Barred Tee manufacturer in India

Searching for pipeline barred tee manufacturers? Barred Tee Fitting in Carbon, Mild, and Alloy Steel is something we produce


What Is Barred Tee?
A barred tee is a unique kind of shirt that is essentially based on a regular tee. Bar plates are afterwards added to the inner side of the branch outlet of a barred tee, which can be either an equal or reducing tee. It looks like a steel cage when viewed from within. The bar is likewise formed of material that is similar to the parent material.
The bars are essentially attached to the inside of the tee, therefore their dimensions must be precise enough to complete the job without impairing the tee's movement. Depending on the flow velocity of the tee's branching connection, they should also be able to stop the breakage.
The Barred Tee has one inlet that is 90 degrees from the main line, just as conventional tee fittings. It has little perforations. They aid in joining several pipes and fittings together and are either manufactured or extruded. In pigged pipelines, they are employed.

What Is Stainless Steel Barred Tee Used For?
Pig flow from the header to the branch pipe is constrained in part by the stainless steel barred tee. In essence, the bars in the barred tee are installed so that they can be flush with the inner diameter of the pipeline and prevent the pig from hanging up while it is passing through.

Difference Between Flow And Barred Tee
The fluid can enter through the input of the flow tee from the main pipe and then branch off. These branches may be the same size as the main pipe or smaller. A regular tee serves as the foundation for the barred tee. Later, on the inner side of the branch outlet, bar plates are attached to these tees. In essence, it prevents pig from moving from header pipe to branch pipe.

What Is Barred Tee Fitting Design Standard
The barred tee does not have any international standard. It takes the base from normal tee, and hence is custom made using the normal tee standard, which is ASME B16.9 or MSS-SP 75. However, some barred tees were developed based on the standards Shell DEP 31.40.10.13-Gen or ISO 15590-2.

Barred Tees Manufacturing Process
The manufacturing process for barred tees begins with the same steps as for regular tees, after which a bar plate is welded to the interior of the fitting.

Barred Tee manufacturer in India

Barred Tee manufacturer in India

Manufacturers of ASTM A860 Equal Barred Tee and Fast & Reliable Carbon Steel Scrapper Tee in India


Type Barred Tee (butt welded)
WELDING BEVEL According to ASME B.16.25
Sizes By Manufacturer 1/2" - 42" (larger sizes on applications)
Wall Thickness 4mm – 80mm / SCH20, SCH5, SCH10, SCH30, STD, SCH140, SCH80, XS, SCH80, SCH40, SCH120, SCH160, SCH60, XXS
Dimension ANSI B16.9, ANSI B16.28, MSS-SP-43 Type A, MSS-SP-43 Type B, JIS B2312, JIS B2313 Barred Tees
Applications & uses Pipeline repair and new installation operations – shallow water, diver assist

Mumbai's largest Barred Tee Fitting distributor, dealers, wholesalers, supplier, importer, stocks, exporters, stockists, and manufacturer

  • Hot pressing
  • Cold extrusion
  • Hot pushing
  • Molding
Barred Tee Fitting Price Per Piece in India Scrapper Tees Price in INR Equal Barred Tees Price in UAE Dirham Barred Tees Price in USD
4X3 TEES RDC QLF PSX.JF-16 BAR Per Piece 18,334 UAE Dirham 906.21 $246.75
3X1 TEES RDC QLF PSX.JF-16BAR Per Piece 15,861 UAE Dirham 783.98 $213.45

Before buying, compare our price to other Barred Tee manufacturers in India. The cost of carbon steel barred tees in India is approximately this. Please feel free to contact us for the most recent Mumbai stocklist of barred pipe tees.

Widest assortment of ASTM A234 WPB Barred Tee Pipeline and Alloy Steel Sphere Barred Tee are offered by KNPC-approved Galvanized Weldbend Barred Tee manufacturers in India in Mumbai.

Carbon Steel ASTM A234 WPB / A420 WPL3/ A420 WPL6/ MSS-SP-75 WPHY 42/46/52/56/60/65/70
Stainless Steel SS 304/ 304L/ 304H/ 316/ 316L/ 317/ 317L/ 321/ 310/ 347/ 904L
Alloy Steel ASTM A182 F11, F5, F12, F9, F22, F91
Titanium Titanium Gr. 4, Titanium Gr. 1, Titanium Gr. 5, Titanium Gr. 2, Titanium Gr. 7
Copper Nickel Cupro Nickel 70/30 (C71500), Copper Nickel 90/10 (C70600 )
Alloy 20 Carpenter® 20 Alloy, Alloy 20Cb-3
Aluminium 6061/ 5052 / 2017 / 6063 / 7075 / etc.
Duplex and Super Duplex ASTM A815, ASME SA815 UNS NO S31803, S32205. Werkstoff No. 1.4462
254 Smo ASTM A182 / ASME SA182, SMO 254/6Mo, UNS S31254, DIN 1.4547
Nominal Pipe Size Outside diameter
at bevel
Center-to-End
Run Outlet Run Outlet Run (C) Outlet (M)
1/2" 1/4"
3/8"
21.3 13.7
17.3
25 25
3/4" 3/8"
1/2"
26.7 17.3
21.3
29 29
1" 1/2"
3/4"
33.4 21.3
26.7
38 38
1 1/4" 1/2"
3/4"
1"
42.2 21.3
26.7
33.4
48 48
1 1/2" 1/2"
3/4"
1"
1 1/4"
48.3 21.3
26.7
33.4
42.2
57 57
2" 3/4"
1"
1 1/4"
1 1/2"
60.3 26.7
33.4
42.2
48.3
64 44
51
57
60
2 1/2" 1"
1 1/4"
1 1/2"
2"
73.0 33.4
42.2
48.3
60.3
76 57
64
67
70
3" 1 1/4"
1 1/2"
2"
2 1/2"
88.9 42.2
48.3
60.3
73.0
86 70
73
76
83
3 1/2" 1 1/2"
2"
2 1/2"
3"
101.6 48.3
60.3
73.0
88.9
95 79
83
89
92
4" 1 1/2"
2"
2 1/2"
3"
3 1/2"
114.3 48.3
60.3
73.0
88.9
101.6
105 86
89
95
98
102
5" 2"
2 1/2"
3"
3 1/2"
4"
141.3 60.3
73.0
88.9
101.6
114.3
124 105
108
111
114
117
6" 2 1/2"
3"
3 1/2"
4"
5
168.3 73.0
88.9
101.6
114.3
141.3
143 121
124
127
130
137
8" 3 1/2"
4"
5"
6"
219.1 101.6
114.3
141.3
168.3
178 152
156
162
168
10" 4"
5"
6"
8"
273.0 114.3
141.3
168.3
219.1
216 184
191
194
203
12" 5"
6"
8"
10"
323.8 141.3
168.3
219.1
273.0
254 216
219
229
241
14" 6"
8"
10"
12"
355.6 168.3
219.1
273.0
323.8
279 238
248
257
270
16" 6"
8"
10"
12"
14"
406.4 168.3
219.1
273.0
323.8
355.6
305 264
273
283
295
305
18" 8"
10"
12"
14"
16"
457.0 219.1
273.0
323.8
355.6
406.4
343 298
308
321
330
330
20" 8"
10"
12"
14"
16"
18"
508.0 219.1
273.0
323.8
355.6
406.4
457.0
381 324
333
346
356
356
368
22" 10"
12"
14"
16"
18"
20"
559.0 273.0
323.8
355.6
406.4
457.0
508.0
419 359
371
381
381
394
406
24" 10"
12"
14"
16"
18"
20"
22"
610.0 273.0
323.8
355.6
406.4
457.0
508.0
559.0
432 384
397
406
406
419
432
432
NPS LBS KG
1/2 0.45 0.2
3/4 0.6 0.27
1 0.88 0.4
1.1/4 1.6 0.73
1.1/2 2.25 1.02
2 4 1.81
2.1/2 7 3.18
3 8.5 3.86
3.1/2 12 5.44
4 15.8 7.17
5 26 11.79
6 40 18.14
8 75 34.02
10 105 47.63
12 160 72.57
14 240 108.86
16 280 127.01
18 332 150.59
20 480 217.72
22 550 249.48
24 610 276.69
26 875 396.89
30 1200 544.31
36 1700 771.11

Like butt weld tees, barred tees are produced in a variety of sizes to suit customer project specifications. Custom-fitted bar pieces are welded to the branch of the butt weld tees. To make sure the pig fits through the branch opening, there are barriers there. The bar gap's purpose is to safeguard the pig's functional components.

Manufacturer of Welded Schedules 10/ 40 ASTM A420 WPL6 Pigged Tee and WPHY 52 Barred Tee in India

The medium flow might be decreased if there are too many welded bars. When the pig passes, it might not work if it is too little. There is no international standard size for barred tees. It is produced on demand using the ASME B16.9/MSS-SP 75 tee as a base. Sizes 4′′ to 6′′ are one bar, 8′′ to 10′′ are two bars, 12′′ to 20′′ are three pieces, and 24′′ to 48′′ are five pieces of evenly spaced bars. Additionally, the thickness of 20′′ to 48′′ bars is 1/2′′, and the thickness of 4′′ to 18′′ bars is 1/2′′(12.7mm) (12.7mm).

Alloy Steel Barred Tee

Alloy Steel Barred Tee

Galvanized Pig Launcher Barred Tee

Galvanized Pig Launcher Barred Tee

ASTM A860 Forged Barred Tee

ASTM A860 Forged Barred Tee

Scrapper Tee

Scrapper Tee

ASTM A234 WPA Barred Tee Pipeline

ASTM A234 WPA Barred Tee Pipeline

ASTM A234 WPC Equal Barred Tee

ASTM A234 WPC Equal Barred Tee

WPHY 42 Piggable Barred Tee

WPHY 42 Piggable Barred Tee

Carbon Steel Barred Tee

Carbon Steel Barred Tee

WPHY 52 Sphere Tee And Barred Tee

WPHY 52 Sphere Tee And Barred Tee

Barred Tee Material

Barred Tee Material

Barred Tee A860

Barred Tee A860

WPHY 70 Barred Tee Fitting

WPHY 70 Barred Tee Fitting

Carbon Steel Pigged Tee

Carbon Steel Pigged Tee

Bar Tee Pipe Fitting

Bar Tee Pipe Fitting

ASTM A420 WPL6 Weldbend Barred Tee

ASTM A420 WPL6 Weldbend Barred Tee

ASTM A234 WPB Barred Pipe Tee

ASTM A234 WPB Barred Pipe Tee

Reducing Barred Tee

Reducing Barred Tee

ASTM A860 High Yield Barred Tee In Pipeline

ASTM A860 High Yield Barred Tee In Pipeline

Galvanized Weldbend Barred Tee

Galvanized Weldbend Barred Tee

WPHY 65 Sphere Barred Tee

WPHY 65 Sphere Barred Tee

Asme B16.9 Barred Tee

Asme B16.9 Barred Tee

  • The bar plates should be of suitable amount, thickness, and spacing.
  • The size of the bars in the branch connection should be modest enough not to obstruct the flow. However, it must be large enough to withstand the flow's pressure.
  • The bar plates should be ground to match the curvature of the branch. Sharp edges, spatters, and bursts must be eliminated.
  • The number of bar plates should begin with one or two pieces and rise as the branch's ID increases.
  • The spacing between the bar plates should be equal.
  • The material of the bar plates is frequently the same as the material of the tee.
  • To fit the branch, the bar plate ends must be machined.
  • Weaving bars directly on the high-stress concentration sections of the extrusion neck should be avoided.
Parameter Tee Barred Tee
Definition Standard Pipe Fitting A special type of piping component
Production Quantity Large scale in bulk Select small quantities (custom made)
Use Used in both piping and pipeline engineering used in pipeline engineering near the pig launcher/receiver
Design Code / Standard ASME B 16.9/MSS SP 75 Shell DEP 31.40.10.13-Gen or ISO 15590-2
Manufacturing Generally by Extrusion or forging Mostly Fabricated
Cost Cheaper Costlier than normal Tees
Alternating Current Field Measurement (ACFM) & Non Destructive Testing are offered by the manufacturer of WPHY 42 Bar Tee Pipe Fitting and ASTM A860 High Yield Reducing Barred Tee
  • Micro and Macro Test
  • Flaring Test
  • Chemical Analysis
  • PMI Testing
  • Flattening Test
  • Pitting Resistance Test
  • Hardness Test
  • Oil & Gas Industry
  • Fossil Fuel Power Plants
  • Paper & Pulp
  • Marine Applications
  • Power Plants
  • Nuclear Power/ Nuclear Plants
  • Refineries