ASTM A213 Seamless Stainless Steel Tube U Shaped Heat Exchanger
Product Overview
ASTM A213 seamless stainless steel U-bend tubes are manufactured for heat exchangers, condensers, boilers and superheaters operating under elevated temperature, pressure or corrosive process conditions. The tubes are produced by a seamless process, supplied hot-finished or cold-finished, solution heat-treated and formed to the required U-bend radius and leg length.
ASTM A213/A213M covers both ferritic alloy-steel grades and austenitic stainless-steel grades. For a product described specifically as a stainless steel U-bend tube, appropriate designations include TP304, TP304L, TP316, TP316L and TP321. Grade T12 should not be listed as stainless steel because it is a ferritic low-alloy steel. The active edition is ASTM A213/A213M-25.
Specifications
| Item |
Available Specification |
| Product |
Seamless stainless steel U-bend heat exchanger tube |
| Manufacturing standard |
ASTM A213/A213M |
| General requirements |
ASTM A1016/A1016M, as referenced by the applicable edition |
| Material type |
Austenitic stainless steel |
| Common grades |
TP304, TP304L, TP316, TP316L, TP321 |
| Manufacturing process |
Seamless, hot-finished or cold-finished |
| Outside diameter |
6-127 mm |
| Wall thickness |
0.5-12.7 mm |
| Straight tube length before bending |
Normally 1-12 m; custom fixed lengths available |
| U-bend leg length |
Produced according to heat-exchanger drawing |
| Bend radius |
Customised according to tube-sheet layout and purchaser drawing |
| Wall specification |
Minimum wall or average wall, as stated in the purchase order |
| OD tolerance |
According to ASTM A213/A1016; tighter project tolerances available by agreement |
| Wall-thickness tolerance |
According to minimum-wall or average-wall ordering basis |
| Straightness |
Typically ≤1.5 mm per metre on straight portions; tighter limits by agreement |
| Surface condition |
Annealed and pickled, bright annealed, polished or mechanically cleaned |
| Heat treatment |
Solution annealed; rapid cooling appropriate to the selected grade |
| Tube-end condition |
Plain cut, deburred and internally cleaned |
| Inspection |
Visual, dimensional, tensile, hardness, flattening/flaring and hydrostatic or nondestructive electric testing |
| Documentation |
EN 10204 3.1 inspection certificate, heat number and heat-treatment lot traceability |
| Packing |
Bundles, wooden cases or seaworthy frames with protected tube ends |
ASTM A213 normally covers tubing from 3.2 mm inside diameter through 127 mm outside diameter, with wall thicknesses from 0.4 to 12.7 mm. Other dimensions may be supplied when all remaining specification requirements are satisfied.
Main Characteristics
Seamless Pressure Boundary
The absence of a longitudinal weld eliminates weld-seam discontinuity from the tube pressure boundary. Every tube is manufactured through a seamless hot-finished or cold-finished route as required by ASTM A213.
Controlled U-Bend Geometry
The bend radius, tube pitch, leg length, tangent position and dimensional orientation are manufactured according to the heat-exchanger bundle drawing. Bend ovality and wall thinning can be measured at the extrados, intrados and neutral axis when specified.
Defined Austenitic Heat Treatment
TP304, TP304L, TP316, TP316L and TP321 tubes are normally solution heat-treated at a minimum temperature of approximately 1040°C, followed by rapid cooling. Heat treatment restores the required microstructure and helps control the effects of cold drawing and bending.
Corrosion-Grade Selection
TP304 and TP304L are used for general industrial heat-transfer service. TP316 and TP316L contain 2.00-3.00% molybdenum and are selected where greater resistance to localized corrosion is required. TP321 is titanium-stabilized for service involving elevated-temperature exposure.
Individual Tube Testing
ASTM A213 requires mechanical and forming tests and requires each tube to undergo either a nondestructive electric test or a hydrostatic test.
Our Advantages
1. Controlled Wall Thinning and Ovality at the U-Bend
A U-bend tube can satisfy the straight-tube specification but still create assembly or service problems when bending produces excessive extrados thinning or cross-sectional ovality.
We control the bending process through:
- Grade- and size-specific mandrel selection
- Controlled bending speed and clamping pressure
- Dimensional measurement at the bend apex
- Wall-thickness verification on critical bends
- Bend-radius and tube-pitch inspection against the approved drawing
Project-specific acceptance limits for minimum bend-wall thickness and maximum ovality can be agreed before production.
2. Heat Treatment Defined Separately for the Base Tube and Bend Area
ASTM A213 defines the material and heat-treatment requirements for the seamless tube, but it does not by itself define every U-bend geometry, stress-relief method or bundle fabrication requirement.
The purchase specification should therefore state:
- Whether the complete tube or only the U-bend area requires post-bend heat treatment
- The required heat-treatment temperature and cooling method
- Whether solution annealing, local electric-resistance treatment or no additional treatment is required
- Whether intergranular-corrosion testing is required
- Whether the heat-treatment lot must appear on the inspection certificate
This prevents uncontrolled local heating, surface oxidation and inconsistent mechanical properties in the bend area.
3. Traceable Inspection from Straight Tube to Finished U-Bend
Each production lot can be controlled through a traceability route covering:
- Raw-material heat number
- Straight-tube manufacturing lot
- Solution-annealing lot
- U-bending batch
- Dimensional inspection record
- Eddy-current or hydrostatic test status
- Finished-tube identification and packing position
This reduces the risk of mixing grades, bend radii or heat-treatment conditions during heat-exchanger bundle assembly.
Execution Standards
| Standard System |
Applicable Standard |
Scope |
| ASTM |
ASTM A213/A213M |
Seamless ferritic and austenitic alloy-steel boiler, superheater and heat-exchanger tubes |
| ASTM |
ASTM A1016/A1016M |
General requirements for ferritic alloy-steel and austenitic alloy-steel tubes |
| ASME |
ASME SA-213/SA-213M |
Boiler and pressure-vessel code material specification corresponding to ASTM A213 |
| EN |
EN 10216-5 |
Seamless stainless steel tubes for pressure purposes |
| JIS |
JIS G3463 |
Stainless steel boiler and heat-exchanger tubes |
| GB |
GB/T 21833 |
Austenitic-ferritic duplex stainless steel seamless tubes and pipes, where applicable |
| GB |
GB/T 14976 |
Stainless steel seamless tubes for fluid transport |
| GOST |
GOST 9941 |
Cold- and warm-deformed corrosion-resistant seamless steel tubes |
These standards are not automatically interchangeable. Grade equivalence, heat treatment, tolerances, testing frequency and certification requirements must be confirmed against the purchaser's specified code.
Application
Shell-and-Tube Chemical Process Heat Exchanger
ASTM A213 TP316L seamless U-bend tubes can be installed in the tube bundle of a shell-and-tube chemical process heat exchanger. The U-shaped configuration connects the inlet and outlet flow paths without using a rear tube-sheet joint, while the molybdenum-bearing TP316L material provides improved localized-corrosion resistance compared with TP304L in many process environments.
Final material selection must consider chloride concentration, operating temperature, fluid velocity, crevice conditions, cleaning chemicals and the possibility of chloride stress-corrosion cracking.
Chemical Composition
Chemical composition is given as mass percentage. Unlisted values are not intentionally specified unless required by the applicable ASTM edition or purchase order.
| Grade |
C, max. |
Mn, max. |
Si, max. |
P, max. |
S, max. |
Cr |
Ni |
Mo |
Other |
| TP304 |
0.08 |
2.00 |
0.75 |
0.045 |
0.030 |
18.0-20.0 |
8.0-11.0 |
-- |
-- |
| TP304L |
0.035 |
2.00 |
0.75 |
0.040 |
0.030 |
18.0-20.0 |
8.0-13.0 |
-- |
-- |
| TP316 |
0.08 |
2.00 |
0.75 |
0.040 |
0.030 |
16.0-18.0 |
11.0-14.0 |
2.00-3.00 |
-- |
| TP316L |
0.035 |
2.00 |
1.00 |
0.040 |
0.030 |
16.0-18.0 |
10.0-15.0 |
2.00-3.00 |
-- |
| TP321 |
0.08 |
2.00 |
0.75 |
0.040 |
0.030 |
17.0-20.0 |
9.0-13.0 |
-- |
Ti: 5 × C min., 0.60 max. |
The grade limits above are based on published ASTM A213 technical tables. The governing values should always be verified against the edition stated in the purchase order.
Mechanical Properties
Minimum room-temperature tensile properties for the five commonly specified austenitic grades are shown below.
| Grade |
Tensile Strength, min. |
Yield Strength, min. |
Elongation, min. |
Maximum Hardness |
Minimum Solution-Treatment Temperature |
| TP304 |
515 MPa |
205 MPa |
35% |
192 HBW / 90 HRB |
1040°C |
| TP304L |
485 MPa |
170 MPa |
35% |
192 HBW / 90 HRB |
1040°C |
| TP316 |
515 MPa |
205 MPa |
35% |
192 HBW / 90 HRB |
1040°C |
| TP316L |
485 MPa |
170 MPa |
35% |
192 HBW / 90 HRB |
1040°C |
| TP321 |
515 MPa |
205 MPa |
35% |
192 HBW / 90 HRB |
1040°C |
Mechanical-property requirements apply to the finished heat-treated tube. Local cold work introduced during U-bending may change hardness and residual stress in the bend area; therefore, post-bend treatment and bend-area testing should be specified when required by the heat-exchanger design. The listed tensile and hardness requirements are consistent with published ASTM A213 grade tables.
Dimensional Tolerances
Typical published ASTM A213 outside-diameter tolerances include:
| Outside Diameter |
OD Tolerance |
| Below 25.4 mm |
±0.10 mm |
| 25.4-38.1 mm |
±0.15 mm |
| Above 38.1 to below 50.8 mm |
±0.20 mm |
| 50.8 to below 63.5 mm |
±0.25 mm |
| 63.5 to below 76.2 mm |
±0.30 mm |
| 76.2-101.6 mm |
±0.38 mm |
| Above 101.6-190.5 mm |
+0.38 / −0.64 mm |
For minimum-wall tubing, published tolerance summaries commonly identify a wall-thickness over-tolerance of +20%/−0 for tubes up to 38.1 mm OD and +22%/−0 for larger diameters. Final tolerances must be checked against the ordering basis, tube size and current ASTM A1016/A213 edition.
Testing and Inspection
The standard inspection package may include:
- Chemical composition analysis
- Room-temperature tensile testing
- Hardness testing
- Flattening testing
- Flaring testing
- Hydrostatic or nondestructive electric testing of every tube
- Outside-diameter and wall-thickness inspection
- U-bend radius, leg length and tube-pitch inspection
- Bend ovality and minimum-wall verification
- Eddy-current testing before or after bending, as specified
- Surface cleanliness and visual inspection
- Positive material identification when required
- Intergranular-corrosion testing by supplementary agreement
- EN 10204 3.1 material certification
Frequently Asked Questions
Are you trading company or manufacturer?
Manufacturer, also can do trading.
How long is your delivery time?
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.
Do you provide samples? Is it free or extra?
Yes, we could offer the sample for free charge but need pay the cost of freight.
What is your terms of payment?
Payment ≤ 2000 USD, 100% in advance. Payment ≥ 2000 USD, 30% T/T in advance, balance before shipment. If you have another question, please feel free to contact with me.