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Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe

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Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe

MOQ:	1 Tons
Price:	800-1000 USD/Tons
Standard Packaging:	In bundles or in wooden boxes.
Delivery Period:	20-30days upon products
Payment Method:	L/C, D/A, D/P, T/T, Western Union, MoneyGram
Supply Capacity:	60000 Ton/Tons per Year

Details Information

Product Description

Detail Information

Place of Origin

Zhejiang/China

Brand Name

TORICH

Certification

ISO9001, ISO14001, TS16949

Model Number

G Type Fin Tubes

Application:

Heat Exchanger

Technique:

Hot Rolled,Cold Drawn,TIG Welded/ Plasma Welded

Thickness:

0.6 - 50.0 Mm,6 - 200 Mm

Standard:

ASTM,DIN,JIS,GB,API

Section Shape:

Round

Secondary Or Not:

Non-secondary

Special Pipe:

Carbon Steel Tube

Grade:

A179 A106 Gr B P235GH 10#

Material:

Carbon Steel Tube

Product Name:

ASTM A179/SA179 Seamless Heat Exchanger Tubes

Type:

Heat Exchanger Tube

Length:

6 Meters Or As Customers Request

Condition:

Product Description

Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe 0

Carbon Steel Seamless Tube G-Type Embedded Fin Heat Exchanger Pipe

Material

This product is a seamless, cold‐drawn carbon steel heat‐exchanger tube with embedded “G-Type” fins mechanically formed into the outer wall of the base tube. The fins (typically aluminium, copper or steel) are secured in deep machined grooves in the parent tube wall to provide enhanced surface area and heat‐transfer performance.

Specification

Base tube: seamless cold‐drawn carbon steel tube (e.g. to specification ASTM A179 / ASME SA179)
Fin Type: G‐Type Embedded (grooved and back‐filled fin strip)
Typical outer diameter range: ~ 16–63 mm (0.63″–2.5″) for base tube; fin height and fin pitch vary depending on the design.
Typical fin height: up to ~ 19 mm, fin thickness ~0.4 mm for G-type fin tube.
Tube length: up to ~15 m (≤ 15 m) typical in this design.

Key Features

The embedded fin construction secures the fin strip in a mechanical groove in the base tube, ensuring strong fin adhesion, minimal fin detachment, and excellent stability under thermal cycling.
Increased effective outside surface area compared to bare tubes — thereby improving external heat-transfer coefficient when the outside fluid (often air or gas) has low h-value.
The G‐type fin tube enables high heat‐transfer efficiency in applications where heat is transferred from a fluid inside the tube to a gas/air outside (or vice-versa) and the tube outside coefficient dominates.
Good suitability for moderate temperature service (e.g., up to ~400 °C for certain fin tube configurations).

Our Advantages

From a factory viewpoint, we address customer‐concerns and provide assured performance across these typical questions:

Customer Concern	Our Response / Advantage
Straightness / Runout	We implement precision cold-drawn seamless base tubes, followed by consistent fin-embedding groove-rolling and straightening operations. The result is minimal geometric deviation and stable fin alignment.
Wall‐thickness tolerance & base‐tube integrity under fin groove‐machining	Our base tubes are produced to tight tolerance (cold-drawn) and we control groove machining to ensure minimal reduction of wall cross‐section, maintaining sufficient residual wall thickness for pressure/thermal loads.
Fin attachment durability under thermal cycling / vibration	Using mechanical embedment (grooved and back‐filled) rather than welded fins, our G-type fin tubes avoid fin weld fatigue, promote strong fin anchoring and reduce the risk of fin detachment in service.
Heat-transfer performance reproducibility	We offer customizable fin height, fin pitch and fin thickness options; our quality control includes dimensional verification (fin height, pitch) and surface finish checks to ensure that the designed enhanced surface area is achieved reliably.
Manufacturing traceability & material certification	All tubes are supplied with full chemical analysis (heat + product), mechanical testing (tensile, yield, elongation, hardness), flattening/flaring/hydrostatic tests as required by the standard. This ensures full traceability and compliance.

Chemical Composition

Grade	C (%)	Mn (%)	P (%) max	S (%) max	Si (%) approx
ASTM A179 / ASME SA179	0.06–0.18	0.27–0.63	≤ 0.035	≤ 0.035	≤ 0.25
ASTM A106 Gr B	≤ 0.30	0.29–1.06	0.035	0.035	—
EN 10216-2 P235GH	≤ 0.20	≤ 1.40	0.025	0.025	—
GB 3087 10# (or equivalent)	≤ 0.22	≤ 1.20	0.025	0.025	—
JIS G3461 STB340	≤ 0.13	≤ 0.60	0.040	0.040	—

Mechanical Properties

Grade	Yield Strength (MPa)	Tensile Strength (MPa)	Elongation (%)
ASTM A179 / ASME SA179	≥ 180 MPa	≥ 325 MPa	≥ 35%
ASTM A106 Gr B	≥ 240 MPa approx	≥ 415 MPa approx	≥ 20% approx
EN P235GH	≥ 235 MPa approx	≥ 360 MPa approx	≥ 22% approx
GB 10#	≥ 235 MPa approx	≥ 370 MPa approx	≥ 21% approx
JIS STB340	≥ 225 MPa approx	≥ 330 MPa approx	≥ 20% approx

Applicable Standards

Chemical & mechanical requirements: ASTM A179/A179M (also referenced as ASME SA179/SA179M)
Manufacture: seamless cold‐drawn tubes for heat‐exchanger and condenser use.
Dimensions: Outside diameter 1/8″-3″ (3.2 mm-76.2 mm) inclusive; minimum wall thickness per specification.

Application Areas

General application field: industrial heat-exchanger systems (including condensers, air-coolers, gas coolers, waste-heat recovery units)
Specific use cases in that field:

In air-cooled heat-exchanger units, the embedded fin tubes serve as the tube bundle over which ambient air flows across the fins, improving cooling of process fluid inside the tube.
In steam or hot-gas condensers, the finned tubes provide enhanced outer surface for condensing vapour on the outside (or absorbing cooling air) while fluid flows within the base tube.
In petrochemical cracker waste-heat recovery, the fin tube enables compact design by replacing multiple bare tubes with fewer fin tubes (because of higher heat-transfer coefficient).
In power-plant condenser systems, the fin tube may be used in economizers or auxiliary cooler bundles where external gas side coefficient is low (e.g., flue-gas side).

Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe 1

Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe 2

Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe 4

Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe 6

Q: Are you trading company or manufacturer ?

A: manufacturer,also can do trading.

Q: How long is your delivery time?

A: Generally speaking,it is 10-15 days if the goods are in stock,or it is 30-40 days if the goods are not in stock, it is according to quantity.

Q: Do you provide samples? is it free or extra ?

A: Yes, we could offer the sample for free charge but need pay the cost of freight.

Q: What is your terms of payment ?

A: Payment<=2000USD, 100% in advance. Payment>=2000USD, 30% T/T in advance ,balance before shippment.

If you have another question, pls feel free to contact with me.

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Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe

MOQ:	1 Tons
Price:	800-1000 USD/Tons
Standard Packaging:	In bundles or in wooden boxes.
Delivery Period:	20-30days upon products
Payment Method:	L/C, D/A, D/P, T/T, Western Union, MoneyGram
Supply Capacity:	60000 Ton/Tons per Year

Detail Information

Product Description

Detail Information

Place of Origin

Zhejiang/China

Brand Name

TORICH

Certification

ISO9001, ISO14001, TS16949

Model Number

G Type Fin Tubes

Application:

Heat Exchanger

Technique:

Hot Rolled,Cold Drawn,TIG Welded/ Plasma Welded

Thickness:

0.6 - 50.0 Mm,6 - 200 Mm

Standard:

ASTM,DIN,JIS,GB,API

Section Shape:

Round

Secondary Or Not:

Non-secondary

Special Pipe:

Carbon Steel Tube

Grade:

A179 A106 Gr B P235GH 10#

Material:

Carbon Steel Tube

Product Name:

ASTM A179/SA179 Seamless Heat Exchanger Tubes

Type:

Heat Exchanger Tube

Length:

6 Meters Or As Customers Request

Condition:

New

Minimum Order Quantity:

1 Tons

Price:

800-1000 USD/Tons

Packaging Details:

In bundles or in wooden boxes.

Delivery Time:

20-30days upon products

Payment Terms:

L/C, D/A, D/P, T/T, Western Union, MoneyGram

Supply Ability:

60000 Ton/Tons per Year

Product Description

Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe 0

Carbon Steel Seamless Tube G-Type Embedded Fin Heat Exchanger Pipe

Material

Specification

Base tube: seamless cold‐drawn carbon steel tube (e.g. to specification ASTM A179 / ASME SA179)
Fin Type: G‐Type Embedded (grooved and back‐filled fin strip)
Typical outer diameter range: ~ 16–63 mm (0.63″–2.5″) for base tube; fin height and fin pitch vary depending on the design.
Typical fin height: up to ~ 19 mm, fin thickness ~0.4 mm for G-type fin tube.
Tube length: up to ~15 m (≤ 15 m) typical in this design.

Key Features

The embedded fin construction secures the fin strip in a mechanical groove in the base tube, ensuring strong fin adhesion, minimal fin detachment, and excellent stability under thermal cycling.
Increased effective outside surface area compared to bare tubes — thereby improving external heat-transfer coefficient when the outside fluid (often air or gas) has low h-value.
The G‐type fin tube enables high heat‐transfer efficiency in applications where heat is transferred from a fluid inside the tube to a gas/air outside (or vice-versa) and the tube outside coefficient dominates.
Good suitability for moderate temperature service (e.g., up to ~400 °C for certain fin tube configurations).

Our Advantages

From a factory viewpoint, we address customer‐concerns and provide assured performance across these typical questions:

Customer Concern	Our Response / Advantage
Straightness / Runout	We implement precision cold-drawn seamless base tubes, followed by consistent fin-embedding groove-rolling and straightening operations. The result is minimal geometric deviation and stable fin alignment.
Wall‐thickness tolerance & base‐tube integrity under fin groove‐machining	Our base tubes are produced to tight tolerance (cold-drawn) and we control groove machining to ensure minimal reduction of wall cross‐section, maintaining sufficient residual wall thickness for pressure/thermal loads.
Fin attachment durability under thermal cycling / vibration	Using mechanical embedment (grooved and back‐filled) rather than welded fins, our G-type fin tubes avoid fin weld fatigue, promote strong fin anchoring and reduce the risk of fin detachment in service.
Heat-transfer performance reproducibility	We offer customizable fin height, fin pitch and fin thickness options; our quality control includes dimensional verification (fin height, pitch) and surface finish checks to ensure that the designed enhanced surface area is achieved reliably.
Manufacturing traceability & material certification	All tubes are supplied with full chemical analysis (heat + product), mechanical testing (tensile, yield, elongation, hardness), flattening/flaring/hydrostatic tests as required by the standard. This ensures full traceability and compliance.

Chemical Composition

Grade	C (%)	Mn (%)	P (%) max	S (%) max	Si (%) approx
ASTM A179 / ASME SA179	0.06–0.18	0.27–0.63	≤ 0.035	≤ 0.035	≤ 0.25
ASTM A106 Gr B	≤ 0.30	0.29–1.06	0.035	0.035	—
EN 10216-2 P235GH	≤ 0.20	≤ 1.40	0.025	0.025	—
GB 3087 10# (or equivalent)	≤ 0.22	≤ 1.20	0.025	0.025	—
JIS G3461 STB340	≤ 0.13	≤ 0.60	0.040	0.040	—

Mechanical Properties

Grade	Yield Strength (MPa)	Tensile Strength (MPa)	Elongation (%)
ASTM A179 / ASME SA179	≥ 180 MPa	≥ 325 MPa	≥ 35%
ASTM A106 Gr B	≥ 240 MPa approx	≥ 415 MPa approx	≥ 20% approx
EN P235GH	≥ 235 MPa approx	≥ 360 MPa approx	≥ 22% approx
GB 10#	≥ 235 MPa approx	≥ 370 MPa approx	≥ 21% approx
JIS STB340	≥ 225 MPa approx	≥ 330 MPa approx	≥ 20% approx

Applicable Standards

Chemical & mechanical requirements: ASTM A179/A179M (also referenced as ASME SA179/SA179M)
Manufacture: seamless cold‐drawn tubes for heat‐exchanger and condenser use.
Dimensions: Outside diameter 1/8″-3″ (3.2 mm-76.2 mm) inclusive; minimum wall thickness per specification.

Application Areas

General application field: industrial heat-exchanger systems (including condensers, air-coolers, gas coolers, waste-heat recovery units)
Specific use cases in that field:

In air-cooled heat-exchanger units, the embedded fin tubes serve as the tube bundle over which ambient air flows across the fins, improving cooling of process fluid inside the tube.
In steam or hot-gas condensers, the finned tubes provide enhanced outer surface for condensing vapour on the outside (or absorbing cooling air) while fluid flows within the base tube.
In petrochemical cracker waste-heat recovery, the fin tube enables compact design by replacing multiple bare tubes with fewer fin tubes (because of higher heat-transfer coefficient).
In power-plant condenser systems, the fin tube may be used in economizers or auxiliary cooler bundles where external gas side coefficient is low (e.g., flue-gas side).

Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe 1

Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe 2

Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe 4

Carbon Steel Seamless Tube G Type Fin Tubes Embedded Fins Heat Exchanger Pipe 6

Q: Are you trading company or manufacturer ?

A: manufacturer,also can do trading.

Q: How long is your delivery time?

A: Generally speaking,it is 10-15 days if the goods are in stock,or it is 30-40 days if the goods are not in stock, it is according to quantity.

Q: Do you provide samples? is it free or extra ?

A: Yes, we could offer the sample for free charge but need pay the cost of freight.

Q: What is your terms of payment ?

A: Payment<=2000USD, 100% in advance. Payment>=2000USD, 30% T/T in advance ,balance before shippment.

If you have another question, pls feel free to contact with me.

Tags: