High-Performance
Heat Exchanger Tubes

Titanium, stainless steel, copper, and copper alloy tubes for efficient, stable, and reliable heat transfer.

Heat Exchanger Tube Types

Our heat exchanger tubes are designed for shell-and-tube heat exchangers, evaporators, condensers, chillers, and industrial heat transfer systems. We provide titanium and titanium alloy tubes for corrosion-resistant applications, stainless steel tubes for high-strength and durable operation, and copper or copper alloy tubes for excellent thermal conductivity. Tube materials, structures, tooth profiles, and dimensions can be customized according to working conditions, media, pressure, temperature, and heat transfer requirements.

Titanium and Titanium Alloy Heat Exchanger Tubes

Lightweight, corrosion-resistant tubes for harsh chemical heat exchange.

Stainless Steel Heat Exchanger Tubes

Stable, durable tubes for broad industrial heat exchange applications.

Copper and Copper Alloy Heat Exchanger Tubes

High-conductivity, easily processed tubes for efficient heat exchange.

Titanium and Titanium Alloy Heat Exchanger Tubes

Thermal Conductivity: λ = 15.24 W/(m·K)
Mechanical Properties: Yield strength: 240–550 MPa; tensile strength: 240–700 MPa; elongation: 15–55%. Lower strength values indicate easier forming, while higher elongation means better ductility.

Corrosion Resistance

Resistant to oxidizing, high-chloride, mildly acidic, and strongly alkaline environments, with wide application suitability.

Processability

Easier to form than stainless steel, but prone to tool adhesion and severe tool wear during machining.

Economic Performance

Titanium is currently priced close to copper. Due to its low density of 4.5 g/cm³, its converted cost is close to 316L stainless steel.

Stainless Steel Heat Exchanger Tubes

Thermal Conductivity: 304/316L: λ = 16.2 W/(m·K); 436/439: λ = 24.2 W/(m·K).
Mechanical Properties:
300 series: yield strength 220–270 MPa, tensile strength 510–580 MPa, elongation 40–65%.
400 series: yield strength 200–230 MPa, tensile strength 400–450 MPa, elongation 20–30%.
300 series stainless steel has stronger work-hardening, while 400 series is less prone to hardening and easier to process.

Corrosion Resistance

Resistant to oxidizing environments, moderate chloride concentrations, general acidic environments, and strong alkaline conditions, offering wide application suitability.

Processability

Relatively difficult to machine. Higher carbon content increases machining difficulty, and plastic hardening becomes significant after processing.

Economic Performance

Cost-effective, especially 400 series stainless steel, which is more economical than 300 series under similar corrosion resistance requirements.

Copper and Copper Alloy Heat Exchanger Tubes

Thermal Conductivity: Pure copper: λ = 386.4 W/(m·K); aluminum brass: λ = 203 W/(m·K); cupronickel: λ = 40 W/(m·K).
Mechanical Properties:
1.Pure copper: yield strength 70–90 MPa, tensile strength 200–250 MPa, elongation 50–65%.
2.Cupronickel: yield strength 200–230 MPa, tensile strength 350–400 MPa, elongation 35–45%.
3.Aluminum brass: yield strength 200–230 MPa, tensile strength 400–550 MPa, elongation 20–40%.

Corrosion Resistance

A wide range of grades is available, allowing suitable material selection for different operating environments.

Processability

Pure copper is very easy to process, aluminum brass is relatively difficult, and cupronickel offers moderate processability. Overall, copper alloys can be processed into high-efficiency enhanced profiles.

Economic Performance

Copper alloys are relatively expensive and less cost-effective.

Externally Grooved Heat Exchange Tube

Processing Method

Welded or seamless tube blanks are cold-rolled and formed using a three-roll rolling mill.

Product Advantages

1. High finning coefficient for a larger heat transfer surface area.
2. Custom tooth profiles for condensation, falling-film, and flooded heat exchange.
3. Copper and copper alloy finned tubes provide high heat transfer efficiency and flexible material options.
4. Titanium and stainless steel tubes offer strong pressure and corrosion resistance with good cost performance.

Applications

1. Shell-and-tube evaporators, condensers, and other heat exchange equipment.
2. Chemical heat exchangers, reactors, and industrial heat transfer systems.

Internally Grooved Heat Exchange Tube

Processing Method

Serrated metal strips are welded and formed into tubes for stainless steel and titanium materials.Seamless copper tubes are spin-formed for copper materials.

Product Advantages

1. High-efficiency serration rolling with lower production cost, suitable for difficult-to-machine metals.
2. Open-type serration rolling enables high-performance tooth profiles not achievable by conventional spin-forming.
3. Clean processing: metal strips are cleaned before forming, leaving minimal residues.

Applications

Applicable to shell-and-tube dry evaporators, corrosion-resistant air coolers and surface air coolers, evaporative cooling equipment, and non-refrigeration heat exchangers such as heat pipes, condensers, and related equipment.

Standard Products Available. Custom Solutions Ready.

We provide standard shell and tube heat exchanger products, and most models can be customized based on your working conditions, medium, temperature, pressure, flow rate, installation space, connection type, and material requirements.

Customization Process

From requirement communication to drawing confirmation and production,we provide an efficient and reliable customization process for shell and tube heat exchangers.

01

Submit application requirements

Share your application, equipment use, or product reference, and we help confirm the suitable solution.

02

Confirm technical parameters

Confirm cooling capacity, medium, pressure, temperature, flow rate, size, connection, and material requirements.

03

Preliminary solution design

Design the structure, size, connections, materials, and heat transfer performance based on working conditions.

04

Quotation and solution communication

Provide a fast quotation based on design, materials, and production requirements, with further optimization available.

05

Drawing confirmation

Finalize drawings, structure, dimensions, connection direction, materials, and production details.

06

Customized manufacturing

Manufacture according to confirmed drawings, including processing, assembly, welding, and inspection.

Why Choose Us

Our Advantages

High-quality shell and tube heat exchangers backed by faster delivery, reliable quality, and certified manufacturing capability.

Customized Production

Custom design based on project requirements, working conditions, and technical parameters.

Reliable Quality Assurance

Strict quality control from raw materials to finished products, with a 99.9% pass rate and a 36-month warranty.

Reliable Partnership

Professional support for product selection, material configuration, structural design, and technical evaluation.

Fast Delivery

Standard products can usually be delivered within 6–8 days.

Certified Manufacturing

Backed by 77 patents and D1/D2 certification for stronger manufacturing capability.

Responsive After-sales Service

Fast response and on-site technical support available when needed.

6-8 Days

Fast Delivery
Standard products can usually be delivered within 6–8 days.

99.9%

Pass Rate
Strict quality control from raw materials to finished products.

77

Patents Continuous innovation drives industry-leading performance.

36-Month

Warranty

Reliable product quality with long-term warranty for your peace of mind.

100+

Global Customers Trusted by customers in 30+ countries across various industries.

Production & Quality Control

From incoming inspection to in-process checking and final inspection, every production stage is strictly controlled.

01 Incoming Material Inspection

02 Tube Sheet Hole Inspection

03 Shell Inner Wall Inspection

04 Appearance & Weld Point Inspection

05 Drawing & Process Verification

06 Shell Dimension Inspection

07 Assembly Dimension Inspection

08 Final Inspection

09 Final Inspection Report

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