gr1,gr2 thin thickness titanium tube for exhaust pipe
  • Standard:ASTM B337/ASTM B338/ASTM B861/ASME SB338
  • Stock size: 50*0.8mm/50*1mm/60*0.5mm/63.5*1mm/63*1.5mm/76*1.5mm/89*1.5mm…
  • Regular size:Thickness:≥0.5mm  Outer diameter:3-114mm  Length:≤6000mm
  • Other parameters:Surface: Polished/Pickling  Technique: Cold Rolled/hot rolled

gr5 Ti6Al4V titanium alloy tube/pipe for industry
  • Standard: ASTM B861
  • Regular size:Thickness:≥0.5mm  Outer diameter:≤214mm  Length:≤6000mm
  • Other parameters:Surface: Polished    Technique: Cold Rolled/hot rolled
  • Place of Origin:Shaanxi BaoJi China

ASTM 861 grade 5 titanium alloy tube
  • Standard: ASTM B861
  • Regular size:Thickness:≥0.5mm  Outer diameter:≤214mm  Length:≤6000mm
  • Other parameters:Surface: Polished    Technique: Cold Rolled/hot rolled
  • Place of Origin:Shaanxi BaoJi China

grade 5 titanium tube different size baoji supplier

Titanium alloys are mainly used to make aircraft engine compressor components, followed by structural components for rockets, missiles and high-speed aircraft. Titanium and its alloys have been used in industry for the production of electrodes for the electrolysis industry, condensers for power stations, heaters for petroleum refining and seawater desalination, and environmental pollution control devices.

Gr2 pure titanium seamless tube /pipe

Titanium alloy works in moist atmosphere and seawater medium, and its corrosion resistance is much better than that of stainless steel; it is particularly resistant to pitting, acid etching and stress corrosion; organic substances for alkali, chloride and chlorine, nitric acid, sulfuric acid Such as excellent corrosion resistance.

Gr1 gr2 pure titanium tube for Heat Exchanger

Regular size:Thickness:≥0.5mm  Outer diameter:≤214mm  Length:≤6000mm
The titanium tube is light in weight, high in strength and superior in mechanical properties. It is widely used in heat exchange equipment such as tubular heat exchangers, coil heat exchangers, serpentine heat exchangers, condensers, evaporators and pipelines. Many nuclear power industries use titanium tubes as their standard units.

Gr9 Ti-3Al-2.5V seamless tube for bike frame

Stock size:please contact,We will send the stock list to you.
Gr9 is a near-α type titanium alloy with a nominal composition of Ti-3Al-2.5V. Its strength is 20%-50% higher than that of pure titanium at room temperature and high temperature. The welding performance and cold forming performance are better than gr5.

ASTM B338 grade 9 titanium alloy tube
  • Standard: ASTM B338
  • Stock size:plesae contact
  • Other parameters:Surface: Polished    Technique: Cold Rolled/hot rolled
  • Place of Origin:Shaanxi BaoJi China

Gr2 ASTM B338 pure titanium square tube

Specifications: outer diameter (4–108) mm × wall thickness (0.05–10) mm × length (1000–9000) mm/as your requirements to produce
Processing: hot rolling, cold rolling, annealing

Gr5 titanium square tube

Application:Petrochemical equipment, coal chemical, fluorine chemical, fine chemical, PTA, aviation manufacturing, environmental protection, seawater desalination, paper machinery, pharmaceutical equipment, heat exchange equipment, electrochemistry, metallurgy, offshore platforms, nuclear energy, chlor-alkali, shipbuilding, cement manufacturing, Explosive composite, acetic acid anhydride, salt production, medical equipment, sports and leisure and plate heat exchangers, bellows expansion joint compensator and other industries


ItemTitanium  tube/tubes/pipe/pipes/tubing
StandardASME SB338, ASTM B338, ASTM B861
MaterialGr1, Gr2, Gr3, Gr5, Gr7, Gr9, Gr11, Gr12, etc
Size(mm)Diameter                                    3-114mm
Section shapeRound/ Square
CertificationISO9001:2008, SGS
Surface Treatmentpickling, polished, bright finish etc.
ApplicationHeat exchanger, cooling tower, aviation, medical, industry etc.
Feature1.Low Density and High Strength
2.Excellent Corrosion Resistance
3.Good resistance to effect of heat
4.Excellent Bearing to cryogenic property
5.Nonmagnetic and Non-toxic6.Good thermal properties

7.Low Modulus of Elasticity


1. First-class technonlgy and the rigorous work attitude

2. We have the most professional team to solve all kinds of the problems you have during the

manufacturing process and provide your pressure vessel drawing for free if you need.

3. Low purchasing cost for repetitive orders in the long-run as our

performance/price ratio is higher.
4. Never be backorder.
5. Excellent customer service policies on repair/exchange/refund.
6. Serving both domestic and overseas customers with variousrequirements for 22 years.

Chemical Propeties:


Titanium has excellent properties such as low density, high specific strength, corrosion resistance, small coefficient of linear expansion and good biocompatibility. As a raw material for the welding of titanium equipment and titanium parts, titanium alloy tube is generally used in two aspects. First, it is further processed as a structural part to produce standard parts, precision instrument structural parts, pendants, wire mesh, etc , aerospace, military products, welding of plastics and fabrics manufacturing process; third, ultra-fine wire directly used in the control equipment parts for precision instrument structural parts. These three applications have good requirements for the accuracy and surface quality of titanium and titanium alloy tubes.

At present, the production of titanium and titanium alloy wire at home and abroad mainly adopts the processes of drawing, grinding, annealing, acid-base washing, cut-to-length, straightening, etc., and requires 20 drawing passes in the whole production process. Four intermediate grindings, ten intermediate annealings, two to three acid-base washing processes, and straightening processes. In the case of high temperature heating, the wire diameter is controlled by the hole die, the straight wire processing is difficult, the surface precision is poor, the hydrogen absorption and oxygen are serious, and the single disk weight is low, which can not meet the requirements of high precision titanium; the acid and alkali cleaning surface has a large It is polluting and can only pickle the surface of titanium and cannot produce bright titanium. The straightening process will cause the surface of the titanium material to form a straightening pattern which is difficult to eliminate, and the surface damage of the titanium material is more serious.
The titanium alloy tube is treated by the acid-base process. The straightening machine is used for straightening the titanium material. The process is complicated, the production efficiency is low, the yield is low, and a large amount of energy is wasted while causing environmental pollution.

ASTM B338 Outer diameter 4mm thickness 0 5mm Outer diameter 3mm thickness 0 5mm Outer diameter 5mm thickness 0 5mm














Titanium tubes are light weight and exceptionally corrosion and heat resistant The density of titanium is about 60 per cent of that of steel- or nickel-based alloys giving significant weight savings in aerospace structures. The tensile strength is better than that of austenitic or ferritic stainless steels. Titanium is exceptionally corrosion resistant and exceeds the resistance of stainless steels in most environments.


The metal is non-magnetic too, and has good heat transfer properties, with a melting point higher than steel alloys.




Titanium alloys are widely used in various fields due to their high specific strength, good corrosion resistance and high heat resistance. It is widely used in heat exchange equipment such as tubular heat exchangers, coil heat exchangers, serpentine heat exchangers, condensers, evaporators and pipelines. Many nuclear power industries use titanium tubes as their standard units.




Титановые трубы имеют малый вес и исключительно устойчивы к коррозии и нагреву. Плотность титана составляет около 60% от плотности сплавов на основе стали или никеля, что обеспечивает значительную экономию веса в аэрокосмических конструкциях. Прочность на растяжение лучше, чем у аустенитных или ферритных нержавеющих сталей. Титан исключительно устойчив к коррозии и превосходит стойкость нержавеющих сталей в большинстве сред.

Металл тоже немагнитный, имеет хорошие теплообменные свойства, температура плавления выше, чем у стальных сплавов.


Титановые сплавы широко используются в различных областях благодаря их высокой удельной прочности, хорошей коррозионной стойкости и высокой термостойкости. Он широко используется в теплообменном оборудовании, таком как трубчатые теплообменники, змеевики, теплообменники, конденсаторы, испарители и трубопроводы. Многие отрасли ядерной энергетики используют титановые трубы в качестве стандартных единиц.


Os tubos de titânio são leves e excepcionalmente resistentes à corrosão e ao calor A densidade do titânio é de cerca de 60% da das ligas à base de aço ou níquel, o que proporciona uma redução significativa de peso nas estruturas aeroespaciais. A resistência à tração é melhor que a dos aços inoxidáveis austeníticos ou ferríticos. O titânio é excepcionalmente resistente à corrosão e excede a resistência dos aços inoxidáveis na maioria dos ambientes.

O metal também não é magnético e possui boas propriedades de transferência de calor, com um ponto de fusão superior às ligas de aço.


As ligas de titânio são amplamente utilizadas em vários campos devido à sua alta resistência específica, boa resistência à corrosão e alta resistência ao calor. É amplamente utilizado em equipamentos de troca de calor, como trocadores de calor tubulares, trocadores de calor de serpentinas, trocadores de calor em serpentina, condensadores, evaporadores e tubulações. Muitas indústrias de energia nuclear usam tubos de titânio como suas unidades padrão.


I tubi in titanio sono leggeri e eccezionalmente corrosivi e resistenti al calore. La densità del titanio è circa il 60 percento di quella delle leghe a base di acciaio o nichel che consente un notevole risparmio di peso nelle strutture aerospaziali. La resistenza alla trazione è migliore di quella degli acciai inossidabili austenitici o ferritici. Il titanio è eccezionalmente resistente alla corrosione e supera la resistenza degli acciai inossidabili nella maggior parte degli ambienti.

Anche il metallo è non magnetico e ha buone proprietà di trasferimento del calore, con un punto di fusione più alto delle leghe di acciaio.


Le leghe di titanio sono ampiamente utilizzate in vari campi a causa della loro elevata resistenza specifica, buona resistenza alla corrosione e alta resistenza al calore. È ampiamente utilizzato in apparecchiature di scambio termico come scambiatori di calore tubolari, scambiatori di calore a serpentina, scambiatori di calore a serpentina, condensatori, evaporatori e condotte. Molte industrie nucleari usano tubi di titanio come unità standard.


Los tubos de titanio son livianos y excepcionalmente resistentes a la corrosión y al calor. La densidad del titanio es aproximadamente el 60 por ciento de la de las aleaciones a base de acero o níquel, lo que permite un importante ahorro de peso en las estructuras aeroespaciales. La resistencia a la tracción es mejor que la de los aceros inoxidables austeníticos o ferríticos. El titanio es excepcionalmente resistente a la corrosión y excede la resistencia de los aceros inoxidables en la mayoría de los entornos.

El metal tampoco es magnético y tiene buenas propiedades de transferencia de calor, con un punto de fusión más alto que las aleaciones de acero.


Las aleaciones de titanio son ampliamente utilizadas en varios campos debido a su alta resistencia específica, buena resistencia a la corrosión y alta resistencia al calor. Es ampliamente utilizado en equipos de intercambio de calor tales como intercambiadores de calor tubulares, intercambiadores de calor de bobinas, intercambiadores de calor de serpentina, condensadores, evaporadores y tuberías. Muchas industrias de energía nuclear utilizan tubos de titanio como sus unidades estándar.

제품 특징:

티타늄 튜브는 경량이며 예외적으로 부식 및 내열성이 뛰어납니다. 티타늄 밀도는 철강 또는 니켈 기반 합금의 60 %에 달하며 항공 우주 구조물의 중량을 현저히 줄여줍니다. 인장 강도는 오스테 나이트 계 스테인리스 강이나 페라이트 계 스테인리스 강보다 우수합니다. 티타늄은 예외적으로 내 부식성이 있으며 대부분의 환경에서 스테인리스 강의 저항력을 능가합니다.

금속은 비자 성체이기도하며, 열전달 특성이 좋으며 용융점이 강철 합금보다 높습니다.


티타늄 합금은 높은 비강도, 우수한 내 부식성 및 높은 내열성으로 인해 다양한 분야에서 널리 사용됩니다. 관형 열교환 기, 코일 열교환 기, 구불 구불 한 열교환 기, 응축기, 증발기 및 파이프 라인과 같은 열교환 장비에 널리 사용됩니다. 많은 원자력 산업은 표준 단위로 티타늄 튜브를 사용합니다.