Stainless heat exchanger tubes are precision-engineered seamless or welded components designed for efficient thermal transfer in demanding environments, offering unmatched corrosion resistant exchanger pipes and boiler exchanger protection. Conforming to standards like ASTM A249, A213, and ASME SA249, common grades such as 304, 316, and 321 feature high chromium (16-20%) and nickel (8-14%) content to form a robust passive oxide layer, shielding against pitting, crevice corrosion, and stress cracking in aggressive media like seawater, chlorinated solvents, and acidic flue gases. These high temperature heat transfer tubing excels in shell-and-tube, plate, and finned configurations, supporting pressures up to 10 MPa and temperatures from -196°C to 800°C, making them indispensable for power generation, oil refining, and chemical processing where reliable erosion resistant stainless tubes prevent tube failures and optimize energy efficiency.

Produced via cold drawing or pilgering followed by bright annealing in controlled atmospheres, stainless heat exchanger tubes achieve superior surface finish (Ra high temperature heat transfer tubing. Low-carbon variants like 304L and 316L reduce carbide formation during welding, ensuring intergranular corrosion resistance without post-weld heat treatment, while stabilized grades such as 321 (titanium-added) and 347 (niobium-stabilized) avert sensitization in the 425-815°C range for prolonged exposure in furnace walls and economizers. Available in straight lengths up to 30m or U-bends with tight radii (1.5D), wall thicknesses from 0.5-5 mm, and outer diameters 6-50 mm, they accommodate diverse designs including enhanced surface textures for up to 30% improved heat transfer coefficients.

In boiler exchanger protection, these tubes mitigate steam-side erosion from high-velocity vapors and fireside scaling from sulfurous combustion, with 316 providing molybdenum-enhanced resistance to chloride pitting in coastal power plants. Hydrostatic testing to 1.5x design pressure, eddy current flaw detection, and flattening tests confirm integrity, delivering minimum tensile strengths of 485-620 MPa and yield strengths of 170-310 MPa for cyclic loading resilience. Optional features like finned extensions or internal rifling boost turbulence for better convective heat exchange, while electropolished interiors (Ra

Compared to carbon steel alternatives, corrosion resistant exchanger pipes like 304 exhibit 5-10x longer lifespan in corrosive condensates, with lower thermal expansion (16.5 x 10^-6/°C) reducing thermal stress in fluctuating cycles common to erosion resistant stainless tubes. Duplex grades such as 2205 offer hybrid austenitic-ferritic benefits with doubled yield strength (450 MPa) for high-pressure offshore platforms, while their non-magnetic properties (μ

Tackling prevalent issues like tube plugging from fouling or localized corrosion in sour service, stainless heat exchanger tubes reduce downtime by 40-60% through enhanced fouling resistance and self-passivating surfaces, aligning with API 660 guidelines for sustainable operations. Whether for high temperature heat transfer tubing in gas coolers or general boiler exchanger protection in HVAC systems, these tubes provide a cost-effective, high-reliability option, ensuring seamless integration and peak performance in oil & gas, energy, and biotechnology sectors.

Specifications

• Applications
• Tube Types & Grades
• Specifications
• Heat Treatment & Annealing
• Testing & QC
• Surface & Delivery

Stainless heat exchanger tubes application

Stainless steel heat exchanger tubes are supplied to a wide range of industries including petrochemical, power generation, pulp/paper, and chemical processing. They are suitable for all types of heat exchangers, such as seawater coolers, condensers, evaporators, heaters, and reheaters.

• Nuclear Industry
• Chemical Industry
• Petrochemical industry
• HVAC (Heating Ventilation Air Conditioning), refrigeration
• Food and Beverages
• Power Generation

• Seamless Tubes: Manufactured to provide a smooth surface and superior strength.
• Welded Tubes: Economical option with excellent mechanical properties.
• Popular Grades: 304L (1.4306) and 316L (1.4404) for austenitic stainless steels; duplex stainless steels, nickel alloys, titanium, and zirconium are also available.

• Size Range: Outer diameter 6.35mm – 76.2mm; Wall thickness 0.91mm – 3.25mm.
• Standards: ASTM A213/A213M for seamless, ASTM A249/A249M for welded.
• Gauges: Available in Standard Wire Gauge (SWG) or Birmingham Wire Gauge (BWG).

• Bright Annealing: Stainless steel heated in a closed furnace with reducing atmosphere (H2 or inert gas) followed by rapid cooling to create a corrosion-resistant protective layer and smooth bright surface.
• Annealing Temperature: 300-series austenitic steels: 1050-1150°C; 400-series ferritic steels: ~900°C.
• Equipment: Cooling sections with adjustable air flow, muffle tube furnaces for uniform heating, fine-tuned roller tension adjustment for strip consistency.

• Chemical composition analysis with 100% PMI and direct reading spectrometer.
• Visual inspection and endoscope test for surface quality.
• 100% Hydrostatic and Eddy Current testing.
• Ultrasonic wall thickness measurement.
• Mechanical tests: Tension, Flattening, Flaring, Hardness, and Impact.
• Grain size and intergranular corrosion testing.

• Inner and outer surfaces temporarily protected with light mineral oil unless otherwise specified.
• Tubes supplied plain, square cut, and can be deburred on request.
• Ends with caps according to purchase order specifications.
• Packaging: Seaworthy wooden cases with plastic protection, plywood cases, steel racks, or hexagonal bundles.

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