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Product Engineering Reference

Threaded Flanges

A comprehensive engineering reference for EPC contractors, piping engineers, procurement heads and TPI agencies — covering threaded flange types, thread forms, pressure-temperature ratings, dimensional standards, facing types, material grades, surface treatments and full project documentation requirements.

ASME B16.5 / B16.47 EN 1092-1 ½" – 4" NPS (ASME Threaded) Class 150 – 2500 NPT · BSPT · BSPP EN 10204 3.1 / 3.2 MTC

500+

SKUs in Stock

½"–4"

NPS Range (ASME Thread)

Cl.150–2500

Pressure Classes

NPT/BSPT/BSPP

Thread Standards

12+

Material Grades

48 hr

Express Dispatch

Part 01

Threaded Flange Types, Thread Forms
& Engineering Selection Principles

Part 01 — Types, Thread Forms & Engineering Selection

Threaded Flange Classifications · ASME B16.5 · EN 1092-1
NPT · BSPT · BSPP · RF · FF · RTJ · Class 150–2500

Threaded Flange · ASME B16.5 · EN 1092-1 · NPT · BSPT · BSPP · Raised Face · Flat Face · Ring Type Joint · Class 150 · Class 300 · Class 600 · Class 900 · Class 1500 · PN16 · PN40 · PN100 ·

Definition and Engineering Function

A threaded flange (also called a screwed flange) is a pipe flange with a tapered or parallel internal thread bore that allows it to be screwed directly onto the end of a threaded pipe or fitting — without requiring welding to the pipe. The flange face then bolts to a mating flange in the standard manner using stud bolts, hex bolts, a gasket and nuts. This two-stage connection (screwed onto pipe + bolted to mating flange) is the defining engineering characteristic of the threaded flange and distinguishes it from weld neck, slip-on and socket weld flanges which all require welding to the pipe.

The threaded flange is specified in process piping wherever welding to the pipe is impractical, prohibited, or uneconomical: in non-weld zones (atmospheric areas where hot work permits are difficult to obtain), on galvanised or coated pipe (where welding would destroy the corrosion protection), on field-assembled small-bore instrument connections (where threaded assembly is faster than field welding), and in Class 150 water and utility services (where the low operating pressure makes the mechanical thread engagement sufficient for the service conditions). The threaded flange is limited to relatively small bore sizes (typically NPS ½" to 4" per ASME B16.5) because the taper thread engagement in larger diameters becomes increasingly difficult to make leak-free, and the structural asymmetry of a screwed connection introduces bending loads that are not acceptable in high-pressure piping systems.

Engineering Limitation — Why Threaded Flanges Are Restricted to Low-Pressure Small-Bore

The ASME B16.5 pressure-temperature rating of a threaded flange is the same as the equivalent weld-neck flange at the same material and pressure class — the flange body itself has the same rating. However, ASME B31.3 Process Piping Code restricts threaded flanges to non-severe service (no cyclic loading, no fatigue-sensitive service, no vibration). This is because the thread engagement creates a stress concentration at the thread root and a potential crevice corrosion site at the thread-pipe interface that reduces the long-term fatigue life of the connection below that of a welded joint. Additionally, ASME B16.5 restricts the thread form to NPT (tapered) for pressure-retaining service — parallel (BSPP) threads are not leak-tight without a sealant and are not permitted in pressure service without a qualified sealant system.

Request a Formal Quotation — Threaded Flanges, All Grades & Sizes

ASME B16.5 · Class 150–2500 · A105 / A182 F304/316/F51/F53 / F11/F22 / B564 · EN 10204 3.2 MTC

Thread Forms — NPT, BSPT, and BSPP

NPT — National Pipe Taper

ASME B1.20.1 · 1/16"/ft taper

The standard tapered thread for pressure-retaining threaded flange connections per ASME B16.5. Taper of 1/16" per foot (1:16) on diameter. The taper creates a mechanical seal as the thread engages — the thread form itself provides pressure tightness when PTFE tape or pipe thread compound is applied. Specified for all ASME B31.3 process piping threaded flanges. Sizes 1/8" to 4" NPS.

BSPT — British Standard Pipe Taper

BS EN ISO 7-1 · 1:16 taper

Tapered thread per ISO 7-1 (equivalent to old BS 21 / Rp/Rc designation). Same 1:16 taper ratio as NPT but different thread form (55° Whitworth thread form vs 60° for NPT), different pitch and minor diameter. NOT interchangeable with NPT. Specified on EN 1092-1 flanges and European/Asian threaded flange systems. Also designated Rc (internal taper) and R (external taper).

BSPP — British Standard Pipe Parallel

BS EN ISO 228-1 · Parallel

Parallel (non-tapered) thread per ISO 228-1 (old BS 2779 / G designation). Provides no inherent mechanical seal — relies on a sealing face (O-ring, bonded seal, or PTFE tape on the mating component) for pressure tightness. Permitted in low-pressure hydraulic, pneumatic and water service applications but NOT permitted in ASME B31.3 process piping pressure service without a qualified sealant system. Widely used in hydraulic fittings (BSP port connections) and utility services.

Threaded Flange vs Weld Neck Flange — Engineering Comparison

Threaded Flange No Welding Required

Pipe connectionScrewed NPT / BSPT thread

Welding requiredNone

Hot-work permitNot required

Size range (ASME)1/2" – 4" NPS

Fatigue serviceNot recommended

DisassemblyYes — unscrew

ASME B31.3 serviceNormal service only

Weld Neck Flange

Pipe connectionFull-penetration butt weld

Welding requiredYes — WPS/PQR qualified

Hot-work permitRequired

Size range (ASME)1/2" – 60" NPS

Fatigue serviceYes — full cyclic rating

DisassemblyNo — pipe must be cut

ASME B31.3 serviceAll service categories

Flange Facing Types

Raised Face (RF)

ASME B16.5 · Most Common

The standard facing for the vast majority of ASME B16.5 threaded flanges in Class 150 through Class 2500. The raised face is a 2 mm (Class 150/300) or 7 mm (Class 600 and above) ring raised above the bolt circle, concentrating gasket seating stress. Compatible with spiral wound, flat ring and full-face gaskets depending on service. Serrated concentric or phonographic finish per ASME B16.5 Table 2 (125–250 AARH).

Flat Face (FF)

ASME B16.5 · Class 150/300 only

Flat face extends the full flange face diameter with no raised portion. Used when connecting ASME B16.5 flanges to ASME B16.1 cast iron flanges (which are flat face) or to non-metallic flanges (FRP, plastic). Full-face gasket required — not spiral wound. ASME B16.5 restricts flat-face use to Class 150 and Class 300 flanges only. Never mate a raised-face steel flange against a flat-face cast iron flange without converting both faces.

Ring Type Joint (RTJ)

ASME B16.5 · High-pressure

The flange face has a machined oval or octagonal groove that accepts a soft metal ring gasket (API 6A or ASME B16.20). The ring deforms plastically into the groove on bolt-up, creating an extremely effective pressure seal. Used in Class 900, 1500 and 2500 threaded flanges for high-pressure service (steam, gas, hydrocarbon). RTJ gasket material (soft iron, F304, F316, Monel, Inconel) must be softer than the flange material to deform correctly.

Male / Female (M&F)

ASME B16.5 · Special service

One flange has a raised male face; the mating flange has a corresponding female recess. The gasket is trapped between the male and female faces, preventing gasket blowout under high pressure. Less common than RF or RTJ for threaded flanges; used in specific process applications (acid service, chlorine service) where positive gasket retention is required. Requires matched male and female pairs — not interchangeable with standard RF flanges.

Tongue & Groove (T&G)

ASME B16.5 · Special service

Similar to M&F but the female groove is narrower and deeper — the gasket is fully trapped and centred. Used in very high-pressure / high-temperature applications (HP steam, cryogenic) where the gasket must be positively located and prevented from blowout or inward collapse. Tongue & groove pairs are machined as matched sets and must not be mixed with other facing types.

Large Male / Small Female

ASME B16.5 · Rare

A variant of M&F where the male face diameter equals the pipe OD and the female recess accepts the pipe end directly — used in special jacketed pipe systems and double-walled pipe connections. Rarely used in standard process piping; primarily in specialty chemical and cryogenic piping systems where inner pipe alignment is critical.

Table 1 — Threaded Flange — Engineering Selection Matrix

Thread Form	Standard	Taper	Thread Angle	Pressure Service	Primary Application
NPT	ASME B1.20.1	1:16 (1/16"/ft)	60°	Yes — ASME B31.3	US / international process piping, pressure service
BSPT (Rc/R)	BS EN ISO 7-1	1:16	55°	Yes — with EN codes	European / Asian process piping, EN 1092-1 flanges
BSPP (Rp/G)	BS EN ISO 228-1	None (parallel)	55°	With sealant only	Hydraulic fittings, utility services, instrument connections
PT (Rc) — JIS	JIS B 0203	1:16	55°	Yes — JIS codes	Japanese plant, refinery, offshore — JIS B2220 flanges

Part 02

Dimensional Data, Pressure Classes
& Pressure–Temperature Ratings

Threaded Flange dimensional data ASME B16.5

Part 02 — Dimensional Data, Pressure Classes & P-T Ratings

ASME B16.5 · EN 1092-1 · JIS B2220 · 1/2" – 4" NPS
Class 150–2500 · PN6–PN250 · Bolt Circle · PCD · Face Dia.

NPS 1/2 · 3/4 · 1 · 1-1/2 · 2 · 3 · 4 · Class 150 · Class 300 · Class 600 · Class 900 · Class 1500 · OD · PCD · No. Bolts · Flange Thickness · RF Dia. · PN16 · PN40 · PN100 ·

Sourcing Threaded Flanges for a Project Piping Package?

All pressure classes · NPT / BSPT / BSPP · RF / FF / RTJ · A105 / A182 grades · EN 10204 3.2 MTC

ASME B16.5 Threaded Flange — Class 150 Dimensions

Table 2 — ASME B16.5 Threaded Flange Dimensions: Class 150 (RF facing)

NPS	OD (mm)	PCD (mm)	No. Bolts	Bolt Size	Flange Thick. (mm)	RF Dia. (mm)	Bore (NPT)
1/2"	88.9	60.3	4	1/2" ×1-3/4"	11.2	34.9	1/2" NPT
3/4"	98.4	69.9	4	1/2" ×1-3/4"	12.7	42.9	3/4" NPT
1"	108.0	79.4	4	1/2" ×1-3/4"	14.2	50.8	1" NPT
1-1/4"	117.5	88.9	4	1/2" ×1-3/4"	15.7	63.5	1-1/4" NPT
1-1/2"	127.0	98.4	4	1/2" ×2"	17.5	73.0	1-1/2" NPT
2"	152.4	120.7	4	5/8" ×2-1/2"	19.1	92.1	2" NPT
2-1/2"	177.8	139.7	4	5/8" ×2-1/2"	22.4	104.8	2-1/2" NPT
3"	190.5	152.4	4	5/8" ×2-1/2"	23.9	127.0	3" NPT
4"	228.6	190.5	8	5/8" ×2-1/2"	23.9	157.2	4" NPT

ASME B16.5-2017. All dimensions in mm except bolt sizes (inch). OD = flange outside diameter; PCD = bolt circle diameter; RF Dia. = raised face diameter; Bore (NPT) = thread designation per ASME B1.20.1. Flange thickness measured at the thinnest point of the flange hub. For Class 300 and higher, OD and PCD increase — see ASME B16.5 Tables 9–14.

Pressure–Temperature Ratings — Key Material Groups

Table 3 — ASME B16.5 Pressure–Temperature Ratings: A105 Threaded Flange (Material Group 1.1)

Pressure Class	Rating at 20°C (bar)	Rating at 100°C (bar)	Rating at 200°C (bar)	Rating at 300°C (bar)	Rating at 400°C (bar)	Max Temp (°C)
Class 150	19.6	17.7	15.1	13.4	11.5	538
Class 300	51.1	46.6	39.8	35.1	30.0	538
Class 600	102.1	93.2	79.6	70.2	60.1	538
Class 900	153.2	139.8	119.4	105.3	90.1	538
Class 1500	255.3	232.9	199.0	175.5	150.1	538
Class 2500	425.4	388.1	331.7	292.5	250.2	538

ASME B16.5-2017 Table 2-1.1, Material Group 1.1 (A105, A182 F316, A182 F304 and equivalents). Ratings de-rate with increasing temperature — verify the actual operating temperature against the P-T table for the specific material group before specifying flange class. Threaded flanges in ASME B31.3 normal service are limited in practice to Class 150 for most water/utility services and Class 300–900 for small-bore process connections.

Table 4 — EN 1092-1 Threaded Flange Dimensions — PN 16 (Type 13 Screwed)

DN	NPS Equiv.	OD (mm)	PCD (mm)	No. Bolts	Bolt Size	Flange Thick. (mm)	RF Dia. (mm)
DN 15	1/2"	95	65	4	M12	14	45
DN 20	3/4"	105	75	4	M12	16	58
DN 25	1"	115	85	4	M12	16	68
DN 32	1-1/4"	140	100	4	M16	18	78
DN 40	1-1/2"	150	110	4	M16	18	88
DN 50	2"	165	125	4	M16	20	102
DN 65	2-1/2"	185	145	8	M16	22	122
DN 80	3"	200	160	8	M16	24	138
DN 100	4"	220	180	8	M16	24	158

EN 1092-1:2018 Type 13 (Screwed Flange), PN 16. Thread bore per EN 10226-1 (BSPT) for pressure service or EN ISO 228-1 (BSPP) for hydraulic/utility service. Bolt sizes are metric per EN 1092-1 — compare with ASME B16.5 inch bolts. EN 1092-1 uses DN / PN designation system vs ASME NPS / Class system.

Governing Standards

ASME B16.5 is the primary standard for pipe flanges and flanged fittings from NPS 1/2" through NPS 24", covering threaded flanges in Classes 150 through 2500. It specifies dimensions, tolerances, facing types, pressure-temperature ratings, bolting dimensions and materials. ASME B16.47 covers large-diameter flanges NPS 26" through NPS 60" (threaded flanges are not typically used at these sizes). EN 1092-1 is the European equivalent, covering flanges in DN 10 through DN 4000 at pressure ratings PN 2.5 through PN 400. JIS B2220 is the Japanese standard, widely used in Asian refinery and petrochemical projects. ASME B31.3 governs the design and construction of process piping systems and imposes additional requirements on threaded flange use (non-severe service only). ASME B1.20.1 defines NPT thread dimensions; BS EN ISO 7-1 defines BSPT; BS EN ISO 228-1 defines BSPP.

ASME B16.5 — Class Selection from Operating Conditions Class_required = find pressure class where P_T_rating(class, T_op) ≥ P_op
// P_T_rating from ASME B16.5 Table 2 (material group) at operating temperature T_op
// P_op = design pressure including pressure surges and safety factor per design code

// WORKED EXAMPLE: A105 threaded flange, P_op = 25 bar, T_op = 150°C
// Class 150 rating at 150°C ≈ 16.4 bar → INSUFFICIENT (25 > 16.4)
// Class 300 rating at 150°C ≈ 43.2 bar → SUFFICIENT (25 < 43.2)
Class_selected = Class 300 // Use Class 300 A105 threaded flange for this service

Part 03

Material Grades, Mechanical Properties
& Surface Treatments

Part 03 — Materials, Mechanical Properties & Surface Treatments

A105 · A182 F304/316/F51/F53 · F11/F22 · B564
Galvanised · Painted · Passivated · NACE · Cryogenic

A105 · A182 F304 · F316L · F51 Duplex · F53 Super Duplex · F11 Cr-Mo · F22 Cr-Mo · F60 Duplex · B564 Inconel 625 · B564 Hastelloy C276 · LTCS A350 LF2 · NACE MR0175 · Hot-Dip Galvanise · Primer Paint · Passivation ·

Table 5 — Material Grades: Properties, Temp Range, Corrosion & ASME Material Groups

Grade	ASTM Standard	ASME B16.5 Group	Yield (MPa)	Temp Range (°C)	Corrosion	Key Service
A105	ASTM A105	1.1	250 min	−29 to +538	Low	Standard carbon steel — most common threaded flange material
A350 LF2	ASTM A350	1.1	250 min	−46 to +343	Low	Low-temperature carbon steel — Charpy tested to −46°C
A182 F11	ASTM A182	4	205 min	−29 to +593	Low	1-1/4Cr-1/2Mo — elevated temperature service
A182 F22	ASTM A182	5	205 min	−29 to +649	Low	2-1/4Cr-1Mo — high-temp, hydrogen service
A182 F304	ASTM A182	2.1	205 min	−196 to +816	High	Austenitic SS — general corrosion service
A182 F316L	ASTM A182	2.2	170 min	−196 to +816	Very High	Low-carbon SS — offshore, chloride, chemical
A182 F51 (Duplex)	ASTM A182	3.1	450 min	−50 to +300	Very High	Duplex 2205 — offshore, sour service, seawater
A182 F53 (Super Duplex)	ASTM A182	3.2	550 min	−50 to +280	Extreme	Super duplex — severe sour service, subsea
B564 N06625 (Inconel 625)	ASTM B564	—	276 min	−196 to +980	Extreme	High-temp, acid, chemical, cryogenic service
B564 N10276 (Hastelloy C276)	ASTM B564	—	283 min	−196 to +1038	Extreme	Most corrosive environments — HCl, H₂SO₄, FGD

Material Selection Guidance

A105 — The Default Carbon Steel Grade

ASTM A105 is the standard forgeable carbon steel material for threaded flanges in normal temperature carbon steel service (−29°C to +538°C). It covers all ASME B16.5 pressure classes (150 through 2500) and is compatible with hot-dip galvanising, epoxy coating and primer-paint surface treatments. A105 is the most widely stocked grade worldwide and is the default specification unless service conditions require a different material. For low-temperature carbon steel service below −29°C, ASTM A350 LF2 is required — it is Charpy impact tested to −46°C and is the standard LTCS (low-temperature carbon steel) flange material for LNG, cryogenic utility and cold-climate piping.

A182 F11 and F22 — Alloy Steel for Elevated Temperature

ASTM A182 F11 (1-1/4Cr-1/2Mo) and F22 (2-1/4Cr-1Mo) threaded flanges are specified for elevated temperature service in refinery, power generation and hydrogen service where A105 has insufficient creep resistance above 400°C. F22 is rated to 649°C and is used in high-temperature hydrogen process piping (hydrocracker, reformer) where the Nelson Curves (API RP 941) must be satisfied. F11 and F22 are also required in ASME B31.3 Category M fluid service at elevated temperature. Both grades require PWHT (post-weld heat treatment) if any welding is performed on the assembled piping system.

NACE MR0175 — Threaded Flanges in Sour Service

Threaded flanges in H≶S-containing service must comply with NACE MR0175 / ISO 15156. Carbon steel A105 is typically compliant (hardness ≤22 HRC / 237 HB) but must be verified on each heat/lot — some A105 forgings can exceed NACE limits if improperly heat-treated. Alloy steel A182 F11 and F22 are NACE-compliant at restricted hardness levels (≤22 HRC / 22 HRC respectively, per NACE Part 2). Stainless steel A182 F316L is NACE-compliant per Part 2 without restrictions for austenitic SS. Duplex 2205 (F51) and super duplex (F53) are NACE-compliant within their hardness limits per NACE Part 3. For offshore sour service threaded flanges, EN 10204 3.2 MTC with full cross-section hardness survey, PMI and TPI countersignature are mandatory.

Table 6 — Surface Treatment Options for Threaded Flanges

Finish	Standard	Thickness (µm)	Temp Limit (°C)	Thread Zone	Notes & Application
Plain / Bare	—	—	—	Uncoated	Stainless and alloy steel flanges; carbon steel for immediate installation
Primer paint (rust preventive)	Project spec	25–75	—	Protect or clear	Carbon steel storage protection; applied before dispatch; remove from thread bore and face before installation
Hot-dip galvanise	ASTM A153 Class D	45–86	200	HDG may block thread	Carbon steel threaded flanges for water / utility outdoor service; re-tap NPT bore after galvanising
Epoxy spray coat	BS EN 13438	75–150	120	Protect thread bore	Exterior of carbon steel flanges; internal thread bore must be masked during application
Fusion-bonded epoxy (FBE)	AWWA C550	300–500	80	Bore masked	Water utility threaded flanges; potable water compatible; bore and face masked
Yellow zinc chromate	Project spec	8–20	150	Thin — minimal impact	Temporary protection of machined faces and threads during storage / transit
SS passivation	ASTM A380	N/A	870	Passivated	All stainless and duplex threaded flanges; restores passive oxide film; no dimensional change
Electropolish + passivation	ASTM A967 + A380	−5 to −25 µm	870	Bore electropolished	Food-grade, pharmaceutical, cleanroom SS threaded flanges; Ra ≤ 0.8 µm on bore

Hot-dip galvanising on threaded flanges deposits zinc inside the NPT bore, reducing the effective bore size and potentially blocking thread engagement. NPT threads must be re-tapped after galvanising. Specify "HDG + re-tapped NPT bore" on purchase orders for galvanised threaded flanges. Primer paint applied to flange faces and thread bores must be removed prior to installation — paint on the gasket seating surface or thread bore will cause both gasket seal failures and thread engagement problems.

Part 04

Inspection, QC Protocols, Applications
& Export Documentation

Threaded Flange QC inspection and applications

Part 04 — QC Protocols, Applications & Export Documentation

EN 10204 3.1/3.2 · Thread Gauging · Face Finish
Process Piping · Utility · Instruments · Offshore · Hydraulic

EN 10204 3.1 · 3.2 MTC · ISO 9001:2015 · NPT Thread Gauge · BSPT Gauge · Face Finish AARH · Hardness Survey · PMI · Hydrostatic Test · AQL ISO 2859 · ISPM-15 · Process Piping · Utility · Instrument · Offshore · Hydraulic ·

Inspection and Quality Control

Dimensional Inspection

Threaded flange dimensions are verified per ASME B16.5 Table 9–14 (ASME) or EN 1092-1 (EN) for each heat/lot. Critical dimensions include: outside diameter (OD), bolt circle diameter (PCD), flange thickness, raised face diameter, raised face height, and bore diameter. The flange face finish must be measured by profilometer to confirm surface roughness within ASME B16.5 Table 2 limits: serrated concentric or phonographic finish for RF (125–250 Ra), smooth for RTJ groove walls (≤3.2 Ra), smooth for FF with full-face gaskets. Thread gauge inspection per the relevant thread standard (ASME B1.20.1 for NPT, ISO 7-1 for BSPT, ISO 228-1 for BSPP) must be performed from the thread entry end on each flange — Go/No-Go ring and plug gauges used.

Thread Gauge Inspection — NPT Critical Details

NPT thread gauging for threaded flanges uses a precision taper ring gauge (Go and Not-Go) per ASME B1.20.1. The acceptance criterion for the thread bore is: the large end of the plug gauge must be flush with (or within ±1 turn of) the thread entry face. A threaded flange bore that is cut too shallow produces an NPT thread that projects excessively beyond the pipe, reducing the effective thread engagement length. A bore cut too deep produces insufficient projection, meaning the pipe and flange thread do not engage over the required minimum length. Both conditions cause premature joint leakage under pressure cycling or temperature change. For Class 600 and above threaded flanges, NPT thread gauging must be performed 100% per unit (not just sampled) for safety-critical piping service.

Hardness and PMI

Hardness testing (Brinell HB per ASTM E10 or Vickers HV per ISO 6507) is performed on each heat/lot for all alloy and stainless grades. For NACE sour service flanges, hardness must be verified ≤22 HRC (237 HB) on the flange body and on the threaded bore section specifically — thread cutting can locally work-harden the bore surface above NACE limits. PMI (Positive Material Identification) by XRF or OES spectrometry is performed 100% on all stainless, duplex, super duplex, Inconel and Hastelloy threaded flanges to confirm alloy identity.

Hydrostatic Testing

Shell pressure testing (hydrostatic) of threaded flanges is performed per ASME B16.5 Paragraph 8.2 when specified by the purchaser. The test pressure is 1.5× the Class 150 rating at ambient temperature (or for higher classes, 1.5× the class rating at ambient temperature). The test is applied with the NPT bore plugged or with a test pipe stub threaded in. Hydrostatic testing is not routinely performed on stock flanges but is mandatory for project supply when called for in the purchase order or Piping Material Specification (PMS/MDS).

Applications by Industry

Process Piping — Small-Bore Instrument and Utility Connections

Threaded flanges are the standard terminal fitting for small-bore (NPS 1/2" to 2") instrument take-off connections, pressure gauge tappings, thermometer wells, chemical injection points, drain and vent connections on process vessels and piping. The threaded flange screws directly onto the instrument nipple or threaded pipe stub without welding, allowing instrument connections to be made, changed, or re-routed without hot work. In refinery and petrochemical plants, Class 300 or Class 600 A105 threaded flanges with NPT bore are the standard for all normal-service instrument connections; Class 900 for high-pressure services.

Utility and Water Service — Non-Welded Connections

Class 150 A105 HDG threaded flanges are the standard for above-ground water mains connections, fire water system instrument take-offs, cooling water system vents and drains, and general utility piping connections where welding is not economical or not permitted (galvanised piping systems, systems containing combustibles or oxygen). The low operating pressure of water utility service (typically 10–15 bar maximum) is well within the Class 150 rating (19.6 bar at 20°C for A105). NPT thread connection with PTFE tape or pipe thread compound provides a reliable leak-free joint at these pressure and temperature conditions.

Offshore Platform — Instrument and Chemical Injection

On offshore platforms, stainless steel 316L (A182 F316L) and duplex 2205 (A182 F51) threaded flanges with NPT bore and raised face are used for chemical injection quill connections, methanol injection points, corrosion inhibitor injection flanges and small-bore process sampling connections. The no-weld installation eliminates hot-work permit requirements in Zone 1/Zone 2 hazardous areas, making threaded flanges the preferred terminal fitting for chemical injection and sampling systems on operating platforms. EN 10204 3.2 MTC, PMI, NACE hardness compliance and TPI countersignature are standard offshore project requirements.

Hydraulic and Pneumatic Systems

Threaded flanges with BSPP bore (G-thread per ISO 228-1) are used extensively in hydraulic power unit manifold connections, pneumatic control panel connections and instrumentation tubing terminations. These are not pressure-rated service applications in the ASME B31.3 sense — they are below the code pressure threshold — and the parallel BSPP thread with an O-ring or DOWTY seal face provides a reliable, easily assembled connection for hydraulic and pneumatic service at moderate pressures. Hydraulic system flanges per SAE J518 and ISO 6162 use a different standard (O-ring face seal) and are distinct from process pipe threaded flanges.

Food, Pharmaceutical and Chemical Plant

Electropolished stainless steel 316L threaded flanges (A182 F316L) with passivation per ASTM A380 and BSPP bore are used in food processing and pharmaceutical plant for connecting sample valves, CIP (Clean-In-Place) connection points, sight glasses and small-bore flow measurement instruments. The electropolished bore surface (Ra ≤ 0.8 µm) and threaded connection eliminate crevices and allow full CIP cleaning of the bore. 3-A Sanitary Standards and EHEDG guidelines specify surface finish and material requirements for food-contact flanges.

Export Packaging and Preservation

Threaded flanges packed individually in heat-sealed polypropylene bags or bubble wrap sleeves; each bag labelled with PO number, standard (ASME B16.5 / EN 1092-1), NPS/DN, pressure class, material grade, thread form (NPT/BSPT/BSPP), facing type (RF/FF/RTJ), heat/lot number and quantity
Flanges faces (gasket contact surfaces) protected with cardboard or foam inserts; protectors must prevent damage to the precision-machined serrated finish (AARH 125–250) which is critical for gasket sealing
Thread bore sealed with PVC threaded plugs before packaging to prevent contamination of NPT threads during transit and storage
RTJ groove flanges must have individual ring groove protective inserts to prevent damage to the precision-machined oval/octagonal groove profile during transit
Bags packed in double-wall corrugated cartons with foam void fill; cartons on ISPM-15 heat-treated timber pallets with stretch wrap and steel strapping for export
MTC, dimensional inspection report (OD, PCD, flange thickness, RF height), thread gauge certificate (NPT/BSPT/BSPP), face finish report, hardness survey, PMI (for alloy/SS/duplex), hydrostatic test report (if specified), all project documents in waterproof sealed envelope attached to crate exterior

EPC Project Documentation Package — Threaded Flanges (13 Documents)

#	Document	Standard / Reference	Minimum Requirement
01	Material Test Certificate (MTC)	EN 10204 3.1 / 3.2	3.2 for offshore / NACE / high-temperature / safety-critical service
02	Dimensional Inspection Report	ASME B16.5 / EN 1092-1	AQL 1.0 per ISO 2859; OD, PCD, thickness, RF height, bore as mandatory chars
03	Thread Gauge Certificate	ASME B1.20.1 / ISO 7-1 / ISO 228-1	Go/No-Go ring gauge per heat lot; 100% for Class 600+ safety-critical service
04	Face Finish Report	ASME B16.5 Table 2 / project spec	Profilometer Ra — 125–250 AARH for RF; ≤3.2 Ra for RTJ groove; stated per lot
05	Hardness Test Report	ASTM E10 / ISO 6507	Per heat/lot; cross-section mapping for NACE sour service flanges
06	PMI Report (XRF / OES)	Project specification	100% of SS, duplex, super duplex, Inconel, Hastelloy threaded flanges
07	Chemical Analysis Report	ASTM A105 / A182 / A350	Included in MTC — verify against grade limits incl. CE for weldable grades
08	Charpy Impact Test Report	ASTM A350 / project spec	Mandatory for LTCS A350 LF2; specified for low-temp service below −29°C
09	Hydrostatic Test Report	ASME B16.5 Para.8.2	When specified in PO or PMS/MDS; 1.5× class pressure at ambient
10	Heat Treatment Certificate	ASTM A105 / A182 / A350	Required for F11, F22 and Q&T grades; normalise and temper for A105 if specified
11	Surface Coating Certificate	ASTM A153 / A380 / A967	Required for all coated finishes; HDG re-tapped bore verification stated
12	ISO 9001 Manufacturer Certificate	ISO 9001:2015	Current; scope must include flanges and forged fittings manufacture
13	ISPM-15 Phytosanitary Certificate	IPPC / FAO	All wood packing for international export

Manufacturer Capability — RR Hydraulics

RR Hydraulics manufactures and exports threaded flanges to ASME B16.5, EN 1092-1 and JIS B2220 in all pressure classes (Class 150 through Class 2500, PN 6 through PN 400) across the full material range: A105, A350 LF2, A182 F11/F22, A182 F304/F304L/F316/F316L, A182 F51/F53/F60, B564 Inconel 625, Hastelloy C276 and titanium. Thread forms: NPT, BSPT, BSPP, PT (JIS). Facing types: RF, FF, RTJ. Full EN 10204 3.1/3.2 MTC, thread gauge certificates, face finish reports, PMI, Charpy impact, hydrostatic test, NACE hardness mapping and TPI witness by BV/DNV/Lloyds/SGS/TÜV. 48-hour express dispatch on standard in-stock sizes.

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