We are a premier manufacturer and supplier of premium titanium alloy products, delivering precision-engineered solutions that meet the exacting demands of the most challenging industries. With decades of expertise in titanium metallurgy and advanced manufacturing capabilities, we provide comprehensive titanium alloy solutions including titanium tubes, titanium pipes, titanium bars, titanium rods, titanium sheets, titanium plates, titanium forgings, and custom titanium components.
Our commitment to quality, innovation, and customer satisfaction has established us as a trusted partner for organizations worldwide. Whether you require commercially pure titanium or advanced alloy systems such as Grade 5 titanium (Ti-6Al-4V), Grade 7 titanium (Ti-0.2Pd), Grade 23 titanium, or specialized compositions, we combine cutting-edge manufacturing technology with rigorous quality control to deliver products that exceed expectations.
State-of-the-art production facilities utilizing advanced continuous welding technology, precision extrusion, forging, and rolling processes to manufacture titanium alloy tubes, titanium pipes, and other forms with exceptional dimensional accuracy and superior surface finishes.
Every titanium alloy product undergoes comprehensive testing including 100% X-ray inspection, ultrasonic testing, liquid penetrant inspection, and mechanical property verification, ensuring full compliance with ASTM, DIN, and AMS specifications.
Extensive inventory of titanium alloys across all major grades and sizes, from seamless titanium tubes (0.4mm-340mm OD) to large-diameter welded titanium pipes (90mm-5000mm OD), including custom configurations.
Tailored titanium alloy solutions including custom sizing, coiled tubing, finned tubing, titanium forgings, and specialized titanium components to meet exact specifications, reducing downstream processing requirements and optimizing supply chains.
Strategically positioned inventory and established logistics partnerships ensure rapid delivery of titanium alloy products worldwide, supporting just-in-time manufacturing with flexible trade terms (EXW, DDP, FOB, CIF, FAS).
Metallurgical engineers and technical specialists provide comprehensive application support for titanium alloy material selection, process optimization, and quality verification throughout project lifecycles.
Titanium alloys possess outstanding corrosion resistance that distinguishes them as premier materials for aggressive environments. The natural oxide layer provides superior resistance to seawater, chlorides, acids, and alkaline solutions, making titanium tubes and titanium pipes ideal for marine engineering, chemical processing equipment, and offshore applications. Unlike stainless steel, which can suffer from pitting and crevice corrosion in chloride environments, titanium alloy products maintain structural integrity even after decades of exposure to corrosive media. This makes them the preferred choice for heat exchangers, condensers, and chemical reactors in the most demanding industrial environments.
The exceptional strength-to-weight ratio of titanium alloys enables significant weight reduction in aerospace and automotive applications. With density approximately 40% lower than steel while maintaining comparable or superior strength, titanium tubes, titanium bars, and titanium rods enable improved fuel efficiency in aircraft hydraulic systems and enhanced performance in racing exhaust systems. Grade 5 titanium (Ti-6Al-4V), for instance, delivers tensile strengths exceeding 900 MPa while weighing substantially less than equivalent steel components, making it invaluable for weight-critical applications.
Excellent biocompatibility positions medical-grade titanium alloy products as the material of choice for surgical instruments and biomedical devices. Titanium's inert nature prevents adverse tissue reactions, making it extensively used in endoscopes, infusion pumps, and orthopedic surgical instruments where biocompatibility and mechanical performance are critical. The material's compatibility with sterilization processes and resistance to bodily fluids make titanium tubes and titanium components ideal for implantable devices and long-term medical applications.
Outstanding high-temperature performance enables titanium alloys to maintain mechanical properties at elevated temperatures where aluminum alloys would fail. Titanium alloy products retain significant strength at temperatures up to 600°C, making titanium tubes, titanium pipes, and titanium bars suitable for aero-engine components, exhaust systems, and heat exchanger applications where thermal stability is essential. This thermal capability, combined with corrosion resistance, makes titanium alloys irreplaceable in demanding thermal environments.
Titanium alloys, particularly Grade 5 titanium and other alpha-beta alloys, exhibit exceptional fatigue resistance, making them ideal for cyclic loading applications. This property is particularly valuable in aerospace applications where components experience thousands of stress cycles during flight operations. Titanium tubes and titanium bars maintain their integrity under repeated stress, ensuring long service life and reliability in critical applications.
Precision-manufactured seamless titanium tubes offering superior dimensional accuracy and surface quality for critical applications requiring leak-free performance in aerospace, chemical, and medical industries.
Large-diameter welded titanium pipes with continuous welding technology ensuring uniform, strong weld seams meeting ASTM B862 requirements for structural and industrial applications.
High-performance titanium bars and titanium rods engineered for structural applications, fasteners, and mechanical components requiring superior strength and corrosion resistance.
Precision titanium sheets and titanium plates for aerospace skin, structural components, and industrial applications requiring excellent formability and corrosion resistance.
Custom titanium forgings and titanium components manufactured through advanced forging processes for aerospace, automotive, and industrial applications requiring complex geometries and superior mechanical properties.
High-performance titanium tubes for aerospace and automotive exhaust systems, engineered for thermal stability and corrosion resistance at extreme temperatures.
Flexible coiled titanium tubes for applications requiring compact installation and routing flexibility in aerospace and industrial systems.
Tailored titanium components and titanium alloy products manufactured to exact specifications for specialized aerospace, medical, and industrial applications.
The Kroll process is the primary method for producing titanium metal from titanium ore. This process involves treating rutile (titanium dioxide) with chlorine gas to produce titanium tetrachloride, which is then reduced with magnesium in an inert atmosphere. This process forms the foundation for all titanium alloy production, ensuring high-purity titanium metal that serves as the base material for our titanium tubes, titanium pipes, titanium bars, and other titanium alloy products.
Vacuum Arc Remelting is a critical refining process used to improve the quality and homogeneity of titanium alloys. This process melts titanium alloy electrodes in a water-cooled copper crucible under vacuum or inert gas atmosphere, producing ingots with superior cleanliness and microstructure. VAR-processed material is essential for aerospace-grade titanium tubes, titanium bars, and Grade 5 titanium components requiring the highest performance standards.
EBCHR is an advanced remelting technology that uses electron beams to melt titanium alloy feedstock in a water-cooled copper crucible. This process provides superior control over composition and microstructure, producing premium-quality titanium alloy ingots for critical aerospace applications. The resulting material is ideal for manufacturing high-performance titanium tubes, titanium pipes, and titanium forgings.
Our state-of-the-art continuous welding processes produce titanium pipes with uniform, strong weld seams meeting ASTM B862 requirements. Advanced welding parameters and real-time monitoring ensure consistent quality across all titanium tube and titanium pipe production, eliminating defects and ensuring structural integrity.
Advanced extrusion and rolling technology enables production of titanium tubes, titanium bars, titanium rods, titanium sheets, and titanium plates with exceptional dimensional accuracy and superior surface finishes. These processes are carefully controlled to maintain the mechanical properties and microstructure of titanium alloys.
Our forging capabilities enable production of complex titanium components and titanium forgings with superior mechanical properties. Advanced forging techniques combined with precise heat treatment produce titanium alloy products that meet the most demanding aerospace and industrial specifications.
We offer advanced additive manufacturing capabilities for producing complex titanium components and titanium alloy products with minimal material waste. Laser-based and electron beam technologies enable production of intricate geometries that would be difficult or impossible to achieve through traditional manufacturing methods, expanding the possibilities for titanium alloy applications in aerospace, medical, and industrial sectors.
| Standard | Description | Primary Applications |
|---|---|---|
| ASTM B338 | Seamless and welded titanium tubes for condensers and heat exchangers | Heat exchangers, condensers, chemical processing equipment, seawater applications |
| ASTM B861 | Seamless titanium tubes and titanium alloy tubes | Aerospace hydraulic systems, high-pressure applications, critical components |
| ASTM B862 | Welded titanium tubes and titanium alloy pipes | Large diameter titanium pipes, structural applications, industrial piping |
| ASTM B348 | Titanium bars and titanium rods | Structural components, fasteners, mechanical applications |
| ASTM B265 | Titanium sheets and titanium plates | Aerospace skin, structural components, industrial applications |
| DIN 17861 | German standard for titanium tubes and titanium pipes | European industrial applications, precision engineering |
| AMS 4941/4942 | Aerospace Material Specifications for titanium alloys | Aerospace components, defense applications, critical systems |
| Grade | UNS Number | Key Characteristics | Typical Applications |
|---|---|---|---|
| Grade 1 (CP Ti) | R50250 | Commercially pure, excellent formability, superior corrosion resistance, lowest strength | Heat exchanger titanium tubes, chemical processing titanium pipes, seawater applications |
| Grade 2 (CP Ti) | R50400 | Most widely used CP grade, excellent corrosion resistance, good strength, superior formability | Condenser titanium tubes, marine titanium pipes, industrial tubing, general purpose applications |
| Grade 3 (CP Ti) | R50550 | Higher strength than Grade 2, excellent corrosion resistance, good formability | Pressure vessels, industrial titanium tubes, chemical processing equipment |
| Grade 4 (CP Ti) | R50700 | Highest strength CP grade, excellent corrosion resistance, limited formability | High-pressure titanium tubes, aerospace components, structural applications |
| Grade 5 (Ti-6Al-4V) | R56400 | Exceptional strength (895 MPa), excellent fatigue resistance, high strength-to-weight ratio, most versatile alloy | Aerospace hydraulic titanium tubes, high-performance exhaust titanium pipes, titanium bars, structural components, titanium forgings |
| Grade 5 ELI (Ti-6Al-4V ELI) | R56401 | Extra-low interstitial Grade 5 titanium, superior ductility and fracture toughness for biomedical applications | Medical implants, surgical instruments, biomedical titanium tubes and titanium components |
| Grade 7 (Ti-Pd) | R52400 | Enhanced corrosion resistance in reducing acids, superior chemical resistance, similar strength to Grade 2 | Chemical processing equipment, oil & gas applications, highly corrosive environments, titanium tubes for aggressive media |
| Grade 9 (Ti-3Al-2.5V) | R56320 | Good strength, excellent cold formability, lightweight, good weldability | Hydraulic titanium tubes, bicycle frames, sporting goods, lightweight applications, titanium sheets |
| Grade 12 (Ti-Mo-Ni) | R53400 | Excellent crevice corrosion resistance, superior pitting resistance, enhanced strength | Chemical processing, marine engineering, highly corrosive environments, seawater applications |
| Grade 23 (Ti-6Al-2Sn-4Zr-2Mo ELI) | R56623 | Extra-low interstitial, superior biocompatibility, excellent corrosion resistance, high strength | Medical implants, biomedical devices, surgical instruments, orthopedic applications |
| Product Type | Outer Diameter Range | Wall Thickness Range | Length Range |
|---|---|---|---|
| Seamless Titanium Tubes | 0.4 mm – 340 mm | 0.4 mm – 10 mm | Up to 18,000 mm |
| Welded Titanium Pipes | 90 mm – 5,000 mm | 0.5 mm – 50 mm | Up to 15,000 mm |
| Titanium Bars & Rods | 6 mm – 300 mm (diameter) | N/A | Up to 6,000 mm |
| Titanium Sheets & Plates | Up to 2,000 mm (width) | 0.5 mm – 50 mm | Up to 4,000 mm (length) |
The aerospace industry relies on our titanium alloy expertise for weight-critical applications where performance and reliability are paramount. Our Grade 5 titanium products and other aerospace-grade titanium alloys meet the most stringent specifications:
Aircraft Hydraulic Systems: Lightweight, high-strength titanium tubes improve fuel efficiency while maintaining system reliability through thousands of flight cycles
Aero-Engine Components: Titanium pipes and titanium tubes deliver exceptional performance in high-temperature, high-pressure engine environments
Fuel Delivery Systems: Seamless titanium tubes provide leak-free fuel lines for aircraft and missiles
Structural Components: Titanium bars, titanium rods, and titanium sheets for airframe structures
Landing Gear Components: Titanium forgings and titanium components for landing gear systems
Our titanium alloy products provide corrosion-resistant solutions for the most demanding chemical processing environments:
Heat Exchangers & Condensers: Titanium tubes provide decades of reliable service in seawater-cooled systems where stainless steel would rapidly fail
Chemical Reactors & Pipelines: Titanium pipes handle aggressive acids, chlorides, and alkaline solutions without corrosion or contamination
Oil & Gas Processing: Downhole tubing, offshore platform titanium pipes, and subsea equipment benefit from titanium alloy corrosion resistance
Electroplating & Surface Finishing: Titanium tubes serve as heating coils and process piping in plating baths and etching solutions
Desalination Plants: Titanium tubes in multi-stage flash distillation and reverse osmosis systems
Our titanium alloy products support critical power generation infrastructure:
Condenser Tubes: Titanium tubes in thermal and nuclear power plants provide superior corrosion resistance in seawater cooling systems
Heat Recovery Systems: High thermal conductivity titanium tubes maximize energy efficiency
Geothermal Applications: Coiled titanium tubes withstand corrosive geothermal fluids and high temperatures
Cooling Water Systems: Titanium pipes for reliable, maintenance-free operation in harsh environments
Medical-grade titanium alloy products, particularly Grade 5 ELI and Grade 23 titanium, meet stringent biocompatibility requirements:
Surgical Instruments: Endoscopes, arthroscopes, and minimally invasive surgical tools utilize small-diameter precision titanium tubes
Medical Devices: Infusion pumps, catheter components, and implantable device housings benefit from titanium alloy biocompatibility
Dental Equipment: Handpiece tubing and irrigation systems leverage titanium tubes corrosion resistance and sterilization compatibility
Orthopedic Implants: Titanium bars, titanium rods, and titanium components for joint replacements and fixation devices
High-performance applications demand the quality of our titanium alloy products:
Exhaust Systems: Titanium tubes reduce weight and improve performance in racing and high-end vehicles
Sporting Goods: Bicycle frames, golf club shafts, and tennis rackets use lightweight titanium tubes and titanium bars
Motorcycle Components: Performance exhaust systems and structural tubing benefit from titanium alloy strength-to-weight ratio
Racing Components: High-performance titanium tubes and titanium bars for weight reduction and durability
Our titanium alloy products serve demanding marine applications:
Seawater Desalination: Titanium tubes in multi-stage flash distillation and reverse osmosis systems resist seawater corrosion indefinitely
Shipboard Systems: Fire suppression piping, ballast systems, and seawater cooling titanium pipes benefit from corrosion-free operation
Subsea Equipment: ROV and AUV hydraulic systems use titanium tubes for reliability in deep-ocean environments
Offshore Platforms: Process titanium pipes and structural tubing withstand harsh marine atmospheres without protective coatings
Marine Heat Exchangers: Titanium tubes for seawater cooling in naval vessels and commercial ships
Our comprehensive titanium alloy product range supports diverse industrial applications:
Pressure Vessels: Titanium sheets, titanium plates, and titanium bars for high-pressure storage and processing equipment
Fastening Systems: Titanium rods and titanium bars for bolts, screws, and fasteners in corrosive environments
Heat Treatment Equipment: Titanium tubes and titanium pipes for furnace components and thermal processing systems
Filtration Systems: Titanium tubes for sintered filter elements and filtration equipment
As a premier titanium alloy manufacturer, we ensure exceptional product quality through advanced production technologies and rigorous quality control protocols. Every titanium alloy product, from titanium tubes and titanium pipes to titanium bars and titanium components, undergoes comprehensive testing and verification to guarantee superior performance and reliability.
Advanced welding processes produce titanium pipes with uniform, strong weld seams meeting ASTM B862 requirements and ensuring structural integrity for critical applications.
Every welded titanium pipe undergoes radiographic testing to ensure no internal defects compromise structural integrity or performance of titanium alloy products.
Non-destructive testing verifies wall thickness uniformity and detects any material discontinuities in titanium tubes, titanium pipes, and other titanium alloy products.
Surface defect detection ensures superior surface quality for critical applications of titanium tubes, titanium bars, and titanium components requiring flawless surfaces.
Precision measurement equipment confirms all titanium tubes, titanium pipes, titanium bars, and titanium sheets meet specified tolerances and dimensional requirements.
Complete mill test reports and material traceability documentation accompany every shipment of titanium alloy products, ensuring full transparency and accountability for all titanium tubes, titanium pipes, and titanium components.
Tensile testing, hardness testing, and fatigue testing verify that all titanium alloy products meet specification requirements for strength, ductility, and fatigue resistance.
Metallographic examination ensures proper grain structure and phase distribution in titanium alloys, particularly important for aerospace-grade Grade 5 titanium and medical-grade Grade 23 titanium products.
Whether you need standard titanium alloy products, large-diameter titanium pipes, specialized titanium tubes, titanium bars, or customized titanium components, our expert team is ready to assist. Contact us today for a free quote and technical consultation on your titanium alloy requirements.
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