ASTM A178 Carbon Steel Condenser Tubes and SA 178 Gr D Heat Exchanger Tubes manufacturer in India

Manufacturing SA178a Condenser Tubes Material in 1.0" to 3.5" diameters

Vishal Steel (India) is a full service manufacturer and distributor of high quality ASTM A178 Boiler Tube with one of the largest inventories available 24 hours a day, seven days a week. With our unique blend of manufacturing and distribution capabilities, Vishal Steel (India) is able to meet critical lead times.

We want to make our services so distinct, so valuable to our customers and principals, so important to their successes that our services become their only real choice. Since then, We has grown and progressed from a one-man company, to a multi-person multi-talented representative firm with offices near major Country Like Egypt, Kenya, India, Saudi Arabia, Iran, Turkey, Korea.

Specification Offered For ASTM A178 Boiler Tube

ASME Spec. ASME Grade ERW or Smls. Description Typical uses
SA-178 A ERW Low carbon steel - C=0.18 max. Boiler tubes, economizers, low temp. superheaters
SA-178 C ERW Medium carbon steel - C=0.35 max. Boiler tubes, economizers, low temp. superheaters
SA-178 D ERW Carbon-manganese steel - C=0.27 max Not in common use
SA-192 Smls. Low carbon steel - C=0.18 max Waterwalls, economizers, low temp. superheaters
SA-210 A1 Smls. Medium carbon steel - C=0.27 max. Waterwalls, economizers, superheaters
SA-210 C Smls. Medium carbon steel - C=0.35 max. Waterwalls, economizers, superheaters
SA-209 T1 Smls. Low alloy steel - low carbon, 1/2% moly Superheaters
SA-209 T1a Smls. Low alloy steel - medium carbon, 1/2% moly Superheaters
SA-209 T1b Smls. Low alloy steel - low carbon, 1/2% moly Superheaters
SA-213 T2 Smls. Intermediate alloy - 1/2% chrome, 1/2% moly Waterwalls, superheaters, not in common use
SA-213 T11 Smls. Intermediate alloy - 1 1/4% chrome, 1/2% moly Waterwalls, superheaters
SA-213 T22 Smls. Intermediate alloy - 2 1/4% chrome, 1% moly Waterwalls, superheaters
SA-213 T5 Smls. Intermediate alloy - 5% chrome, 1/2% moly High temperature superheaters, not in common use
SA-213 T9 Smls. Intermediate alloy - 9% chrome, 1% moly High temperature superheaters, no longer in common use
SA-213 T91 Smls. Intermediate alloy - 9% chrome, 1% moly, 1/4% vanadium High temperature superheaters - the latest and greatest
SA-213 Tp-304 Smls. Stainless steel - 18% chrome, 8% nickel Superheaters
SA-213 Tp-304H Smls. Stainless steel for high temperature service High temperature superheaters
SA-213 Tp-316 Smls. Stainless steel - 16% chrome, 11% nickel Superheaters
SA-213 Tp-316H Smls. Stainless steel for high temperature service High temperature superheaters
SA-213 Tp-321 Smls. Stainless steel - 17% chrome, 9% nickel, 0.60% titanium Superheaters
SA-213 Tp-321H Smls. Stainless steel for high temperature service High temperature superheaters
SA-213 Tp-347 Smls. Stainless steel - 17% chrome, 9% nickel, columbium + tantalum=1.00% max. Superheaters
SA-213 Tp-347H Smls. Stainless steel for high temperature service High temperature superheaters

Dimension & Characteristics Of SA-178-A Boiler tube

Chemical Properties

Carbon: 0.06-0.18
Silicon: n/a
Manganese: 0.27-0.63
Nickel: n/a
Potassium: 0.035
Chromium: n/a
Sulfur: 0.035
Molybdenum: n/a

Mechanical Properties

Tensile Strength:
Yield:
Elongation in 2in. or 50mm, min. %:
Max. Hardness Rockwell B:
ksi: 47
ksi: 26
35
77
MPa: 324
MPa: 179

General Information Of SA-178-A Boiler tube

ASME SA178 Boiler TubeThis specification covers standards for electric-resistance-welded tubes with minimum-wall-thickness made of carbon steel and carbon-manganese steel to be used in boiler tubes, boiler flues, superheater flues, and safe ends.

The steel shall be of Grades A (low-carbon steel), C (medium-carbon steel), or D (carbon-manganese steel). All tubes shall be submitted to heat treatment after welding, followed by cooling. The steel shall conform to stated compositions of carbon, manganese, phosphorus, sulphur, and silicon. Grades C and D shall conform to given tensile requirements, that is tensile strength, yield strength, and elongation.

Of SA-178-A Boiler tube

  • For operation of steam locomotives
  • In small factories and industrial processes
  • For home heating systems
  • Chemical processing divisions
  • Pulp and Paper manufacturing plants
  • Refining units

Why Us For SA-178-A Boiler tube

Some of our specialities that make us a profitable business partner for our clients are

  • Built-in flexibility, value-added customization
  • Experience in a wide variety of sectors and materials
  • Quality and reliability
  • Global resources with local support

Price( At Factory Price) For SA-178-A Boiler tube

  • Boiler Tube
    US $1000-5000 / Ton ( FOB Price)
  • high quality gr5 titanium boiler tube
    US $30-50 / Kilogram ( FOB Price)
  • astm a53b a106b boiler water wall tubes
    US $700-1000 / Ton ( FOB Price)
  • ASTM A106, A192, A213, A335 Seamless High Pressure Boiler Tube
    US $800-1800 / Metric Ton ( FOB Price)
  • Hot rolling alloy steel boiler tubes A335 P91
    US $2400-2900 / Ton ( FOB Price)

Application Industry For SA-178-A Boiler tube

  • Refining
  • Refrigeration
  • Petrochemical
  • Gas transmission
  • Pulp and paper
  • Heating and Air Conditioning
  • Chemical & Electric Power

Packing & Shipping Of SA-178-A Boiler tube

ASTM A178 TubingThe SA-178-A Boiler tube are usually packaged into bundles of a hexagonal cross-section and are bound with a steel band that has a paper underneath. The package is wrapped with a plastic sheet. Upon request the tubes may be supplied in wooden crates.

  • Standard ways Bundle tied by wire
  • Bundle tied by a steel tape
  • Steel tape underlined by tapaten

SA178 Tube Weight Per Foot Chart

TUBE MIN WALL / APPROX. GAUGE
TUBE OUTSIDE DIA. 0.065
16GA
0.085
14GA
0.095
13GA
0.105
12GA
0.120
11GA
0.135
10GA
0.150
9GA
0.165
8GA
0.750 .51339 .6504 .7150 .7765 .8650 .9474
1.000 .7031 .8978 .9914 1.082 1.214 1.340 1.461 1.575
1.250 1.145 1.268 1.388 1.563 1.733 1.897 2.055
1.500 1.393 1.544 1.694 1.913 2.126 2.333 2.536
2.000 1.887 2.097 2.305 2.611 2.912 3.210 3.496
2.250 2.135 2.374 2.610 2.960 3.305 3.643 3.976
2.500 2.382 2.650 2.916 3.310 3.698 4.080 4.456
3.000 3.203 3.527 4.010 4.483 4.953 5.417
3.250 3.833 4.357 4.876 5.390 5.897
3.500 4.138 4.706 5.269 5.826 6.380
4.000 4.750 5.405 6.055 6.700 7.338

Boiler tube weights are calculated using the following formula:
(OD-MW/.875) X MW/.875 X 10.68