248.4

3.00
76.2

32.00
812.8

153
68.9

4
100
6
150

20.00
508.0
26.00
660.4

20.12
511.1
26.12
663.5

13.51
343.2
*15.90
403.9

4.50
114.3
6.00
152.4

57.00
1447.8
N/A
N/A

320
144
520
234

8
200
10
300

31.25
793.8
37.00
939.8

31.38
797.1
37.12
942.8

*18.48
469.4
*20.76
527.3

8.00
203.2
10.00
254.00

N/A
N/A
N/A
N/A

1000
450

12
400

42.00
1066.8

42.12
1069.8

*22.78
578.6

12.00
304.8

N/A
N/A

2

B

2

C

Weight ◊
lb/kg

1
25
11/2
40
2
50

1

A

Notes:

A1 = raised face A 2 = ring type joint
B 1 = standard bonnet B 2 = extended bonnet
*Dimensions shown with asterisk are to top of stem.
Handle not offered. Flange ends conform to ANSI
specifications B16.5. Flange facing finish is 125–250
Micro-inches Ra. Lower dimensions are millimeters, kg,
or DN for valve size.
All weights are approximate for steel. See page 17 for
alloy weight conversion factors. For sizes not shown
contact Flowserve.

◊

17

Flow Control Division

McCANNA Valves
Regular Port Class 300 — Threaded and Socket End,
S302 & S303 Configurations

Regular Port Class 600 — Threaded and Socket End,
Extended Bonnet, S602 & S603 Configurations

Size
in/mm A1

Size
in/mm A1

/2
15
3
/4
20
1
25
1–1/2
40
2
50
3
80
1

4.19
106.4
3.81
96.8
3.81
96.8
4.75
120.6
5.62
142.7
8.19
208.0

2

1

A

B

5.56
141.2
3.81
96.8
3.81
96.8
4.75
120.6
5.50
139.7
8.00
203.2

3.69
93.7
3.69
93.7
3.69
93.7
4.50
114.3
4.84
122.9
6.38
162.1

B

2

4.94
125.5
4.94
125.5
4.94
125.5
6.00
152.4
6.59
167.4
8.48
212.9

C

D

E

F

Weight◊
lb/kg

.81
20.6
.81
20.6
.81
20.6
1.19
30.2
1.50
38.1
2.25
57.2

6.50
165.1
6.50
165.1
6.50
165.1
8.50
215.9
12.19
309.6
15.00
381.0

.865/.855
22.0/21.7
1.075/1.065
27.3/27.1
1.340/1.330
34.0/33.8
1.925/1.915
48.9/48.6
2.421/2.406
61.5/61.1
3.550/3.535
90.2/89.8

.38
9.7
.50
12.7
.50
12.7
.50
12.7
.62
15.7
.62
15.7

4
1.8
4
1.8
4
1.8
7
3.2
11
5.0
29
13.1

/2
15
3
/4
20
1
25
1–1/2
40
2
50

4.75
120.6
4.38
111.3
4.25
108.0
5.12
130.0
5.88
149.4

1

2

1

A

B

4.75
120.6
4.25
108.0
4.25
108.0
5.12
130.0
5.75
146.1

N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A

B

2

5.06
128.5
5.06
128.5
5.06
128.5
6.16
156.5
6.72
170.7

C

D

E

F

Weight◊
lb/kg

.81
20.6
.81
20.6
.81
20.6
1.19
30.2
1.50
38.1

6.50
165.1
6.50
165.1
6.50
165.1
8.50
215.9
12.19
309.6

.865/.855
22.0/21.7
1.075/1.065
27.3/27.1
1.340/1.330
34.0/33.8
1.925/1.915
48.9/48.6
2.421/2.406
61.5/61.1

.38
9.7
.50
12.7
.50
12.7
.50
12.7
.62
15.7

11
5.0
10
4.5
10
4.5
18
8.1
30
13.5

D

D

B1

B2

E

C

F
A

E

C

Regular Port Class 300 — Butt Weld Ends,
S304 Configuration

F
A

Regular Port Class 600 — Butt Weld Ends,
S604 Configuration

Size
in/mm

A

B

/2
15
3
/4
20
1
25
1–1/2
40
2
50
3
80
4
100
6
150
8
200
10
250

7.44
189.0
7.44
189.0
3.44
87.4
4.75
120.7
5.62
143.0
11.12
282.4
12.00
304.8
15.88
403.4
20.50
520.7
22.06
560.3

3.69
93.7
3.69
93.7
3.59
91.2
4.50
114.3
4.84
123.0
6.25
158.8
8.03
203.9
10.16
258.1
15.06
382.5
15.52
394.2

1

Size
in/mm

A

B1

B2

C

D

Weight◊
lb/kg

3
80
4
100
6
150
8
200

14.00
355.6
17.00
431.8
22.00
558.8
26.00
660.4

N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A

8.59
218.2
10.22
259.6
12.69
322.3
15.38*
390.6*

2.25
57.2
3.00
76.2
4.50
114.2
6.00
152.4

20.00
508.0
32.00
812.8
57.00
1447.8
N/A
N/A

52
23.4
100
45.0
190
85.5
400
180.0

D

B2

1

B

2

4.94
125.5
4.94
125.5
4.84
122.9
6.00
152.4
6.59
167.4
8.25
209.6
10.03
254.8
12.16
308.9
17.06
433.3
N/A
N/A

C

D

Weight◊
lb/kg

.81
20.6
.81
20.6
.81
20.6
1.19
30.2
1.50
38.1
2.25
57.2
3.00
76.2
4.50
114.3
6.00
152.4
7.50
190.5

6.50
165.1
6.50
165.1
6.50
165.1
6.50
165.1
12.19
309.6
15.00
381.0
20.00
508.0
32.00
812.8
42.00
1066.8
N/A
N/A

3
1.4
3
1.4
3
1.4
5
2.3
9
4.1
32
14.4
53
23.9
124
55.8
213
95.9
405
182.3

D

C

B1
A

Alloy Weight Conversion Factors
Material

C

Multiplier

Material

Multiplier

Alloy 20

1.0

Monel & Nickel

1.1

Aluminum

0.5

Stainless Steel

1.0

Bronze

1.1

Titanium

.65

Hastelloy “C”

1.0

——————

——

A

Notes:

Extended bonnet standard on Class 600 & 1500.
A1 = threaded end A 2 = socket end B 1 = standard bonnet
B 2 = extended bonnet E = socket diameter F = socket depth
Threaded ends per ANSI B1.20.1 Socket ends per ANSI spec B16.11.
◊

18

All weights are approximate for steel. See chart at left for alloy weight
conversion factors.

Flow Control Division

McCANNA Valves

Materials of Construction
Handle

Stem
Handle Retainer Nut
Travel Stop

Adjusting Nut
Stem Seals

Bonnet

Gland Ring

(Extended)

Body

Bonnet Bolts

Ball

Bonnet Gasket

Seat Rings

Spring

Seat

Regular Port ANSI Class 150, Class 300, Class 600, Class 900 and Class 1500
Part Description Alloy 20

Bronze

Carbon Steel Hastelloy C

Monel

Nickel

Stainless Steel

Titanium

Body—Threaded or
flanged ends

ASTM A351
Gr. CN-7M

ASTM B62/B584
Gr. C83600

ASTM A216†
Gr. WCB

ASTM A494
Gr. CW-12M

ASTM A494
Gr. M35-1

ASTM A494
Gr. CZ100

ASTM A351
Gr. CF 8M

ASTM B367
Gr. C3

Body—Socket or
butt weld ends

ASTM A351
Gr. CN-7M

ASTM B62/B584
Gr. C83600

ASTM A216†
Gr. WCB

ASTM A494
Gr. CW-12M

ASTM A494
Gr. M35-1

ASTM A494
Gr. CZ100

ASTM A351
Gr. CF 3M

ASTM B367
Gr. C3

Bonnet*

ASTM A351
Gr. CN-7M
ASTM B473
UNS N08020

ASTM B62
85-5-5-5
ASTM B21●
UNS C48500

ASTM A216†
Gr. WCB
ASTM A181†
Gr. 70

ASTM A494
Gr. CW-12M
ASTM B574
UNS N10276

ASTM A494
Gr. M35-1
Alloy K500

ASTM A494
Gr. CZ100
ASTM B160
Alloy 200

ASTM A351
Gr. CF 8M
ASTM A479
Type 316

ASTM B367
Gr. C3
CAST ASTM B367 GRC3
FORG ASTM B381 GR F-3
BAR ASTM B348 GR 4

Ball*

ASTM B351
Gr. CN-7M

ASTM B16●
85-5-5-5

ASTM A479
Type 316
ASTM A351
Gr. CF 8M

ASTM B494
Gr.CW-12M

Alloy 501
Alloy 411

ASTM A494
Gr. CZ100

ASTM B348
Gr. 4
ASTM A351
Gr. CF 8M

Stem

ASTM B473
UNS N08020

ASTM B21●
UNS C48500

ASTM A276††
Type 316
CFB (1⁄2-3")
CFA (4-10")

ASTM B574
UNS N10276

Alloy K500

Inconel 625

ASTM A276††
Type 316
CFB (1⁄2-3")
CFA (4-10")

ASTM B358
Gr. 4

Spring
T and R Seat

Inconel X750

ASTM A313
Type 316

ASTM A313
Type 316

Inconel X750

Inconel 625

Inconel 625

ASTM A313
Type 316

ASTM B348
Gr. 5

Spring
all other Seats

Inconel X750

Inconel X750

Inconel X750

Inconel X750

Inconel 625

Inconel 625

Inconel X750

ASTM B348
Gr. 5

Seat Ring

ASTM B473
UNS N08020

ASTM A312
Gr. TP316

ASTM A312
Gr. TP316

ASTM B574
Alloy K500
UNS N10276 (1⁄2–1")
or Alloy 501
ASTM B619
UNS N10276(1-1⁄2–10")

ASTM B161
Alloy 200

ASTM A312
Gr. TP316

ASTM B338
Gr. 2

Bonnet Bolts

ASTM A193
Gr. B8M ◊

ASTM A193
Gr. B7 ◊

ASTM A193
Gr. B7 ◊

ASTM A193
Gr. B8M ◊

ASTM A193
Gr. B8M ◊

ASTM A193
Gr. B8M ◊

ASTM A193
Gr. B8M ◊

Notes:

ASTM A193
Gr. B8M ◊

Consult Flowserve for materials of construction for configurations not listed.
* Size of valve determines ASTM specification. Consult factory for specific information.
† Black Oxide Coated
● Crack-free chrome plated
†† Stem material for 600, 900 & 1500 Class valves is 17-4PH (ASTM A564, type 630).
◊ Size 1/2" – 2" Class 300 and 600 ASTM A453 GR660 Stainless Steel Capscrew used.

19

Flow Control Division

McCANNA Valves

Materials of Construction
Stem
Adjusting Nut
Bonnet

Gland Ring
Stem Seals
Bonnet Bolts

Body
Spring

Bonnet Gasket

Ball
Seat Ring
Seat

Full Port ANSI Class 150, Class 300, Class 600, Class 900 and Class 1500
Part Description

Alloy 20

Carbon Steel

Hastelloy C

Monel

Nickel

Stainless Steel

Titanium

Body

ASTM A351
Gr. CN-7M

ASTM A216†
Gr. WCB

ASTM A494
Gr. CW-12M

ASTM A494
Gr. M35-1

ASTM A494
Gr. CZ100

ASTM A351
Gr. CF 8M

ASTM B367
Gr. C3

Bonnet*

ASTM A351
Gr. CN-7M

ASTM A216†
Gr. WCB
ASTM A181†
Gr. 70

ASTM A494
Gr. CW-12M

ASTM A494
Gr. M35-1

ASTM A494
Gr. CZ100

ASTM A351
Gr. CF 8M

ASTM B367
Gr. C3

Ball*

ASTM B473■
UNS N08020
ASTM B351■
Gr. CN-7M

ASTM A479
Type 316
ASTM A351
Gr. CF 8M

ASTM B574
UNS N10276
ASTM B494
Gr.CW-12M

Alloy K500
or Alloy 501
Alloy 411

ASTM B160
Alloy 200
ASTM A494
Gr. CZ100

ASTM A479
Type 316
ASTM A351
Gr. CF 8M

ASTM B348
Gr. 4
ASTM B367
Gr. C3

Stem

ASTM B473■
UNS N08020

ASTM A276††
Type 316
CFB (1⁄2-3")
CFA (4-10")

ASTM B574
UNS N10276

Alloy K500

Inconel 625

ASTM A276††
Type 316
CFB (1⁄2-3")
CFA (4-10")

ASTM B358
Gr. 4

Spring
T and R Seat

Inconel X750

ASTM A313
Type 316

Inconel X750

Inconel 625

Inconel 625

ASTM A313
Type 316

ASTM B348
Gr. 5

Spring
all other Seats

Inconel X750

Inconel X750

Inconel X750

Inconel 625

Inconel 625

Inconel X750

ASTM B348
Gr. 5

Seat Ring

ASTM B473
UNS N08020

ASTM A312
Gr. TP316

ASTM B574
UNS N10276 (1⁄2–1")
ASTM B619
UNS N10276(1-1⁄2–10")

Alloy K500
or Alloy 501

ASTM B161
Alloy 200

ASTM A312
Gr. TP316

ASTM B338
Gr. 2

Bonnet Bolts

ASTM A193
Gr. B8M ◊

ASTM A193
Gr. B7

ASTM A193
Gr. B8M ◊

ASTM A193
Gr. B8M ◊

ASTM A193
Gr. B8M ◊

ASTM A193
Gr. B8M ◊

ASTM A193
Gr. B8M ◊

Notes:

Consult Flowserve for materials of construction for configurations not listed.
* Size of valve determines ASTM specification. Consult factory for specific information.
† Black Oxide Coated
■ Hard chrome plated
†† Stem material for 600 Class valves is ASTM A564 type 6340 (17-PH).
◊ Size 1" Class 300 and 600 ASTM A453 GR660 Stainless Steel Capscrew used.

20

Flow Control Division

McCANNA Valves

Automated McCannaseal Valve Packages
McCANNA Automated Control Packages are made to suit your
requirements. Whether your application calls for simple on/off
flow control or more sophisticated process automation,
McCANNA offers a wide range of valve actuator packages to
match individual requirements and provide excellent flexibility
for automated flow control.

Electric Automation
The Series 75 electric AC or DC actuator is designed for on/off
and modulating applications. It provides precise, reliable,
automatic rotary valve operation in a rugged compact package.
The Series 75 is available in a variety of NEMA enclosures, and
is easily adaptable for PLC/computer applications. Many options,
such as feedback systems and positioner/controller, are available
with torques up to 3000 in-lb.

21

Flow Control Division

McCANNA Valves

Automated McCannaseal Valve Packages
Pneumatic Automation

The Series 39 pneumatic actuator is an accurate, compact,
powerful, double-piston, rack-and-pinion actuator with an
impressive track record for reliability.

An Integral Valve Control Unit is available offering integral
control and communication capabilities. The complete control
unit consists of the Series 39 pneumatic actuator with integral
limit switches, low wattage solenoid, manual override and LEDs
to assist in calibration and to detect the status of system
components. The entire control package is contained in an
enclosure with a combined Type 4, 4x, 7, 9 and 12 rating.
This integral unit eliminates the need for expensive brackets and
couplings commonly used with actuator accessories.

Loop Powered Positioner with auto calibration and zero air
bleed. Operated by a 4-20 mA analog signal, this unit’s
microprocessor and three-button keypad provide on-site
calibration, action, split-range, speed fault delay, etc.

22

Flow Control Division

McCANNA Valves

How to Specify and Order
Furnishing the information below will speed deliveries of your orders for McCannaseal ball valves.
Order by valve size and figure number.
Valve
Size
(inches)

II

Type

Pressure (2)

S - McCannaseal
C - Cryogenic
Z - Fire-Seal
Regular Port –
1
/2" thru 6" (4)
Y - Fire-Seal
Regular Port –
8" and up
Z - Fire-Seal
Full Port – 1"
thru 4" (4)
Y - Fire-Seal
Full Port – 6"
thru 12" (4)

/2
/4
1
11/2
2
3
4
6
8
10
12
14
16
18
20
1

3

Notes:

I

McCANNA Ball Valve Figure No. Code System(1)
III
IV
V
End
Body
Standard
Connection
Material (1)
Seats

15 - ANSI Class 150
30 - ANSI Class 300
60 - ANSI Class 600
90 - ANSI Class 900
150 - ANSI Class 1500
1F - Full Port
ANSI Class 150
3F - Full Port
ANSI Class 300
6F - Full Port
ANSI Class 600

1 - Flanged
RF or FF(5)
2 - Threaded
3 - Socket Weld
4 - Butt Weld(6)
6 - RTJ Flanged
A - Threaded
X Socket

AL - Aluminum
A2 - Alloy 20
BR - Bronze
CS - Carbon Steel
HB - Hastelloy “B”
HC - Hastelloy “C”
MO - Monel
NI - Nickel
S6 - SS316
TI - Titanium
6L - SS316L
DS - Duplex SS

VI

VII
Special
Preparation

Trim (1)(3)

T - TFE
R - Reinforced TFE
U - Reinforced TFE
Fire-Seal
W - HiLoad TFE
Fire-Seal
G - Carbon Graphite
J - Filled Peek
M - Metal
L - CeraMc
3 - ZYMAXX

AL - Aluminum
A2 - Alloy 20
BR - Bronze
HB - Hastelloy “B”
HC - Hastelloy “C”
MO - Monel
N1- Nickel
S6 - SS316
SO - SS410
TI - Titanium
6L - SS316L
DS - Duplex SS
CERAMIC
HC CA
MO CM
AZ
CA

Specify service or
variation

(1) This is basic Figure Number Code System only. Not all combinations available. Not all materials shown.
(2) Nominal pressure rating only. Actual CWP ratings vary with construction and valve configurations.
(3) Trim consists of ball, stem and seat ring.
(4) Valves qualified to API-607 4th edition.
(5) Standard flange finish 125–250 Micro-Inches Ra.
(6) Specify pipe schedule.

Ordering Example:
(1)

(2)

(3)

(4)

(5)

1

S151

CS

T

S6

SIZE

I, II, III

IV

V

VI

(6)

VII

(1) Valve size

(4) Seat from Column V

(2) Type, pressure class or group, and end
connection from Column I, II, and III

(5) Trim from Column VI
(6) Special preparation description

(3) Body material from Column IV

McCannaseal Product Ranges
Size

Class 150/PN 20
Full Port
Flanged Flanged

Flanged

Class 300 / PN 50
Full Port
Flanged Threaded
Socket

Class 600 / PN 100
Full Port
Flanged
Threaded
Socket

Butt Weld

Class 900 Class 1500
PN 150
PN250
Flanged
Flanged

in.

DN

Butt Weld

Flanged

1

/2

15

S151

—

S301

—

S302

S303

S304

S601

—

S602

S603

S604*

—

S1501

3

/4

20

S151

—

S301

—

S302

S303

S304

S601

—

S602

S603

S604*

—

S1501

1

25

S151

S1F1

S301

S3F1

S302

S303

S304

S601

S6F1

S602

S603

S604*

—

S1501

11/2

40

S151

S1F1

S301

S3F1

S302

S303

S304

S601

S6F1

S602

S603

S604*

—

S1501

2

50

S151

S1F1

S301

S3F1

S302

S303

S304

S601

S6F1

S602

S603

S604*

—

S1501

3

80

S151

S1F1

S301

S3F1

S302

S303

S304

S601

S6F1

—

—

S604

S901

S1501

4

100

S151

S1F1

S301

S3F1

—

—

S304

S601

S6F1

—

—

S604

S901

S1501

6

150

S151

S1F1

S301

S3F1

—

—

S304

S601

S6F1

—

—

S604

S901

S1501

8

200

S151

S1F1

S301

S3F1

—

—

S304

S601

S6F1

—

—

S604

S901

S1501

10

250

S151

S1F1

S301

S3F1

—

—

S304

S601

S6F1

—

—

—

—

S1501

12

300

S151

S1F1

S301

S3F1

—

—

—

—

S6F1

—

—

—

—

—

14

350

S151

—

S301

—

—

—

—

—

—

—

—

—

—

—

16

400

S151

—

S301

—

—

—

—

—

—

—

—

—

—

—

18

450

S151

—

S301

—

—

—

—

—

—

—

—

—

—

—

—

—

—

—

—

—

—

—

—

—

—

20
Notes:

—

Above available in standard or Fire-Seal qualified to API 607 4th Edition
* For information on Class 600 Butt Weld 1/2" – 2", contact Flowserve.

23

Flow Control Division

McCANNA Valves

Choose automated McCANNA control
packages tailored to your requirements.
Where full automation is not needed, manual gear operators are available for all
size and pressure classes of McCANNA Ball valves.

McCANNA ... All The Right Valves In All The Right Places
McCannaseal® Ball Valves
Top-of-the-line, top-entry ball valves with wedge-seat design are available in sizes 1/2" to 14" for pressures to 3750 psi. Available in a wide range of materials.
McCannaflo® Ball Valves
Economical, end-entry threaded end ball valves with prestressed, Fire-Seal ® seats in sizes 1/4" to 2" for pressures to 1200 psi.
McCANNA 800® Ball Valves
Standard ball valves that combine high-pressure reliability, low cost and Fire-Seal seats in sizes 1/4" through 2" for pressures to 2000 psig.
McCANNA General Purpose Ball Valves
Sturdy, compact general purpose design available in brass or steel in sizes 1/4" to 2" for pressures to 2000 psi.
Diaphragm Valves
Versatile, weir-type soft-seated valves provide leak-tight shutoff on sizes from 1/2" through 12" for pressures to 200 psi.
NOTICE: McCANNA Ball Valves are designed and manufactured using good workmanship and materials, and they meet all applicable industry standards. McCANNA is anxious to avoid injuries and
property damage which could result from misapplication of the product. Proper valve selection is imperative. Examples of the misapplications or misuse of a valve include but are not limited to use in a
service in which the pressure/temperature rating is exceeded or in a chemical service incompatible with the valve materials; use of undersized valve actuators; use of extremely fast valve actuation and/or
continuous valve cycling on standard valves; making modifications of the product of any kind; failure to use caution in operating valves in high temperature, high pressure, or highly hazardous services;
and the failure to maintain valves as recommended. The right is reserved to change or modify product design or construction without prior notice and without incurring any obligation to make such
changes and modification on products previously or subsequently sold.
Cryoseal® is a registered trademark of M&FC Holding, Co., Inc.
Fire-Seal® is a registered trademark of M&FC Holding, Co., Inc.
McCannaseal® is a registered trademark of M&FC Holding, Co., Inc.
McCANNAFLO® is a registered trademark of M&FC Holding, Co., Inc.
Invensys® is a registered trademark of BTR SIEBE PIC
McCANNA 800® is registered trademark of Weavex Corp.
Flowserve Corporation has established industry leadership in the design and manufacture of its products. When properly selected, this Flowserve product is designed to perform its intended function safely during its useful life.
However, the purchaser or user of Flowserve products should be aware that Flowserve products might be used in numerous applications under a wide variety of industrial service conditions. Although Flowserve can (and often
does) provide general guidelines, it cannot provide specific data and warnings for all possible applications. The purchaser/use r must therefore assume the ultimate responsibility for the proper sizing and selection, installation,
operation, and maintenance of Flowserve products. The purchaser/user should read and understand the Installation Operation Maintenance (IOM) instructions included with the product, and train its employees and contractors in
the safe use of Flowserve products in connection with the specific application.
While the information and specifications contained in this literature are believed to be accurate, they are supplied for informative purposes only and should not be considered certified or as a guarantee of satisfactory results by
reliance thereon. Nothing contained herein is to be construed as a warranty or guarantee, express or implied, regarding any mat ter with respect to this product. Because Flowserve is continually improving and upgrading its
product design, the specifications, dimensions and information contained herein are subject to change without notice. Should any question arise concerning these provisions, the purchaser/user should contact Flowserve
Corporation at any one of its worldwide operations or offices.
For more information about Flowserve Corporation, contact www.flowserve.com or call USA 1-800-225-6989.
FLOWSERVE CORPORATION
FLOW CONTROL DIVISION
1978 Foreman Drive
Cookeville, Tennessee 38501 USA
Phone: 931 432 4021
Facsimile: 931 432 3105
www.flowserve.com

© 2003 Flowserve Corporation, Irving, Texas, USA. Flowserve and Worcester Controls are registered trademarks of Flowserve Corpo
ration.

RFP 100-2 8/03 Printed in USA



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