Technical Information
`
`The information presented in this section is intended to assist
`designers in the proper selection of Parker Autoclave Engi-
`neers’ valves, fittings and tubing for fluid handling systems.
`This technical data does not represent product specifications
`but rather guidelines for direction in the proper application
`of the referenced equipment. These guidelines are general in
`nature because of the many process variables.
`
`For severe service applications, selection of the appropriate
`valves, fittings and tubing is essential in order to optimize
`the service life of these products. Parker Autoclave Engineers’
`technical staff is available to assist in the interpretation of
`this information.
`
`Technical Information
`
`1
`
`www.autoclave.com
`www.autoclave.com
`
`All general terms and conditions of sale, including limitations of our liability, apply to all products and services sold.
`
`Page 1 of 16
`
`

`

`Technical Information - General Information
`
`Technical and Application Information
`
`Materials:
`Widely varying conditions frequently require that valves,
`fittings and tubing be constructed of materials other than con-
`ventional stainless steel. Since many variables affect the corro-
`sion resistance of metallic materials, it is Parker Autoclave
`Engineers’ policy not to recommend materials based on
`corrosion resistance for specific fluid applications. We can,
`however, suggest materials based on mechanical strength and
`also indicate materials generally used in a specific application.
`Other materials not listed in this section are also available.
`Pressure:
`Included in this section are the standard pressure ratings for
`several common materials for valves and fittings as well as
`tubing. Parker Autoclave Engineers stocks a select quantity of
`special material tubing for immediate delivery.
`Temperature:
`Also contained in this section are pressure reduction factors
`at various temperatures for several materials. To obtain the
`maximum pressure rating at an elevated temperature, multiply
`the maximum pressure rating of the item at room temperature
`by the elevated temperature factor (% of RT).
`High and low temperatures or high heat up and/or cool down
`rates can affect the capability of a metal-to-metal seal. When
`selecting a valve series, consideration should not only be given
`to static pressure rating, but also static and dynamic
`temperature conditions. Generally, the smaller the seal diam-
`eter of a metal-to-metal seal, the more reliable the seal will be.
`Gas or Liquid Service:
`Light gases such as hydrogen and helium are more difficult to
`seal than liquids. When selecting a valve series, consideration
`should be given to the fluid application and not just pressure
`and temperature requirements. The higher the rating of the
`valve or fitting, the less the likelihood of weepage problems
`with light gases. Tubing selections should also consider the
`service requirements, since thicker wall, smaller outside
`diameter tube sizes will produce a more reliable connection
`seal. Handling of fittings and tubing during installation will
`make a difference in sealability of light gases as well as liquids.
`Do not handle the tube or fitting in such a way as to damage
`the sealing surfaces. If it is process tolerable, a small amount
`of lubrication (or even process fluid) on the seal area during
`installation will help the sealing process. Refer to the Tools,
`Installation, Operation and Maintenance section for further
`information.
`Valve Stem Packing Materials:
`The considerations listed thus far should be applied when
`selecting a suitable valve stem packing material (PTFE, PTFE
`glass or Graphite yarn). Where possible, PTFE packing is the
`most reliable, low maintenance, packing choice; PTFE/glass is
`the second. While graphite yarn packing is a reliable pack-
`
`2
`
`ing material for the majority of extremely high temperature
`applications, some gases may permeate more readily through
`graphite yarn packing than through the PTFE packing in a valve
`with an extended stuffing box. The packing material must be
`kept below the maximum permitted temperature listed on
`page 5.
`Valve Stem Seating:
`Abrasive flow or high cycle service will require more frequent
`maintenance. Special materials and the proper valve series
`selection may extend service life. For example, if flow is not
`critical, a 30VM valve with an N-Dura stem will require less
`maintenance than an SW series valve used in a low pressure,
`high cycle, abrasive flow application. Although all application
`parameters cannot be considered in this section, the user can
`generally expect several thousand cycles in a liquid application
`and several hundred cycles for gas service. The packing gland
`may require adjustment, however, to achieve these results.
`Pressure Cycling:
`In medium and high pressure applications, static as well as
`dynamic (cyclic) pressure must be considered when selecting
`an appropriate valve series. If fatigue life is a concern, Parker
`Autoclave Engineers can supply tubing which has been auto-
`frettaged for improved fatigue resistance. For internally pres-
`surized tubing, autofrettaging is a method by which the inner
`wall of the tube is precompressed to reduce the tube operating
`bore stresses. By applying sufficient internal pressure, greater
`than the maximum working pressure of the tube, the inner wall
`is plastically deformed by a controlled amount. The remain-
`ing outer portion of the wall acts elastically, and when the
`pressure is released, a positive compressive load at the bore
`will exist. As mentioned previously, the result is reduced bore
`stress and increased fatigue life. In addition to the autofrettag-
`ing method to increase cycle life, Parker Autoclave Engineers
`offers HP-HC (high-pressure — high cycle) tubing, rated to
`100,000 psi (6895 bar). This tubing can be substituted for our
`standard 60,000 psi (4137 bar) tubing providing longer life at
`60,000 psi (4137 bar) operation.
`Vacuum Service:
`The high, medium and low pressure series of Parker Autoclave
`Engineers’ standard valves, fittings and tubing can be used in
`light vacuum services to 10-2 torr. For high vacuums to 10-5 or
`10-6 torr, Parker Autoclave Engineers’ high pressure series is
`recommended. Extreme care and proper seal lubrication is re-
`quired (as mentioned in the Gas or Liquid Service paragraph)
`to achieve these degrees of vacuum. The pump type and size
`will determine the final vacuum pressure.
`
`All general terms and conditions of sale, including limitations of our liability, apply to all products and services sold.
`
`Page 2 of 16
`
`

`

`Technical Information - Coned & Threaded Connections
`
`Parker Autoclave Engineers Medium & High Pressure Coned and Threaded Connections
`
`Parker Autoclave Engineers’ Medium Pressure Coned and Threaded Connections
`
`Features:
`• Pressures to 20,000 psi (1379 bar)
`• Uncompromised reliability under rigorous thermal and
`pressure cycling.
`• Design is a more compact version of the original Parker
`Autoclave Engineers High Pressure connections.
`• Well suited to installations which require repeated assembly
`and disassembly with consistent reliability.
`• Available in tube outside diameter sizes from 1/4”(6.35 mm)
`through 1-1/2” (38.10 mm) and bore sizes from .109”(2.77
`mm) to .938”(23.83 mm).
`Note: 1" 43,000 psi (2965 bar) utilizes the medium pressure
`coned and threaded connection.
`
`Valve or Fitting
`Body
`
`Gland
`
`Collar
`
`Cold-worked
`Tubing
`
`Line-contact
`Sealing
`
`Positive Backup
`Support
`
`Differences in angles exaggerated for clarity.
`
`Parker Autoclave Engineers’ High Pressure Coned and Threaded Connections
`
`Features:
`• Pressures to 60,000 psi (4137 bar)
`• Increased pressure handling capabilities
`• Uncompromised reliability under rigorous thermal and
`pressure cycling
`• Well suited to installations which require repeated assembly
`and disassembly with consistent reliability.
`• Available in tube outside diameter sizes of 1/4” (6.35mm),
`3/8”(9.53mm) and 9/16”(14.27mm) and bore sizes of
`.083(2.11mm), .125”(3.18mm), .188”(4.78mm) and
`.250”(6.35mm).
`
`Collar
`
`Gland
`
`Valve or Fitting
`Body
`
`Cold-worked
`Tubing
`
`Line-contact
`Sealing
`
`Positive Backup
`Support
`
`Differences in angles exaggerated for clarity.
`
`3
`
`All general terms and conditions of sale, including limitations of our liability, apply to all products and services sold.
`
`Page 3 of 16
`
`

`

`Technical Information - Coned and Threaded Connections
`
`Design Considerations - Why Coning and threading?
`
`High-pressure designs require a superior joining technique
`for valves, fitting and tubing. Conventional joining methods
`fall short of the reliability needed for pressures above 10,000
`- 15,000 psi (690-1034 bar) and tube sizes above 1/4” outside
`diameter. Dissimilar angles between the body and the tube
`cone provide line contact sealing along the perimeter of a
`contact circle. The sealing contact area is therefore, maintained
`at its practical minimum for the given tube size and a reliable
`seal is produced due to high sealing stresses that occur at
`low sealing loads. When process tolerable, a small amount of
`lubricant (or even process fluid) on the seal area will help
`improve the reliability of the metal to metal seals, especially
`when light molecule gases are to be sealed. The metal to metal
`seal also eliminates the need for elastomers in the
`connections.
`Positive backup support occurs with the collar threaded
`(left-handed) directly onto the tubing to form a positive
`integral retaining surface. This allows for a consistent
`connection make up that is required at higher pressures and
`temperatures. When the gland nut is threaded into the
`connection, the tubing is locked securely in place and the
`possibility for the ejection of the tubing from a properly
`assembled and used connection is extremely remote.
`Remarks:
`Since the glands and threaded collars can be removed from
`the tubing, properly lubricated Parker Autoclave Engineers
`Medium-Pressure and High-Pressure connections can be dis-
`assembled and reassembled repeatedly without loss of relabil-
`ity. These connections are used with cold-worked valve and
`fitting bodies which can withstand many repeated sealings.
`Therefore, valves, fittings and accessories can be inserted or
`removed from the pressure system or the system can be
`altered or expanded in a fraction of the time and cost that may
`be imposed by welded, screwed, flared or other types of
`connections.
`
`
`
`Pipe Thread Information
`
`In some applications pipe threads may be preferred in place
`of standard Parker Autoclave Engineers connections. Pipe
`threads for pressure seals are tapered or combination of
`taper and straight. A number of factors apply to pipe threads
`for high-pressure sealing. Thread form or the quality of the
`thread, which refers to the gauging or thread dimensions.
`Another is the actual machining of the thread producing the
`required finish to prevent thread galling.
`Pipe threads can be used up to 15,000 psi (1034 bar) safely
`if proper installation procedures are followed. The following
`should be adhered to when using pipe threads.
`
`
`4
`
`Vacuum Service:
`Parker Autoclave Engineers' Medium-Pressure connections
`can be reliably used in light vacuum service to 10-2 torr. Parker
`Autocalve Engineers' High-Pressure connections are recom-
`mended for vacuum to 10-5 torr. Extreme care and proper seal
`lubrication are required to successfully achieve these levels of
`vacuum.
`Pressure Cycling:
`Since the metal to metal seal is pre-torqued to a specified
`value greater than the end load generated from the pressure,
`fatigue concerns of the connection due to pressure cycling are
`minimal.
`Thermal Cycling:
`Because of the threaded on collar design, Parker Autoclave
`Engineers' Medium and High-Pressure connections can take
`repeated thermal cycling under pressure with no loss in reli-
`ability. These connections can also handle a wider range of
`temperatures than swaged or bite type connections and are
`designed to maintain integrity from -423°F to 1200°F (-252°C
`to 649°C).
`Pre-Rated Systems:
`Valves, fittings and tubing with Parker Autoclave Engineers'
`Medium and High-Pressure connections provide a fully engi-
`neered, pre-rated system of components that are interchange-
`able from assembly to assembly. They are not over sensitive to
`abuse or careless assembly and no special gauges or tools are
`needed to check the connection. Weep holes are provided in
`every connection to permit fast visual inspection for leakage,
`and prevent pressure build up in the threads.
`Materials:
`Parker Autoclave Engineers' standard gland and collar material
`is type 316 cold-worked stainless steel. This material provides
`high strength and good impact resistance over the tempera-
`ture range mentioned above. A bonded dry film lubricant, to be
`used as an anti-galling agent, is available.
`
`NOTE: NPT (Pipe) connections
`• NPT threads must be sealed using a high quality PTFE tape and/or
` PTFE paste product. Refer to thread sealant manufacturer’s instructions
` on how to apply thread sealant.
`• Sealing performance may vary based on many factors such as pressure,
` temperature, media, thread quality, thread material, proper thread
` engagement and proper use of thread sealant.
`• Customer should limit the number of times an NPT fitting is assembled
` and disassembled because thread deformation during assembly will
` result in deteriorating seal quality over time. When using only PTFE tape,
` consider using thread lubrication to prevent galling of mating parts.
`
`Temperature limitations for pipe threads are based on material
`strength and thread sealant. Parker Autoclave Engineers limits
`it’s pipe thread components to 0°F (17.8°C) to 400°F (204°C)
`and pressures as stated in the components sections.
`
`All general terms and conditions of sale, including limitations of our liability, apply to all products and services sold.
`
`Page 4 of 16
`
`

`

`Technical Information - Pressure/Temperature Rating Guide
`
`Pressure/temperature Rating Guide
`
`Information in this rating guide is furnished to approximate the
`pressure/temperature capabilities of Parker Autoclave
`Engineers valves and fittings with various options.
`
`To determine approximate ratings, the following factors should
`be considered:
`• Refer to valve or fitting ordering pages for the base pressure
`rating of component at room temperature (R.T.).
`• Refer to Technical Information section for pressure ratings of
`materials at elevated temperatures.
`
`• Refer to appropriate tubing section for pressure ratings of
`standard Parker Autoclave Engineers' tubing at various tem-
`peratures to 800°F (427°C).
`• Note maximum temperature ratings for Parker Autoclave
`Engineers' valves with various packing and stem options in
`table below.
`• Note pressure/temperature curve on page 6 for type 316
`stainless steel bodies and tubing.
`• Note temperature information checklist on page 6.
`
`Packing Temperature ºF (ºC)
`
`Valve
`Series
`
`Stem
`Type
`
`Standard
`PTFE Packing
`
`Optional
`PTFE Glass -TG
`
`Optional
`PTFE with
`Cryogenic
`Trim -B
`
`Optional
`Graphite Yarn
`-GY
`
`Standard
`Nylon-Leather
`
`Optional
`Peek-PTFE
`Glass - TG
`
`Optional
`Peek-PTFE
`with Cryogenic
`Trim -B
`
`Optional
`Extended
`Stuffing Box
`
`Vee or Reg.,
`Metal-to-Metal
`
`10V
`
`SW
`
`Min
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`Max
`
`450
`(232)
`
`450
`(232)
`
`Min
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`Max
`
`600
`(316)
`
`600
`(316)
`
`Min
`
`-100
`(-73)
`
`-100
`(-73)
`
`Max
`
`600
`(316)
`
`600
`(316)
`
`Min
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`Max
`
`650
`(343)
`
`650
`(343)
`
`Min
`
`N/A
`
`N/A
`
`Max
`
`N/A
`
`N/A
`
`Min
`
`N/A
`
`N/A
`
`Max
`
`N/A
`
`N/A
`
`Min
`
`N/A
`
`N/A
`
`Max
`
`N/A
`
`N/A
`
`Vee or Reg.,
`Metal-to-Metal
`
`15SM
`20SM
`
`Vee or Reg.,
`Metal-to-Metal
`
`30SC
`
`30VM
`
`40VM
`
`Vee or Reg.,
`Metal-to-Metal
`
`Vee or Reg.,
`Metal-to-Metal
`
`Vee or Reg.,
`Metal-to-Metal
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`450
`(232)
`
`450
`(232)
`
`450
`(232)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`600
`(316)
`
`600
`(316)
`
`600
`(316)
`
`-100
`(-73)
`
`-100
`(-73)
`
`-100
`(-73)
`
`600
`(316)
`
`600
`(316)
`
`600
`(316)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`800
`(427)
`
`800
`(427)
`
`800
`(427)
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`600
`(316)
`
`-100
`(-73)
`
`600
`(316)
`
`Vee or Reg.,
`Metal-to-Metal
`
`Vee,
`Metal-to-Metal
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`Vee or Reg.,
`Metal-to-Metal
`
`0
`(-17.8)
`
`450
`(232)
`
`0
`(-17.8)
`
`600
`(316)
`
`-100
`(-73)
`
`600
`(316)
`
`60VM
`
`100VM
`
`15Y
`
`50Y
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`800
`(427)
`
`800
`(427)
`
`800
`(427)
`
`800
`(427)
`
`40
`(4.4)
`
`40
`(4.4)
`
`40
`(4.4)
`
`N/A
`
`230
`(110)
`
`230
`(110)
`
`230
`(110)
`
`N/A
`
`N/A
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`N/A
`
`N/A
`
`600
`(316)
`
`600
`(316)
`
`N/A
`
`N/A
`
`-100
`(-73)
`
`-100
`(-73)
`
`N/A
`
`N/A
`
`600
`(316)
`
`600
`(316)
`
`N/A
`
`N/A
`
`See Page 2
`of Extreme
`Temperature
`Series
`Needle Valve
`for
`information on
`extended
`stuffing box.
`
`Vee or Reg.,
`Metal-to-Metal
`
`10VRMM Micrometering
`
`30VRMM Micrometering
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`450
`(232)
`
`450
`(232)
`
`450
`(232)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`600
`(316)
`
`600
`(316)
`
`600
`(316)
`
`-100
`(-73)
`
`-100
`(-73)
`
`-100
`(-73)
`
`600
`(316)
`
`600
`(316)
`
`600
`(316)
`
`60VRMM Micrometering
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`0
`(-17.8)
`
`800
`(427)
`
`800
`(427)
`
`800
`(427)
`
`800
`(427)
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`N/A
`
`40
`(4.4)
`
`230
`(110)
`
`0
`(-17.8)
`
`600
`(316)
`
`-100
`(-73)
`
`600
`(316)
`
`Caution: While testing has shown O-rings to provide satisfactory
`service life, both cyclic and shelf life may vary widely with differing
`service conditions, properties of reactants, pressure and temperature
`cycling and age of the O-ring. FREQUENT INSPECTION SHOULD BE
`MADE to detect any deterioration, and O-rings replaced as required.
`
`Note:
`1. Optional graphite-yarn packing not recommended for hydrogen or
`helium service.
`2. 40VM, 60VM and 60VRMM valves use Peak/PTFE/Peak for the
`PTFE glass option.
`
`
`3. Compression sleeve-type connections such as Parker Autoclave
`Engineers’ SpeedBite or other swaged or bite-type connections are
`not recommended for service above 650°F (343°C) or below 0°F
`(-17.8°C). For such applications, Parker Autoclave Engineers recom-
`mends its medium pressure components with Parker Autoclave En-
`gineers Medium Pressure coned-and -threaded connections, offering
`excellent thermal cycling capability.
`
`4. Pressure Limitations: Consult factory on 3/4 and 1 inch sizes.
`
`5
`
`All general terms and conditions of sale, including limitations of our liability, apply to all products and services sold.
`
`Page 5 of 16
`
`

`

`Pressure/Temperature Rating Curve: 316 SS & 304 SS
`
`CW Type 316 S.S. Before 800°F (427°C)
`
`This curve illustrates maximum working pressure for
`Type 316 stainless steel tubing, valve and fitting bodies at
`various temperatures to 1200°F (649°C) — expressed as
`a percentage of the R.T. pressure rating of the component.
`Thus a component rated 10,000 psi (690 bar) @ R.T. would
`be rated 9,000 psi (621 bar) @ 600°F (316°C), or 90% of
`its rating.
`
`CW Type 316 S.S. After 800°F (427°C)
`
`100
`(38)
`
`200
`(93)
`
`300
`(149)
`
`400
`(204)
`
`700
`600
`500
`(371)
`(316)
`(260)
`Temperature in °F (°C)
`
`800
`(427)
`
`900
`(482)
`
`1000
`(538)
`
`1100
`(593)
`
`1200
`(649)
`
`100%
`
`90%
`
`80%
`
`70%
`
`60%
`
`50%
`
`40%
`
`30%
`
`20%
`
`10%
`
`0%
`
`0
`
`% of Rated Pressure @ R.T.
`
`Note:
`Curves and ratings presented here are average values for reference only,
`and can be significantly affected by pressure and temperature character-
`istics of trim and packing materials. For unusual pressure/temperature
`requirements, please consult factory for recommended body, trim and
`packing specifications.
`For pressure temperature information on components supplied in materi-
`als other than Type 316 stainless steel, refer to pages 9-10.
`
`Temperature Information Checklist
`
`* Curve is valid for cold-worked Type 316 stainless steel components
`as long as operating temperature does not exceed 800°F (427°C). When
`exceeding this temperature, the cold worked effect is PERMANENTLY
`altered, and the components should be considered as annealed material,
`using 40% of its cold-worked rating for future operation of the compo-
`nents.
`
`-423º to -100ºF
`
`-100º to -0ºF
`
`0º to 650ºF
`
`650º to 800ºF
`
`(-253º to -73ºC)
`
`(-73º to -1.78ºC)
`
`(-17.8º to 343ºC)
`
`(343º to 427ºC)
`
`800º to 1200ºF
`
`(427º to 649ºC)
`
`Compression Type Connections
`
`Not Recommended
`
`Not Recommended
`
`Recommended
`
`Not Recommended
`
`Not Recommended
`
`Compression Type Connections with -B Option
`
`Not Recommended
`
`Recommended
`
`Not Required
`
`Not Required
`
`Not Required
`
`Coned and Threaded Connections
`
`Required
`
`Not Recommended
`
`Recommended
`
`Required
`
`Required
`
`Coned and Threaded Connections with -B Option
`
`Not Recommended
`
`Recommended
`
`Not Required
`
`Not Required
`
`Not Required
`
`Extended Stuffing Box
`
`Required (PTFE Packing)*
`
`May Be Required**
`
`May Be Required**
`
`May Be Required**
`
`Required
`(Graphite Yarn Packing)*
`
`† Packing temperature not to exceed 800°F (427°C)
`* Packing temperature not to go below -100°F (-73°C)
`
`** Extended stuffing box required for operation below -100°F (-73°C) and above 450°F
`(232°C) (with PTFE packing) or 600°F (316°C) (with PTFE glass packing).
`
`For prompt service, Parker Autoclave Engineers stocks select products. Consult factory.
`
`6
`
`All general terms and conditions of sale, including limitations of our liability, apply to all products and services sold.
`
`Page 6 of 16
`
`

`

`Technical Information - Material vs. Pressure Rating
`
`Parker Autocalve Engineers Valves, Fittings and Tubing
`Valves & Fittings
`
`Hastelloy
`C276
`11,000 (758)
`11,500 (793)
`7,500 (517)
`5,500 (379)
`9,600 (662)
`7,500 (517)
`5,500 (379)
`10,000 (690)
`10,000 (690)
`10,000 (690)
`
`316CW
`(Std.)
`15,000 (1034)
`15,000 (1034)
`15,000 (1034)
`10,000 (690)
`15,000 (1034)
`15,000 (1034)
`10,000 (690)
`15,000 (1034)
`15,000 (1034)
`15,000 (1034)
`15,000 (1034)
`20,000 (1379)
`
`12,200 (841)
`
`9,300 (641)
`
`Material vs. Pressure Rating - PSI (bar) @ room Temperature*
`Duplex
`Duplex
`Monel
`2205
`2507
`400
`9,900 (683)
`9,900 (683)
`6,300 (434)
`4,600 (317)
`6,300 (434)
`6,300 (434)
`4,600 (317)
`6,600 (455)
`6,600 (455)
`6,600 (455)
`
`Inconel 600
`
`Inconel 625
`
`Incoloy 825
`
`11,000 (758)
`11,500 (793)
`7,500 (517)
`5,500 (379)
`7,700 (531)
`7,500 (517)
`5,500 (379)
`9,300 (641)
`9,300 (641)
`9,300 (641)
`
`11,000 (758)
`11,500 (793)
`7,500 (517)
`5,500 (379)
`12,500 (862)
`7,500 (517)
`5,500 (379)
`10,000 (690)
`10,000 (690)
`10,000 (690)
`10,000 (690)
`15,000 (1034)
`
`11,000 (758)
`11,500 (793)
`7,500 (517)
`5,500 (379)
`7,700 (531)
`7,500 (517)
`5,500 (379)
`9,300 (641)
`9,300 (641)
`9,300 (641)
`8,000 (552)
`9,300 (641)
`
`10,000 (690)
`10,000 (690)
`10,000 (690)
`10,000 (690)
`15,000 (1034)
`
`15,000 (1034)
`15,000 (1034)
`15,000 (1034)
`15,000 (1034)
`20,000 (1379)
`
`Titanium
`Gr2
`7,500 (517)
`7,500 (517)
`4,800 (331)
`3,400 (234)
`4,800 (331)
`4,800 (331)
`3,400 (234)
`6,600 (455)
`6,600 (455)
`6,600 (455)
`
`25-4SMO
`
`10,000 (690)
`10,000 (690)
`10,000 (690)
`10,000 (690)
`12,000 (827)
`
`6,600 (455)
`
`6,600 (455)
`
`20,000 (1379)
`
`12,200 (841)
`
`9,300 (641)
`
`15,000 (1034)
`
`9,300 (641)
`
`15,000 (1034)
`
`20,000 (1379)
`
`6,600 (455)
`
`6,600 (455)
`
`12,000 (827)
`
`20,000 (1379)
`20,000 (1379)
`20,000 (1379)
`30,000 (2068)
`43,000 (2965)
`40,000 (2758)
`30,000 (2068)
`30,000 (2068)
`30,000 (2068)
`40,000 (2758)
`60,000 (4137)
`60,000 (4137)
`60,000 (4137)
`
`12,200 (841)
`12,200 (841)
`12,200 (841)
`
`22,400 (1544)
`22,400 (1544)
`22,400 (1544)
`23,000 (1586)
`35,900 (2475)
`35,900 (2475)
`35,900 (2475)
`
`17,300 (1193)
`17,300 (1193)
`17,300 (1193)
`18,400 (1269)
`27,700 (1910)
`27,700 (1910)
`27,700 (1910)
`
`15,000 (1034)
`15,000 (1034)
`15,000 (1034)
`26,000 (1793)
`27,000 (1862)
`
`22,500 (1551)
`22,500 (1551)
`22,500 (1551)
`26,000 (1793)
`35,900 (2475)
`35,900 (2475)
`35,900 (2475)
`
`15,000 (1034)
`15,000 (1034)
`
`16,500 (1138)
`16,500 (1138)
`16,500 (1138)
`15,000 (1034)
`20,000 (1379)
`20,000 (1379)
`20,000 (1379)
`
`6,600 (455)
`
`15,000 (1034)
`15,000 (1034)
`15,000 (1034)
`28,000 (1931)
`29,000 (2000)
`
`20,000 (1379)
`20,000 (1379)
`20,000 (1379)
`30,000 (2068)
`39,000 (2689)
`
`22,500 (1551)
`22,500 (1551)
`22,500 (1551)
`28,000 (1931)
`38,000 (2620)
`38,000 (2620)
`38,000 (2620)
`
`30,000 (2068)
`30,000 (2068)
`30,000 (2068)
`38,000 (2620)
`52,000 (3585)
`52,000 (3585)
`52,000 (3585)
`
`13,000 (896)
`13,000 (896)
`13,000 (896)
`13,800 (951)
`20,800 (1434)
`20,800 (1434)
`20,800 (1434)
`
`15,200 (1048)
`15,200 (1048)
`15,200 (1048)
`16,200 (1117)
`24,300 (1675)
`24,300 (1675)
`24,300 (1675)
`
`12,000 (827)
`12,000 (827)
`12,000 (827)
`19,000 (1310)
`21,000 (1448)
`
`20,000 (1379)
`20,000 (1379)
`20,000 (1379)
`21,000 (1448)
`28,500 (1965)
`28,500 (1965)
`28,500 (1965)
`
`Tubing, connection type and/or packing material may limit maximum temperature rating.
`See pages 5 and 6 for further temperature limitations.
`
`Material vs. Pressure Rating psi (bar) @ Room Temperature ††*
`
`Valves
`Series
`
`Connection
`Type
`
`10V
`
`SW
`
`15SM
`
`20SM
`
`30SC
`43SC
`40SC
`
`30VM
`
`40VM
`
`60VM
`
`W125
`W250
`W375
`SW500
`SW250
`SW375
`SW500
`SF562CX10
`SF750CX10
`SF1000CX10
`SF1500CX
`SF250CX
`SF375CX
`SF562CX20
`SF750CX20
`SF1000CX20
`F1000C43
`F1000C43
`40F562C-312
`F250C
`F375C
`F562C
`F562C40
`F250C
`F375C
`F562C
`
`Tube
`Size
`(in)
`1/8
`1/4
`3/8
`1/2
`1/4
`3/8
`1/2
`9/16
`3/4
`1
`1-1/2
`1/4
`3/8
`9/16
`3/4
`1
`1
`1
`9/16
`1/4
`3/8
`9/16
`9/16
`1/4
`3/8
`9/16
`
`Valve
`Series
`
`Low Pressure
`
`* For ratings at elevated temperatures see P/T Rating Curves on pages 9 and 10.
`uUse 10SM Series
`Note: Hastelloy C276 values for SW are based on the valve ratings.
`Tubing (Seamless) - Low Pressure**
`Tubing Size
`Outside x Inside
`Diameter
`Inches (mm)
`1/16 x 0.026
`(1.59 x 0.66)
`1/8 x 0.052
`(3.19 x 1.32)
`1/8 x 0.062
`(3.19 x 1.57)
`1/8 x 0.069
`(3.19 x 1.75)
`1/8 x 0.085
`(3.19 x 2.16)
`1/4 x 0.125
`(6.35 x 3.18)
`1/4 x 0.180
`(6.35 x 4.57)
`1/4 x 0.194
`(6.35 x 4.93)
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`Tubing (Seamless) - Low Pressure, continued on page 8
`
`316ANLD
`
`Hastelloy C276
`
`15,000
`(1034.20)
`15,000
`(1034.20)
`11,650
`(803.23)
`9,950
`(686.02)
`6,850
`(472.28)
`11,650
`(803.23)
`5,450
`(375.76)
`4,600
`(317.15)
`
`15,000
`(1034.20)
`15,000
`(1034.20)
`14,000
`(965)
`11,000
`(758.41)
`7,750
`(534.34)
`11,500
`(792.88)
`6,650
`(458.49)
`5,200
`(358.52)
`
`Inconel 600
`
`Inconel 625
`
`15,000
`(1034.20)
`15,000
`(1034.20)
`11,000
`(758.41)
`10,600
`(730.83)
`7,300
`(503.31)
`11,500
`(792.88)
`6,300
`(434.36)
`4,900
`(337.84)
`
`15,000
`(1034.20)
`15,000
`(1034.20)
`11,650
`(803.23)
`11,500
`(792.88)
`10,000
`(689.46)
`12,500
`(861.83)
`9,000
`(620.52)
`7,200
`(496.41)
`
`Monel 400
`11,500
`(792.88)
`12,000
`(827.36)
`9,900
`(682.57)
`9,300
`(641.26)
`6,400
`(441.26)
`9,900
`(682.57)
`5,500
`(379.21)
`4,300
`(296.47)
`
`Nickel 200
`
`Titanium Gr2
`
`7,100
`(489.52
`7,200
`(496.41)
`6,000
`(413.68)
`5,300
`(365.42)
`3,650
`(251.65)
`6,000
`(413.68)
`3,150
`(217.18)
`2,450
`(168.92)
`
`11,500
`(792.88
`12,000
`(827.36)
`7,500
`(517.10)
`6,650
`(458.49)
`4,450
`(306.81)
`7,500
`(517.10)
`3,900
`(268.89)
`3,050
`(210.29)
`
`†† The tubing pressure rating in some instances is lower than the rating of the valve and
`fitting. Tubing connection type and/or packing material may limit maximum temperature
`rating. See pages 5 & 6 for further temperature limitations.
`
`* For ratings at elevated temperatures see P/T Rating Curves on pages 9 & 10.
`** Except Hastelloy C276 which is welded and drawn or seamless.
`
`7
`
`All general terms and conditions of sale, including limitations of our liability, apply to all products and services sold.
`
`Page 7 of 16
`
`

`

`Material vs. Pressure Rating psi (bar) @ Room Temperature ††*
`
`Inconel 600
`
`10,000
`(689.46)
`7,500
`(517.10)
`5,800
`(399.89)
`4,000
`(275.79)
`N/A
`
`5,500
`(379.21)
`4,250
`(293.02)
`
`Inconel 625
`7,500
`(517.10)
`7,500
`(517.10)
`7,500
`(517.10)
`5,000
`(344.73)
`N/A
`
`5,500
`(379.21)
`5,000
`(344.73)
`
`Monel 400
`
`Nickel 200
`
`Titanium Gr2
`
`8,800
`(606.73)
`6,300
`(434.36)
`5,100
`(351.63)
`3,500
`(241.31)
`N/A
`
`4,600
`(317.15)
`3,700
`(255.10)
`
`5,300
`(365.42)
`3,800
`(262.00)
`2,900
`(199.942)
`2,100
`(144.79)
`N/A
`
`2,700
`(186.16)
`2,100
`(144.79)
`
`6,600
`(455.05)
`4,800
`(330.94)
`3,600
`(248.21)
`2,500
`(172.37)
`N/A
`
`3,450
`(237.87)
`2,650
`(182.71)
`
`Tubing (Seamless) - Low Pressure** - continued
`Tubing Size
`Outside x Inside
`Diameter
`Inches (mm)
`3/8 x 0.195
`(9.53 x 4.95)
`3/8 x 0.250
`(9.53 x 6.35)
`3/8 x 0.277
`(9.53 x 7.04)
`3/8 x 0.305
`(9.53 x 7.75)
`1/2 x 0.270
`(12.70 x 6.86)
`1/2 x 0.375
`(12.70 x 9.53)
`1/2 x 0.402
`(12.70 x 10.21)
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`
`Valve
`Series
`
`Low Pressure
`
`316ANLD
`
`Hastelloy C276
`
`10,000
`(689.46)
`7,500
`(517.10)
`5,450
`(375.76)
`3,800
`(262.00)
`10,000
`(689.46)
`5,500
`(379.21)
`4,000
`(275.79)
`
`10,000
`(689.46)
`7,500
`517.10)
`6,150
`(424.02)
`4,250
`(293.02)
`N/A
`
`5,500
`(379.21)
`4,500
`(310.26)
`
`†† The tubing pressure rating in some instances is lower than the rating of the valve and
`fitting. Tubing connection type and/or packing material may limit maximum temperature
`rating. See pages 5 & 6 for further temperature limitations.
`
`* For ratings at elevated temperatures see P/T Rating Curves on pages 9 & 10.
`** Except Hastelloy C276 which is welded and drawn or seamless.
`
`Tubing
`Series
`
`Material vs. Pressure Rating - PSI (bar) @ room Temperature††*
`
`316CW
`
`317CW
`
`Hastelloy
`C276
`
`Inconel
`600
`
`20,000
`(1379)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`8,450
`(583)
`
`Inconel
`625
`
`15,000
`(1034)
`
`Incoloy
`825
`
`9,300
`(641)
`
`9,300
`(641)
`
`Duplex
`2205
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`Duplex
`2507
`
`20,000
`(1379)
`
`20,000
`(1379)
`
`Monel
`400
`
`6,600
`(455)
`
`6,600
`(455)
`
`Titanium
`Gr2
`
`25-4SMO
`
`6,600
`(455)
`
`6,600
`(455)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`10,000
` (690)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`20,000
`(1379)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`20,000
`(1379)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`10,000
`(690)
`
`15,000
`(1034)
`
`10,000
`(690)
`
`8,450
`(583)
`
`8,450
`(583)
`
`5,175
`(357)
`
`8,450
`(583)
`
`5,175
`(357)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`12,000
`(827)
`
`15,000
`(1034)
`
`12,000
` (827)
`
`9,300
`(641)
`
`7,000
`(483)
`
`9,300
`(641)
`
`7,000
`(483)
`
`15,000
`(1034)
`
`10,000
`(690)
`
`15,000
`(1034)
`
`10,000
` (690)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`6,600
`(455)
`
`4,150
`(286)
`
`6,600
`(455)
`
`4,150
`(286)
`
`6,600
`(455)
`
`5,925
`(409)
`
`6,600
`(455)
`
`5,925
`(409)
`
`Medium Pressure
`
`Tubing (Seamless) - Medium Pressure
`Tubing Size
`Outside x Inside
`Diameter
`inches (mm)
`1/4 x .109
`(6.35 x 2.77)
`3/8 x .203
`(9.53 x 5.16)
`9/16 x .312
`(14.29 x 7.92)
`9/16 x .359
`(14.29 x 9.12)
`3/4 x .438
`(19.05 x 11.13)
`3/4 x .516
`(19.05 x 13.11)
`1.00 x .562
`(25.40 x 14.27)
`1.00 x .688
`(25.40 x 17.48)
`1-1/2 x .937
`(38.10 x 23.80)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`10,000
`(690)
`
`8,450
`(583)
`
`5,175
`(357)
`
`15,000
`(1034)
`
`12,000
` (827)
`
`10,000
`(690)
`
`9,300
`(641)
`
`7,000
`(483)
`
`7,000
`(483)
`
`15,000
`(1034)
`
`10,000
` (690)
`
`10,000
`(690)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`6,600
`(455)
`
`4,150
`(286)
`
`6,600
`(455)
`
`5,925
`(409)
`
`10,000
`(690)
`
`12,500
` (862)
`
`Tubing
`Series
`
`316CW
`
`317CW
`
`Material vs. Pressure Rating - PSI (bar) @ room Temperature††*
`
`Hastelloy
`C276
`
`Inconel
`600
`
`30,000
`(1935)
`
`21,300
`(1469)
`
`Inconel
`625
`
`35,900
`(2475)
`
`Incoloy
`825
`
`20,000
`(1379)
`
`Duplex
`2205
`
`38,000
`(2620)
`
`Duplex
`2507
`
`52,000
`(3585)
`
`Monel
`400
`
`17,025
`(1174)
`
`Titanium
`Gr2
`
`25-4SMO
`
`24,300
`(1675)
`
`28,500
`(1965)
`
`Tubing (Seamless) - High Pressure
`Tubing Size
`Outside x Inside
`Diameter
`inches (mm)
`1/4 x .083
`(6.35 x 2.11)
`3/8 x .125
`(9.53 x 3.18)
`9/16 x .188
`(14.29 x 4.78)
`9/16 x .250
`(14.29 x 6.35)
`1.00 x .438
`(25.40 x 11.13)
`
`60,000
`(4137)
`
`60,000
`(4137)
`
`60,000
`(4137)
`
`40,000
`(2758)
`
`43,000
`(2965)
`
`High Pressure
`
`60,000
`(4137)
`
`60,000
`(4137)
`
`60,000
`(4137)
`
`40,000
`(2758)
`
`43,000
`(2965)
`
`30,000
`(1935)
`
`30,000
`(1935)
`
`23,000
`(1483)
`
`23,000
`(1483)
`
`21,300
`(1469)
`
`21,300
`(1469)
`
`15,400
`(1062)
`
`15,900
`(1096)
`
`35,900
`(2475)
`
`35,900
`(2475)
`
`26,000
`(1793)
`
`27,000
`(1862)
`
`20,000
`(1379)
`
`20,000
`(1379)
`
`15,000
`(1034)
`
`15,000
`(1034)
`
`38,000
`(2620)
`
`38,000
`(2620)
`
`28,000
`(1931)
`
`29,000
`(1999)
`
`52,000
`(3585)
`
`52,000
`(3585)
`
`38,000
`(2620)
`
`39,000
`(2689)
`
`17,025
`(1174)
`
`17,025
`(1174)
`
`11,000
`(759)
`
`11,300
`(779)
`
`24,300
`(1675)
`
`24,300
`(1675)
`
`17,600
`(1213)
`
`18,200
`(1255)
`
`28,500
`(1965)
`
`28,500
`(1965)
`
`21,000
` (1448)
`
`21,000
` (1448)
`
`†† The tubing pressure rating in some instances is lower than the rating of the valve and
`fitting. Tubing connection type and/or packing material may limit maximum temperature
`rating. See pages 5 & 6 for further temperature limitations.
`
`* For ratings at elevated temperatures see P/T Rating Curves on pages 9 & 10.
`
`8
`
`All general terms and conditions of sale, including limitations of our liability, apply to all products and