SCH40 ASTM B363 Titanium 90 Degree Elbow

Provide Titanium 45°elbows  and 90° elbows to perfectly fit pipes.
Dimensional tolerances conform to ASME B16.9.
Connection: Welded
Elbow Bend Angles: 45, 60, 90,180
Material : Titanium   Size Range : 0.5″ to 40″

Titanium material ASTM B16.9 pipe fitting

Size: 1/4 inch, 2 inch, 3 inch, >3inch, 3/4 inch, 1 inch
Connection: Male, Welded, Female, Flange
Application: Chemical Fertilizer Pipe, Gas Pipe, Structure Pipe
Elbow Bend Angle: 60 Degree, 90 Degree, 180 Degree, 30 Degree, 45 Degree

ASTM B16.9 GR2 Pure/Ti 90 degree Titanium Elbow

Elbow Bend Angle: 90 Degree, 30 Degree, 45 Degree, 60 Degree
Color: Silver
Material: titanium
Application: Structure pipe, gas pipe, hydraulic pipe, chemical fertilizer pipe
Size: As Per Customer”s Requirement

High quality titanium pipe elbow

Manufacturing & Trading of All type of Equipment ( Pipes, Pipes Fittings & Flanges) for Oil & Gas, EPC , Paper, Refineries, Petrochemicals, Ship Building, Paper & Pulp.
Size Range for Pipes, Pipes Fittings & Flanges – ½ NB to 72

ASME16.9 45 90 180 degree titanium elbow

Size: 1 inch, 3/4 inch, 1/4 inch
Connection: Female, Welded
Application: Hydraulic Pipe, Chemical Fertilizer Pipe, Gas Pipe, Structure Pipe
Elbow Bend Angle: 180 Degree, 90 Degree, 45 Degree, 60 Degree, 30 Degree
Color: Silver


High quality gr1 gr2 gr7 titanium pipe fitting tee

Butt-welded tee: It is a tee fitting that is welded after the butt joint is connected.
Socket tee: It is a tee fitting that is welded or welded after the connecting pipe is inserted into each end of the tee.
The sleeve type tee is a tee pipe fitting in which each end portion is a ferrule joint and the tube member is inserted and then fastened.
Threaded tee: A three-way fitting that connects the fittings in a threaded manner.

Titanium Alloy Equal Tee ASME B16.9 Pipe Fitting

Classified according to the form of branch pipe
Positive three-way: It is the three-way pipe fitting of the vertical pipe of the branch pipe.
oblique tee: is a three-way pipe fittings with a certain angle between the branch pipe and the main pipe.

High Pressure Titanium Pipe Fitting Reducing Tee

Titanium tee features
Excellent corrosion resistance in many media
Low density, high strength and low weight
The surface is smooth and free of dirt, and the fouling coefficient is greatly reduced.

High Quality Custom Titanium Tee

Application range
Widely used in chemical, petroleum, metallurgy, light industrial machinery, instrumentation, power generation, desalination, medical equipment, chlor-alkali salt, electroplating, environmental protection, copper and other industries.


ASME B16.5 Titanium GR2 Blind Flange

The titanium flange is a part made of titanium or titanium alloy of non-ferrous metal, which connects the pipe to the pipe and is connected to the pipe end.
There are holes in the titanium flange, and the bolts make the two flanges tightly connected. The flanges are sealed with gaskets. Flanged pipe fittings are pipe fittings with flanges (flanges or lands).

gr2 Titanium blind flange ANSI

Surface: forged surface, rolled surface, car surface, polished surface
Uses: Flanges are a type of connector used in pipes, valves, equipment, petrochemical plants.
Flange structure form: plate type flat welding flange, integral flange, neck threaded flange, butt welding flange, neck flat welding flange, butt welding ring plate loose flange, flange cover, blind plate

High quality Forged Titanium Flange for Industrial

Titanium alloy flanges are widely used in various fields due to their high strength, good corrosion resistance and high heat resistance. Many countries in the world have recognized the importance of titanium alloy materials, which have been researched and developed successively and have been put into practical use.


Our company can process titanium pipe fittings including: titanium tee, titanium cross, titanium concentric reducer, titanium eccentric reducer, titanium flange, titanium cap, titanium pipe, titanium weld ring, titanium flange etc.

Connection method is flat welding / butt welding / plug welding connection, pressure resistance PN16 ~ 64, through DN15-DN800, for the connection between the pipe ends; also used in the flange of the equipment inlet and outlet, for two equipment The connection between the two is used for transporting strong alkali, sewage, chloride ion and other media in the pipeline. It is widely used in chlor-alkali industry, soda ash industry, pharmaceutical industry, fertilizer industry, fine chemical industry, textile fiber synthesis and bleaching and dyeing industry, basic organic acid. And inorganic salt production, nitric acid industry, etc.

Principle of use:
The flange is a joint between the pipe and the pipe for the connection between the pipe ends; it is also used for the flange on the inlet and outlet of the equipment for the connection between the two devices, such as the flange of the reducer. A flange connection or a flange joint refers to a detachable connection in which a flange, a gasket and a bolt are connected to each other as a combined sealing structure. Pipe flange refers to the flange used for piping in the pipeline installation. It is used on the equipment to refer to the inlet and outlet flanges of the equipment. There are holes in the flange, and the bolts make the two flanges tightly connected. The flanges are sealed with gaskets. Flange threaded connection (threaded connection) flange, welded flange and clip flange. Flanges are used in pairs. Low-pressure pipes can be used with wire-bonded flanges, and welded flanges are used for pressures above four kilograms. A gasket is placed between the two flanges and then bolted. Different flange thicknesses for different pressures use different bolts. Pumps and valves, when connected to the pipeline, the parts of these equipment are also made into the corresponding flange shape, also known as flange connection. Connection parts that are bolted at the same time around two planes are generally referred to as “flanges”. For example, the connection of ventilation ducts may be referred to as “flange parts”. However, this connection is only a part of the equipment, such as the connection between the flange and the water pump, it is not good to call the pump “flange parts”. Smaller ones such as valves can be called “flange parts”.

Characteristics of titanium alloy

Titanium (Ti) has high strength, light weight, high heat resistance and low temperature toughness, and good processing properties and weldability. For the production of valves, it is mainly casting pure titanium and forging pure titanium GR2.

Titanium exhibits corrosion resistance, corrosion resistance, and even fire and explosion due to different working conditions such as temperature. Therefore, the ordering and design selection should be clearly defined for the nature of the medium used (concentration, temperature, etc.).
Titanium valves have excellent corrosion resistance in a variety of oxidatively aggressive media and neutral media.
Titanium has excellent corrosion resistance in nitric acid below the boiling point and concentration ≤ 80%. In the case of fuming nitric acid, when the NO2 content exceeds 2% and the water content is insufficient, titanium reacts with fuming nitric acid to explode. Therefore, titanium is generally not used for high-temperature nitric acid having a content of 80% or more.
Titanium is not resistant to corrosion in sulfuric acid, and titanium has moderate corrosion resistance in hydrochloric acid. It is generally believed that industrial pure titanium can be used in hydrochloric acid at a concentration of 7.5% at room temperature, 3% at 60 ° C, and 0.5% at 100 ° C. Titanium can also be used at a concentration of 30% at 35 ° C and a concentration of 10% at 100 ° C and 100 ° C. At a concentration of 3% phosphoric acid at °C.
Titanium is not resistant to corrosion in HF (fluoric acid), titanium is not resistant to corrosion in acidic fluoride solutions, titanium is resistant to corrosion in boric acid and chromic acid, and can be used in hydroiodic acid and hydrobromic acid.
Titanium can be used in 60 ° C 10% sulfuric acid and 90% nitric acid mixed acid, boiling 1% hydrochloric acid and 5% nitric acid mixed acid and room temperature aqua regia (Note: aqua regia is a mixture of 3 volumes of concentrated hydrochloric acid and 1 volume of concentrated nitric acid) in.
Titanium is completely resistant to corrosion at various concentrations of barium hydroxide, calcium hydroxide, magnesium hydroxide, sodium hydroxide and potassium hydroxide at room temperature, but cannot be used in boiling sodium hydroxide and potassium hydroxide. The ammonia in the base exacerbates the corrosion of titanium.
Titanium has a high operating temperature of 300 ° C in tap water, river water and air. Titanium can be used in seawater with a high flow rate of 20m/s. Titanium has high corrosion resistance in seawater at temperatures ≤120°C. If the temperature is higher than 120°C, pitting corrosion and crevice corrosion may occur.
In addition to formic acid, oxalic acid and concentrated citric acid (concentration ≥ 50%), titanium has excellent corrosion resistance to all organic acids, but titanium is easy when the water content in organic acids is too low (<0.1%). Pitting corrosion occurs.
Titanium has excellent corrosion resistance in hydrocarbons and chlorinated hydrocarbons. Titanium can react violently in dry gas to form TiCl4, and there is a risk of fire, but titanium has good corrosion resistance in wet chlorine (water content of 0.3 to 1.5%).
Titanium is stable in HCl dried at 20-160 ° C, but hydrochloric acid causes corrosion to titanium in wet hydrogen chloride.
The pitting potential of titanium in chloride solution is higher than that of stainless steel. The pitting corrosion resistance of titanium against chloride ion is better than that of stainless steel, so titanium has been widely used in chloride solution.
Titanium generally does not produce pitting at temperatures ≤ 80 ° C, but at high concentrations of medium concentration chloride solution (eg 25% aluminum chloride solution at 100 ° C, 70% calcium chloride solution at 175 ° C, 25% at 200 ° C) Pitting corrosion is more likely to occur in magnesium chloride solution and 75% zinc chloride solution at 200 °C.

Classified by purpose
1. Pipe fittings for connecting pipes are: flange, union, pipe clamp, clamp, ferrule, hose clamp, etc.
2, change the pipe direction of the pipe: elbow, bend
3. Pipe fittings that change the pipe diameter: variable diameter (reducing pipe), reducer elbow, branch pipe, and reinforcing pipe
4, increase the pipe branch pipe: three links, four links
5. Pipe fittings for pipeline sealing: gasket, raw material belt, wire hemp, flange blind plate, pipe plug, blind plate, head, welding plug
6, pipe fittings for pipe fixing: snap ring, tow hook, lifting ring, bracket, bracket, pipe card, etc.


Titanium application in the field of bicycles
Titanium parts do not have aging problems, which are irreplaceable by other metal materials and carbon fiber materials, and have low specific gravity and high strength. They are now applied to high-grade road bicycles and mountain biking bicycles such as titanium, carbon fiber, etc., and low titanium materials.

DIN 912 – Hexagon socket Head Cap Screws
Color:Titanium color(nature),blue,gold,black,colorful
Application: Bicycle, motorcycle accessories

Titanium Bolts, screw,Nuts, Washers and Fasteners
Titanium bolts, titanium alloy fasteners, nuts and screws for racing cars and bikes, Titanium bolts and fasteners for Bicycles and motor Cycles and other Titanium metric bolts, Metric Fasteners, Ti Bolts. Titanium nuts, titanium washers, titanium hardware

Titanium motorcycle bolt multiple colour
Customise your Motorcycle with High Grade Titanium Bolts, Nuts and fasteners. A selection of colours including natural, gold and black, purple and blue, colorful perfect …

Titanium Expansion Bolts
Expansion Bolts fix into a hole which is similar to the diameter of the bolt. This allows the hole to be drilled through the hole in the item to be fixed.
These light to heavy duty anchors can be used brick and block base material, and can even be used in soft masonry and base materials of questionable strength.

Different CNC machining techniques for titanium parts
Precision Machining/CNC Turning & Milling
horizontal mill, CNC mill, CNC lathe, CNC turning center, etc. This makes us capable of carrying out operations, such as grooving, parting, knurling, drilling, etc.

Gr5 Ti-6-AL-4-V Titanium CNCmachine parts
It is one of the most widely used alloys in a variety of applications and is known for its high strength and higher temperature resistance than grade 2 titanium. This is why this grade of alloy is most commonly used in chemical processing, medical, aerospace, marine and other applications.

gr2 pure titanium parts & GR5 & Gr9
The tensile strength of Gr9 titanium is stronger than that of Gr2, which is more popular at room temperature and high temperature. This alloy grade is also called Ti-3AL-2.5V. Grade 9 titanium alloys have higher weldability than grade 5 titanium alloys.


Titanium CNC Machining Capabilities
We have complete cnc machine shop capable of machining parts to customer specification.If you need,please send your drawing to our email:[email protected]


Item:CNC Machining titanium parts
Main Products:CNC milling products,CNC turning products,grinding products,wire EDM cutting products,drilling products,welding products,precision casting products,forging products,etc.
Machining:Maching Center/CNC lates/Grinding Machines/Milling
Machines/Lathes/Wire-cuts/Laser Cuts/CNC Shearing Machines/CNC Bending Machines/etc.
Material:Titanium pure titanium:gr1,gr2…titanium alloy:gr5,gr7,gr9…
Surface:Polishing/Anodizing/Sand blasting/Electroplating/Black oxide coating
Quality Control and Detection Equipment:
Our QC department work is inspection and final inspection,we promise you as below:
1. Check the raw material before the production.
2. Have inspection during the production.
3. Make 100% inspection before the shipment.

Application: Titanium alloy has the advantages of super corrosion resistance, high strength and light weight. It has been widely used in aircraft, rocket, satellite, spacecraft, ship, military, automobile and motorcycle production, chemical equipment manufacturing, textile, medical equipment and other fields. .

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. However, titanium has poor corrosion resistance to a medium having a reducing oxygen and a chromium salt.

The main advantages of titanium alloy materials
(1) Titanium alloy has high strength and low density (4.4kg/dm3) and light weight, which provides a solution for reducing the weight of some large structural parts.
(2) High heat strength. Titanium alloy can maintain high strength at 400-500 °C, and can work stably, while the working temperature of aluminum alloy can only be below 200 °C.
(3) Compared with steel, the inherent high corrosion resistance of titanium alloy can save the cost of daily operation and maintenance of the aircraft.
2 Analysis of processing characteristics of titanium alloy
(1) The thermal conductivity is low. TC4 has a thermal conductivity of 1 = 16.8 W/m? °C at 200 ° C, and the thermal conductivity is 0.036 cal/cm? sec? ° C, which is only 1/4 of steel, 1/13 of aluminum, and 1/25 of copper. The heat dissipation and cooling effects are poor during the cutting process, which shortens the tool life.
(2) The elastic modulus is low, and the surface of the machine has a large rebound, which leads to an increase in the contact area between the machined surface and the flank of the tool, which affects the dimensional accuracy of the part and reduces the durability of the tool.
(3) Hardness factor. When the titanium alloy with low hardness value is processed, it will be sticky, and the chip will form a built-up edge near the cutting edge of the rake face of the tool, which will affect the processing effect. When the titanium alloy with high hardness value is processed, the tool will be chipped and abraded. These characteristics result in a low removal rate of titanium alloy metal, which is only 1/4 of that of steel, and the processing time is much longer than steel of the same size.
(4) Strong chemical affinity. Titanium can not only chemically react with nitrogen, oxygen, carbon monoxide and other substances in the air, but also form TiC and TiN hardened layers on the surface of the alloy, and it can react with the tool material under the high temperature conditions generated by cutting, reducing the tool. Durability.
(5) Poor safety performance during cutting. Titanium is a flammable metal, and the high temperatures and sparks generated during processing during micro-cutting may cause the burning of titanium chips.
3 titanium alloy processing technology
(1) As far as possible, the cemented carbide tool is used. The tungsten-cobalt type hard alloy has the characteristics of high strength and good thermal conductivity, and is not easy to react with titanium at high temperatures, and is suitable for processing titanium alloy.
(2) Reasonable selection of tool geometry parameters. In order to reduce the cutting temperature and reduce the tool sticking phenomenon, the front angle of the tool can be appropriately reduced, and the contact area between the chip and the rake face can be increased to dissipate heat. At the same time, the back angle of the tool is increased to reduce the rebound of the machined surface and the tool back. The frictional contact of the surface causes the tool to be bonded and the surface precision of the machined surface to be reduced; the cutting edge should adopt a circular arc transition to enhance the tool strength. For the processing of titanium alloys, the tool should be ground frequently to ensure that the blade shape is sharp and the chip removal is smooth.
(3) Suitable cutting parameters. To determine the cutting parameters, please refer to the following scheme: lower cutting speed – high cutting speed will lead to a sharp increase in cutting temperature; moderate feed rate – high cutting temperature, high cutting temperature, small feed rate The hardened layer has a long cutting time and accelerated wear; a large depth of cut – cutting of the hardened layer over the surface of the titanium alloy improves the tool life.
(4) The flow rate and pressure of the cutting fluid during processing should be large, and the machining area should be cooled continuously to reduce the cutting temperature.
(5) The selection of the machine tool must always pay attention to improve the stability to avoid the vibration trend. Vibration can result in chipping of the blade and damage to the blade. At the same time, the processing precision of the titanium alloy process system is good to ensure a large cutting depth during cutting. However, the titanium alloy has a large rebound and the clamping force is large, which will aggravate the deformation of the workpiece. Therefore, it is possible to consider the use of auxiliary supports such as assembling fixtures during finishing. Meet the process system stiffness requirements.
(6) The milling method generally uses down milling. Milling cutters and chipping caused by up-cut milling in titanium machining are much more severe than those caused by down-cut milling.
(7) The common problem of grinding is that the swarf causes the grinding wheel to clog and the surface of the part to burn. Therefore, it is advisable to use a green silicon carbide grinding wheel with sharp abrasive grains, high hardness and good thermal conductivity during grinding; F36~F80 can be used according to different surface smoothness of the machined surface; the hardness of the grinding wheel should be soft to reduce abrasive grains and wear debris. Adhesion reduces grinding heat; grinding feed is small, speed is low, and emulsion is sufficient.
(8) Titanium alloys need to be ground to the standard drill bit to reduce the burning of the knife and the bit. Grinding method: appropriately increase the apex angle, reduce the rake angle of the cutting part, increase the back angle of the cutting part, and double the number of reverse taper of the cylindrical blade. During processing, the number of retractions should be increased. The drill bit should not stay in the hole. The chips should be removed in time. A sufficient amount of emulsion should be cooled. Pay attention to observing the bit becoming dull and remove the chips in time. A sufficient amount of emulsion should be cooled. Replace the grinding.
(9) Titanium alloy reaming also needs to be modified for the standard reamer: the width of the reaming blade should be less than 0.15mm, and the cutting part and the calibration part should be arc-transition to avoid sharp points. When reaming, you can use the set reamer to ream several times. Each time you increase the diameter of the reamer by 0.1mm or less, the spindle speed should be slightly slower and will not stop when retracting. Reaming in this way achieves a high finish requirement.
(10) Tapping is the most difficult part of titanium alloy processing. Because the torque is too large, the tap teeth will wear quickly, and the rebound of the processed part can even break the tap in the hole. When using ordinary taps, the number of teeth should be reduced according to the diameter to increase the chip space. After leaving 0.15mm width on the calibration teeth, the back angle should be increased to about 30°, and 1/2~1 should be removed. /3 tooth back, the calibration tooth retains 3 buckles and increases the reverse taper number. It is recommended to use the jumper tap to effectively reduce the contact area between the tool and the workpiece, and the processing effect is also good.
4 Processing precautions
(1) The tool is sharpened and kept sharp to ensure that as little cutting heat is generated during the machining process.
(2) Equipment, knives, work and fixtures should be kept clean and swarf removed in time.
(3) Transfer titanium shavings using non-combustible or flame-retardant tools. Store the processed debris in a non-combustible container and cover it.
(4) Wear clean gloves when handling cleaned titanium alloy parts to avoid corrosion corrosion of sodium chloride in the future.
(5) Fire protection facilities are available in the cutting area.
(6) In the case of micro-cutting, once the cut titanium chips are on fire, they can be extinguished with dry powder fire extinguishing agent or dry soil or dry sand.


Shape: round plate  Pore size:30um Thickness:1.5mm
The largest advantage in fabricating titanium foams is that the mechanical and functional properties can be adjusted through manufacturing manipulations that vary porosity and cell morphology.

Shape: squre plate/round plate;Precision:0.2-80um thickness ≥0.5mm
Specification:Diameter:Ф5mm -Ф100mm thickness ≥0.5mm
Uses: fuel cells, metallurgical industry and gas purification industries

Dia 25mm thickness 1mm Precision 10um titanium foam plate
Uses: fuel cells/filtration industry
Titanium’s physiological inertness makes its porous form a promising candidate for biomedical implantation devices.

The high appeal of titanium foams is directly correlated to a multi-industry demand for advancement in this technology.
Shape: plate and tube of different precision and aperture produced according to different functions.

Size:60*1*800mm and as customer’drawing to produce
Uses: fuel cells, metallurgical industry and gas purification industries

M50*300mm Stainless steel sintered filter
Material:304/316 sus,As customer’s requirements
Specification:Diameter:Ф5mm -Ф100mm  0.5mm≤thickness≤5mm
Uses: fuel cells, metallurgical industry and gas purification industries

Max pore size 80um titanium foam
Dia10*10mm ; max pore size:80um
The largest advantage in fabricating titanium foams is that the mechanical and functional properties can be adjusted through manufacturing manipulations that vary porosity and cell morphology.


Titanium sintering is a hollow filter tube which is processed by the method of powder metallurgy to process titanium metal powder without high-temperature sintering. It is widely used in liquid-solid separation in food, beverage, pharmaceutical, chemical and other industries. It is especially suitable for the pharmaceutical industry. Decarbonization filtration in large infusion and injection lines.

Material: titanium powder sintering
Shape: plate and tube of different precision and aperture produced according to different functions
Uses: Powder sintered products are widely used in fuel cells, pharmaceutical industry, water treatment industry, food industry, bioengineering, chemical industry, petrochemical, metallurgical industry and gas purification. It is a new type with broad development prospects. filter material.
Titanium powder sintered filter size
Diameter: Ф5mm – Ф200mm
Length: L50mm-L1200mm (can be customized according to requirements)
Thickness: more than 0.5mm (other specifications can be processed as required)
Filtration accuracy: 0.2um -80um
Titanium powder sintered filter plate size
Diameter: (mm) Ф5-Ф300
Thickness: 0.5mm-10mm
Filtration accuracy: 0.2um-80um
Titanium powder sintering performance
The titanium powder sintered filter material (including the tube type and the plate type) is a microfiltration element which is obtained by sintering titanium sponge powder as a raw material, sieving and molding, and then sintering. High filtration precision, good gas permeability, high mechanical strength, high material utilization, suitable for high working temperature and thermal shock resistance. Porous components of various shapes, structures, different particle sizes and porosity can be produced according to user requirements, such as: cover, cap, sheet, tube, rod filter element. Therefore, the high-temperature alloy powder sintered filter material has its unique and excellent performance with its high-tech material composition and special molding process.
Advantages of titanium powder sintering:
(1) High temperature resistance, normal use below 350 degrees Celsius.
(2) High filtration precision, stable pores, effective removal of suspended solids and particles, excellent filtration precision and good purification effect.
(3) Good gas permeability and low pressure loss. High porosity, uniform pore size, easy backflushing, online regeneration, easy cleaning, strong regenerative capacity and long service life.
(4) High mechanical strength, good rigidity, good plasticity, simple installation and use, convenient maintenance, good assembly, and can be welded and machined.
(5) The pores are uniform, and it is especially suitable for occasions with high uniformity such as fluid distribution and homogenization treatment.
(6) Filtration accuracy: 0.22~60μm.
(7) No particles fall off and do not cause secondary contamination of the stock solution.
(8) Good mechanical properties, low pressure difference, large flow rate, can be filtered by pressure filtration, and easy to operate.
(9) Good corrosion resistance, can be used in nitric acid, sulfuric acid, acetic acid, oxalic acid, phosphoric acid, 5% hydrochloric acid, molten sodium, liquid hydrogen, liquid nitrogen, hydrogen sulfide, acetylene, water vapor, hydrogen, carbon dioxide gas and other organic acids. Stable use in the environment of organic compounds.
(10) The molding process is good, and the overall welding-free length can reach 1200 mm.
Other similar materials that can be produced:
Stainless steel powder sintering / nickel-based alloy powder sintering
Fuel cell, metallurgical industry and gas purification

The high appeal of titanium foams is directly correlated to a multi-industry demand for advancement in this technology

Most manufactured foams contain both types of pores, although in many cases the subtype is minimal. According to the IUPAC, pore sizes are classified into three categories: micro (less than 2 nm), meso (between 2 and 50 nm) and macro (larger than 50 nm) pores.


MMO Titanium anode plate

  • Shape:plate/mesh/Component/tube/as drawing
  • Coating:MMO Ir-Ta Ru-Ir Platinum..
  • Substrate:gr1/gr 2 pure titanium
  • Picture parameterRuthenium and Iridium coating/wiht M3 Terminal

MMO Titanium anode component

  • Shape:plate/mesh/Component/tube/as drawing
  • Coating:MMO Ir-Ta Ru-Ir Platinum..
  • Substrate:gr1/gr 2 pure titanium
  • Picture parameterRuthenium and Iridium coating/wiht M5 Titanium-clad copperTerminal/Working life: 5 years under the working current 1000-1500A/m2

Ruthenium Iridium Coated titanium anode baskets

  • Shape:Both titanium plate and  mesh are the most common shapes for titanium anodes. The left picture shows titanium anode baskets made of titanium mesh.
  • ParameterRuthenium and Iridium coating/wiht M5 pure Titanium Terminal

Iridium Tantalum coating titanium anode mesh

  • Shape:mesh/cutting-punch-welding
  • Substrategr1 gr2 pure titanium material
  • Application:For electroplating, chlor-alkali industry,water treatment…
  • CoatingIridium Tantalum coating/wiht Terminal

Ruthenium Iridium Titanium anode plate

  • Shape:plate/mesh/Component/tube/as drawing
  • Coating:MMO Ir-Ta Ru-Ir Platinum..
  • Substrate:gr1/gr 2 pure titanium
  • Picture parameterRuthenium and Iridium coating/wiht  Terminal

Platinum coating titanium anode mesh basket for water treatment

  • Shape:mesh/cutting-punch-welding
  • Substrategr1 gr2 pure titanium material
  • Application:For electroplating, chlor-alkali industry,water treatment…
  • CoatingPlatinum coating

MMO Ruthenium Iridium Titanium anode plate

  • Shape:Titanium plate Component or as  drawing
  • Coating:MMO ruthenium-iridium
  • Substrate:gr1 pure titanium plate
  • Picture parameterRuthenium and Iridium coating/wiht  Terminal
  • Specification:150*50*2.5mm



MMO Gr1 titanium as substrate,  Ruthenium- Iridium,

Iridium-Tantalum,Platinum coating


As per customized


Anode Shape: plate, tube, mesh, rod

Base Metal: Gr1, Gr2, TA1, TA2

Coating Material: 99.95% pure platinum

Coating Thickness: 0.76-15 microns

Working Current: <5000A/sq m

Noble Metal Content: >15g/sq m

Content of Florin Ions: <50mg/L
Temperature: <80 degree celsius
PH Value: 1-12


High corrosion resistance
High current efficiency
High durability
Base Metal canbe cycle used

High current density, high productivity
Light weight


Sewage treatment

Cathode protection

Noble metal plating (silver, gold)

Sea water antifouling

Testing electrode

Electrolytic syn thesis of organic

Electroplating Industry


Electrolytic water


Titanium anode for copper recovery from etching solution, titanium anode for sodium hypochlorite production, titanium anode for MMO applied current cathode, titanium anode for organic electrolysis synthesis, insoluble oxygen evolution titanium anode, insoluble titanium chloride anode, electrowinning metal titanium anode (electrowinning copper) , electrowinning zinc, etc., anode for electroplating (galvanizing, copper plating, nickel plating, hexavalent chromium plating, trivalent chromium plating, gold plating, nickel-zinc alloy, nickel-tin alloy, electronic plating, circuit board plating) , tin plating, gold plating, etc., electrolytic extraction of cobalt, nickel, copper, zinc and other titanium anodes, industrial sewage treatment titanium anodes, pesticides, chemical sewage treatment, chlorine dioxide generator, sodium hypochlorite generator titanium anode, ion water Titanium anode, titanium anode for circulating water electrolysis sterilization in thermal power plant, titanium anode for electrolysis seawater (salt water), seawater anticorrosion, electric flotation, electrocatalytic oxidation wastewater treatment, ammonia nitrogen wastewater treatment, coking wastewater treatment, pesticide, chemical wastewater treatment Titanium anodes such as electroplating wastewater treatment.


Titanium electrode
The titanium anode is called a titanium-based metal oxide coated anode (MMO). Also known as DSA anode, dimensionally stable anode. It uses titanium as the substrate (filament, rod, tube, plate, mesh), and coats the precious metal coating on the titanium substrate to make it have good electrocatalytic activity, electrical conductivity and oxidation resistance. Compared to the original graphite anode and lead anode, the titanium electrode has the following advantages:
1. The electrode size is relatively stable, and the distance between the electrodes does not change during the electrolysis process, ensuring that the electrolysis operation is performed under the condition that the cell voltage is stable;
2. High catalytic activity and low working voltage;
3, the working voltage is low, so the power consumption is small, the DC power consumption can be reduced by 10% – 20%;
4. The working life of titanium anode is long. The metal anode of the chlor-alkali industry is resistant to chlorine and alkali corrosion. The life of the anode has reached 5~7 years, while the graphite anode is only 8 months.
5. It can overcome the dissolution problem of graphite anode and lead anode, avoiding the pollution of electrolyte and cathode products, thus greatly improving the purity of metal products;
6, can increase the density of current, increase the efficiency of electrolysis;
7. The oxides of noble metals lanthanum and cerium have oxidation resistance, so the corrosion resistance of titanium electrodes is strong;
8. It can avoid the short circuit problem after the lead anode is deformed, so that the work efficiency can be improved;
9. Titanium electrode is light in weight, which can reduce labor intensity compared with graphite anode and lead anode;
10, titanium matrix shape and production is easier, high precision;
11. The substrate can be used repeatedly without damage.
Titanium anode classification:
1. According to the anodic precipitation gas in the electrochemical reaction, the chlorine anode is separated, such as the lanthanide coated titanium electrode: the oxygen evolution is called the oxygen evolution anode, such as the lanthanide coated titanium electrode and the platinum titanium mesh. /board.
Chlorine anode (tantalum coating titanium electrode): The electrolyte has a high chloride ion content, generally in a hydrochloric acid environment and electrolyzed seawater, and an electrolytic salt water environment. Corresponding to our company’s products are 钌铱Titanium anode, bismuth tin titanium anode.
2. Oxygen evolution anode (lanthanide coating titanium electrode): The electrolyte is generally in a sulfuric acid environment. Corresponding to our products are 铱钽 anode, bismuth tin titanium anode, sorghum titanium anode.
3. Platinum anode: Titanium is the substrate. The surface is plated with precious metal platinum, the thickness of the coating is generally 1-5um, and the mesh size of the platinum titanium mesh is generally 12.5×4.5mm or 6×3.5mm.
Third, the production process flow
1. Purchase the GR1 model titanium substrate to ensure that the surface of the plate is smooth and flat, without deep scratches and defects.
2. Machining the purchased titanium substrate and processing it to the size required by the customer.
3. Annealing and leveling the titanium substrate at a temperature of >500 °C. (To eliminate stress and ensure flatness.)
4. When the annealing leveling treatment, a dense titanium oxide layer is formed on the surface of the titanium substrate, and it is polished by mechanical or artificial means, and the surface thereof is made of titanium metallic luster.
5. The titanium substrate is subjected to pickling etching with 10% strength oxalic acid, and is subjected to a micro-boiling state for several hours to etch the surface oxide layer into a titanium hydride surface.
6. Qualitative and quantitative configuration of the precious metal solution according to the anode environment applied by the customer.
7. Detecting that the pickled titanium substrate is qualified, that is, the surface layer is gray uniform matte structure, and then manually coating and arranging, sintering at a set temperature, sintering naturally, cooling, and cooling to normal temperature for a second coating Resume, and so on, until the configuration solution is finished after 17~20 times.
8. After the sintering of the above processed parts is completed, the life test will be carried out with the test piece of the furnace, and the qualified package will be shipped.
Fourth, the main application areas
1. Electrolytic production of chlor-alkali industrial chlorate industrial sodium hypochlorite
The chemical industry for producing chlorine gas, hydrogen gas and caustic soda by electrolyzing salt solution is called chlor-alkali industry. It is widely used in the modern electrochemical industry and plays an important role in the national economy.
In addition to the above, it is also possible to prepare a downstream product of hydrogen chloride (aqueous solution is hydrochloric acid), sodium hypochlorite, chlorinated guanidine, polyvinyl chloride (referred to as PVC Polyvinyl chloride polymer = PVC molecular structure), hydrogen peroxide and the like.
In the production of chlor-alkali, the pure saturated brine is used as the electrolytic solution, the titanium electrode is used as the anode, the iron mesh asbestos is used as the cathode, the anode chamber generates chlorine gas, the cathode chamber generates hydrogen and sodium hydroxide, and after purification, it is widely used in various industries. in production.
The application of titanium anode greatly promotes the development of chlor-alkali industry, and it is an epoch-making contribution to the field of electrochemistry. The electrode has high catalytic activity for chlorine evolution and has good electrocatalytic activity, mechanical stability and chemical stability for chlorine evolution. It is an irreplaceable electrode material in the chlor-alkali industry today, with a service life of more than five years.
2, electrolytic function water
Functional water is defined as water that has been subjected to artificial treatment to obtain various useful functions. Electrolyzed water is welcomed as a sterilization treatment technology with good sterilization effect, high practicability and no secondary pollution. The functional water is produced by electrolyzing drinking water or a trace amount of light brine through a titanium electrode, and is widely used in an electrolysis machine.
1) The use of electrolysis to produce hypochlorite, new ecological oxygen, hydroxyl radicals and other strong oxidizing substances to kill microorganisms.
2) The electrolysis electrode is directly applied to the microorganism to cause it to die.
3) Alkaline ionized water can directly treat a variety of diseases, effectively improve the body’s metabolic function, eliminate harmful acidic metabolites, and enhance the body’s ability to prevent and improve disease resistance.
4) Acidic ionized water has the effect of inhibiting the growth of bacteria, and the effect is the same as that of cosmetic astringent water, and is sterilized by applying strong oxidizing property.
3. Manufacture of sodium hypochlorite generator and chlorine dioxide generator electrode. (84 disinfectant)
Appearance: plate, mesh, tubular, etc. Our company supplies long-term supply to a Hunan company. Its electrode size is mesh 370*350*1, current density is 30~60A, voltage is 24V.
4, cathodic protection
In the environment of steel, such as ocean, hull, bridge, etc., due to the corrosion of impurities and micro-batteries in steel, combined with the complex natural environment, although corrosion-resistant alloy steel is selected and the thickness of the material is increased, excellent corrosion-resistant paint is applied. Corrosion of structures is still very serious, which greatly threatens safe production, and cathodic protection is an important and convenient measure for effective protection of permanent steel structures in the ocean.
1) Using the applied current, the entire surface of the protected metal structure becomes a cathode, called impressed current cathodic protection.
2) Connect a metal or alloy with a more negative potential to the metal device to be protected, called sacrificial anode protection.
Applied to the following areas:
1) Prevent corrosion of ships, docks, platforms, gates and cooling equipment in fresh water and sea water.
2) In the alkali and salt solutions, corrosion of the storage tank, the evaporation can, the caustic soda pot, and the like is prevented.
3) Prevent corrosion of pipelines and cables in soil and sea mud.
5, gold plated, steel plate galvanized tin
Titanium electrode has excellent electrical conductivity and corrosion resistance, and its service life is much higher than that of lead anode. It can work stably for more than 4,000 hours and has low cost. It will be an inevitable trend in the development of electroplating zinc and tin production at home and abroad.
Titanium electrodes are currently used in Japan, the United States, Germany, and China, which not only greatly saves plating energy, but also creates conditions for the production of thick galvanized and tin steel sheets because of the increased plating current density.
6, non-ferrous metal extraction
Electrolytic metallurgy occupies a large proportion in the hydrometallurgical industry. Non-ferrous metals produced by electrolytic metallurgy include Zn, Cd, Cu, Mn, Co, Ni, Cr, and the like.
The advantages of electrolytic metallurgy are high selectivity, high purity metals, and the recovery of useful metals. Therefore, it can handle low-grade minerals and complex polymetallic ore components, which is beneficial to the comprehensive utilization of resources. In addition, the pollution to the environment is small, and production is easier to continue and automate.
In recent years, coated titanium electrodes have been widely used in the field of electrolytic extraction of metals, and have become the second industrial field in which titanium electrodes are used on a large scale.
7, electrolytic copper foil
With the development of science and technology, the degree of automation is increasing, which has promoted the rapid development of the electronics industry. The application of large integrated circuits has increased the demand for copper foil in the electronics and instrument industry, and the quality requirements for copper foil are also increasing.
According to the thickness, it can be divided into several types such as 105 μm, 70 μm, 35 μm, 18 μm, 12 μm, 9 μm, and 5 μm, and the copper foil of 12 μm or less is generally referred to as an ultra-thin copper foil.
The electrolytic copper foil is a cathode which is partially immersed in a copper sulfate solution and continuously rotated, and is continuously electrolyzed to produce a foil. The international production of copper foil is mainly controlled by Japan, with about 15 domestic production enterprises and a production capacity of around 35,000 tons.
8, sewage treatment
With the rapid development of industry and agriculture and population growth, the amount of sewage discharged by humans has increased dramatically, causing many waters to suffer from different degrees of pollution. Electrochemical treatment of sewage is divided into direct electrolysis and indirect electrolysis.
1) Direct electrolysis means that contaminants are directly oxidized or reduced on the electrode to be removed from the wastewater. Direct electrolysis can be divided into a cathode process and an anode process. The anode process refers to the oxidation of pollutants on the surface of the anode to be converted into less toxic substances or biodegradable substances, and even inorganic substances to reduce the pollution. The cathode process refers to the reduction of pollutants on the surface of the cathode to be removed. It is mainly used for the recovery and dehalogenation of halogenated hydrocarbons and the recovery of heavy metals.
2) Indirect electrolysis refers to the use of electrochemically generated redox species as reactants or catalysts to convert pollutants into less toxic substances. Indirect electrolysis can be divided into reversible processes and irreversible processes. The reversible process refers to the electrochemical regeneration and recycling of redox species during electrolysis; the irreversible process refers to the oxidation of organic matter by substances produced by irreversible electrochemical reactions.
It is applied to printing and dyeing wastewater treatment, landfill leachate treatment, manure sewage treatment, cyanide-containing wastewater treatment, pharmaceutical wastewater treatment, hospital sewage treatment, and organic wastewater treatment.
9, PCB electronic circuit board factory etching waste liquid recycling
Etching is an important process in the production of printed circuit boards. With etching, the waste etching solution contains a large amount of copper ions or other metal ions, which can be recycled by electrolysis. Through this recycling process, enterprises not only increase the economic benefits by recycling metals such as copper, but more importantly, they meet emission standards and resource recycling, and have long-term social benefits.
The waste liquid includes: acid etching waste liquid, alkaline etching waste liquid, low copper containing waste liquid, waste fixing liquid, waste frame material, nickel-containing waste liquid, waste liquid containing gold and palladium, and waste tin-removed water.
Five, electrode use precautions
1. The titanium electrode is black after being oxidized and sintered, and the uncoated surface is blue without electrode performance, and the black side is used for the cathode.
2. Once the titanium electrode substrate is acid-washed, all the subsequent production and processing steps and procedures must be carried out with strict care. When transporting, wear clean gloves to catch the ends or edges of the anode, preferably in the uncoated portion. Any foreign matter is strictly prohibited from being scratched on the surface of the coating.
Note: The titanium matrix itself is not electrically conductive, and its outer layer coated with noble metal oxide coating has electrocatalytic activity, electrical conductivity and oxidation resistance, but its thickness is only about 20 microns. If it is scratched or damaged, it is electrolyzed. During the process, the electrode first corrodes from the damage, which in turn affects the quality and effectiveness of the entire electrode.
3, the electrolyte maintains stability, especially can not contain cyanide ions and fluoride ions, these impurities will seriously corrode the titanium matrix;
4. The electrolyte should be added to the electrolysis tank before adding the filter device. It should not contain metal particles with a diameter greater than 0.1mm to prevent the accumulation of too much cathode and anode short circuit.
5. When electrolytically recovering metals such as copper, nickel, gold, silver, cobalt, etc., the cathode deposits shall not be too thick to prevent the pole pitch from being too small or the metal thorn formation to cause a breakdown of the cathode and cathode.
6, the anode and cathode spacing can be set according to the actual production, generally 5-25mm. Generally speaking, the pole distance assembly increases the voltage drop, but it should not be too small, otherwise the cathode scale generated on the cathode surface is liable to cause short circuit of the pole plate;
7. Avoid using the pole. Once the noble metal oxide coating is used as a cathode, the surface undergoes a reduction reaction, which is easily converted into a simple metal element, and cannot be effectively combined with the titanium base, causing the coating to fall off.
8. It is not advisable to immerse in the solution in the power-off mode for a long time when stopping. It is best to load a small current of about 5A to protect the plates.
9. When shutting down or other maintenance conditions, add diluted acid or clean the surface of the electrode with water, but do not wash with nylon or mechanical substances.
10, the temperature of the electrolyte should not be too high, the ideal temperature of 25-40 ° C, there are conditions to add heat exchangers to maintain the electrode environment.
11. The normal working current density is less than 2000A/m2. If the current is too large, the reaction is too intense and the anode life is shortened.
12. When starting up, add current to the electrolyzer in a step-by-step manner. Do not raise it in one position at a time, as well as when it stops.
13. Keep the anode clean during production and use, and do not contaminate oil or other deposits, so as not to affect the electrolysis effect and electrode life.
14, the anode has life, to ensure the stability of production is more beneficial to extend the life cycle.
Titanium anode for industrial wastewater treatment
Electrolytic oxidation or electrochemistry, in the process of treating water, including industrial water and factory wastewater, the electrode not only plays a role in transmitting current, but also catalyzes the oxidative degradation of organic matter. In this process, since it does not cause pollution, Known as green water treatment. With the development of industry, the discharge of organic wastewater is increasing, especially the high-concentration wastewater discharged from the chemical, food, pesticide and pharmaceutical industries. The color is highly toxic and contains a large amount of bio-degradable components, which seriously pollutes the rivers and lakes. sea. The new technology of electrolytic treatment of water has no need to add chemical agents, the equipment is small in size, covers a small area, does not produce secondary pollution, and has been used to treat wastewater containing organic pollution such as hydrocarbons, alcohols, aldehydes, ethers and phenols. The removal of COD mainly depends on the oxidation reaction on the surface of the anode, and directly oxidizes and degrades the organic matter on the surface of the anode, so that the organic matter in the sewage is directly or indirectly converted into CO2 and water through electrochemical conversion. The anode potential must be higher than the decomposition potential of the organic matter, so the two catalytic reactions of organic oxidation and oxygen evolution are carried out on the anode.
The noble metal oxide coated titanium anode has a high oxygen evolution overpotential, and the anode potential is higher than the decomposition potential of the organic matter. Suitable for sewage treatment. The shape of the anode is available in various forms such as plate type, tube type, and mesh type, and the quality is reliable. The titanium matrix can be reused.




Nitinol wire /Titanium -nickel alloy wire

  • Diameter range:0.05mm-1mm
  • Surface:bright / Black finished
  • Appilication:Fishing line/Jewelry bracelet/headset

Nitinol rope wire Size 0.69(7*0.23)mm

  • Diameter range:0.1mm-2mm
  • Surface:bright / Black finished
  • Appilication:Fishing line/Jewelry bracelet/headset/Scientific research

Nitinol wire 5feet Shape memory wire

  • Diameter:0.43mm/0.21mm/0.56mm in stock
  • Surface: Black finished
  • Appilication:Fishing line/Jewelry bracelet/headset/Scientific research

Black finished Nitinol wire for Fishing line

  • Diameter:0.05-1mm
  • Surface: Black finished
  • Appilication:Fishing line/Jewelry bracelet/headset/Scientific research


titanium wire gr2 ti6al4v

Titanium wire gr2 Gr5 for industry

Titanium wire is divided into: titanium wire, titanium alloy wire, pure titanium spectacle wire, titanium straight wire, pure titanium wire, titanium welding wire, titanium hanging wire, titanium disk wire, titanium bright wire, medical titanium wire, titanium nickel alloy wire.

Titanium automatic welding wire

  • Surface:Pickled surface or bright finished
  • Application:The titanium welding wire is used in the welding of titanium in the reaction vessel, storage of acidic substances or alkaline substance storage tubes, and titaniumation equipment.

Pure titanium straight wire

  • Length range:1000mm-3000mm
  • Application:Military, medical, sporting goods, glasses, earrings, headwear, plating hangers, welding wire, etc.

Titanium rope wire for industry

  • Surface: Black finished
  • Specification:as your requirements
  • Appilication:Military, medical, sporting goods, glasses, earrings, headwear, plating hangers, welding wire, etc.

Titanium  welding wire in stock

  • Surface:Pickled surface or bright finished
  • Application:The titanium welding wire is used in the welding of titanium in the reaction vessel, storage of acidic substances or alkaline substance storage tubes, and titaniumation equipment.





(Fully annealed)

Min. elongation to failure [%]Max. Residual


after 6%

strain [%]

Main ApplicationsStandard

Ni-Ti alloy

TiNi- SSTi-50.8at %-5°C ± 5°C.100.1Fishing line,Eyeglass  Frames, Cellular Phone Antennae, Bra UnderwireASTM

F 2063





-40°C ~50°C100.1
Normal temperature

Ni-Ti alloy

TiNi- YYTi-50.7at %NiFunctional Af=33 ±  3150.1Implantable  devices,Bone staples

Vascular Stents

Ti-Ni- 0155.6~55.8 wt%Ni20 – 40150.1Guide wires, Stents

Orthodontic Arches

High temperature  Ni-Ti alloyTi-Ni- 0254.8~55.5wt%Ni45 – 95100.1Implantable active  devices, Surgical tools, Thermostats Coffeepots
TiNiCuTiNiCuAs-Ms ≤ 5100.1

About Nitinol wire

●How does nitinol wire work?

Nitinol ShapeMemory Alloys undergo a phase transformation in their crystal structure whencooled from the stronger, high temperature from (Austenite) to the weaker, lowtemperature from (Martensite). This inherent phase transformation is the basisfor the unique properties of these alloys – in particular, Shape Memory andSuperelasticity.

●Shape Memory

When shape memoryalloys are in their martensitic form, they are easily deformed to a new shape.However, when the alloy is heated through its transformation temperatures, itreverts to austenite and recovers its previous shape with great force. Thisprocess is knows as Shape Memory.

The temperature atwhich the alloy remembers its high temperature from when heated can be adjustedby slight changes in alloy composition and through heat treatment. In theNickel Titanium alloys, for instance, it can be changed from above +100 deg. Cto below -100 deg. C. The shape recovery process occurs over arange of just a fewdegrees and the start or finish of the transformation can be controlled towithin a degree or two if necessary.


These unique shapememory alloys also show a Superelastic behavior if deformed at a temperaturewhich is slightly above their transformation temperatures. This effect iscaused by the stress-induced formation of some martensite above its normaltemperature. Because it has been formed above its normal temperature, themartensite reverts immediately to undeformed austenite as soon as the stress isremoved. This process provides a very springy, “rubberlike”elasticity in these alloys.

Application andfeatures

● Applicationareas: super elastic memory alloy mobile phone antenna, fishing hooks, fishingrods, children’s toy antennas, optical frames, Bluetooth headsets, ear hooks,medical. With the development of the times, it has gradually been used inwomen’s clothes trays, and has been used as a scientific research material,frequently appearing in various materials labs of polytechnic colleges.

● Productcharacteristics: with mechanical properties and corrosion resistance, with amemory function, can restore the memory shape at the phase change temperature.


Classification of titanium wire
Titanium wire is divided into: titanium wire, titanium alloy wire, pure titanium spectacle wire, titanium straight wire, pure titanium wire, titanium welding wire, titanium hanging wire, titanium disk wire, titanium bright wire, medical titanium wire, titanium nickel alloy wire.
Titanium wire state
Annealed state (M) Hot working state (R) Cold working state (Y) (annealing, ultrasonic wave inspection)
Titanium wire surface
Pickled surface shiny surface
Titanium wire use
Military, medical, sporting goods, glasses, earrings, headwear, plating hangers, welding wire and other industries.
Titanium wire forms a higher hardness stable carbide with carbon. The growth of the carbonized layer between titanium and carbon is determined by the rate of diffusion of titanium in the carbonized layer.

Titanium and titanium alloy materials, as the best among metal materials, have a series of excellent properties unmatched by other metal materials. Therefore, they have developed rapidly in recent years and have been rapidly and widely used in high-tech fields such as aerospace military. The United States, Russia, Japan, China and other countries all over the world attach great importance to the research and development of titanium alloys, and constantly develop new titanium alloy materials to expand the application of titanium and titanium alloys. Due to the deepening of research and the increase of product series, many titanium products, such as titanium wire, have also entered the field of various consumer goods.
As an important variety of titanium series, titanium and titanium alloy wire have made great progress in terms of output, specifications and applications. In general, titanium and titanium alloy wires refer to titanium products supplied in a circular shape, and are also supplied in the form of straight wires. In terms of diameter, the division of bars and wires is not strict, and varies from country to country. Moreover, in recent years, due to its continuous development, the variety has become more and more, which provides more choices for high-performance industrial products and consumer products.



gr1 gr2 pure titanium sheet/plate for industry
  • Standard: ASTM B265
  • Stock thickness: 0.8/1/1.5/2/3/4/5/6/8/10/12/14/16/18/20/25/28/50mm
  • Regular size:thickness:0.5-80mm  L/W:≤3000*6000mm
  • Other parameters:Surface: Polished/ Pickling    Technique: Forging/rolled
  • Place of Origin:Shaanxi BaoJi China

gr5 Ti6Al4V titanium alloy plate/sheet
  • Standard: ASTM B265
  • Stock thickness: 1.2/1.5/2.0/3/4.0/5.0/6.0/8.0/10/12/18/20/25mm
  • Regular size:thickness:0.5-80mm  L/W:≤3000*6000mm
  • Other parameters:Surface: Polished   Technique:  Forging/rolled
  • Place of Origin:Shaanxi BaoJi China

Titanium plate gr5 in stock from Baoji

Specification range:Titanium wide plate: thickness 6~60MM; width 1000~2500MM; length 2000~9000MM
Hot rolled coil plate: thickness 3~12MM; width 800~1550MM; length 1000~9000MM
Cold rolled coil plate: thickness 0.5-3MM; width 800-1550MM; length 1000~5000MM
Surface treatment: shot blasting, pickling surface

grade 2 titanium plate best supplier in stock

Gr2 titanium plate Excellent punching performance. It can be welded in various forms, and the welding performance is good. The welded joint can reach 90% of the strength of the base metal. Easy to saw and grinding wheel cutting, good machining performance. Excellent corrosion resistance for parts below 350 °C, with low force and parts punched into various complex shapes.

GR1 GR2 Titanium wide plate Pickled surface

Pure titanium application areas: thermal power plant condensers; pipeline systems, valves, pumps for marine seawater corrosion; chemical heat exchangers, pump bodies, distillation towers; seawater desalination systems, platinized anodes; aircraft skeletons, skins, engine components Beams, etc.

Titanium sheet different size thickness
  • Standard: ASTM B265
  • Stock thickness: 0.8/1/1.5/2/3/4/5/6/8/10/12/14/16/18/20/25/28/50mm
  • Regular size:thickness:0.5-80mm  L/W:≤3000*6000mm
  • Other parameters:Surface: Polished/ Pickling    Technique: Forging/rolled
  • Place of Origin:Shaanxi BaoJi China


Titanium foil pure titanium ASTM B265
  • Regular size:thickness:0.025mm-0.5mm  W:500mm(can be customized)
  • Other parameters:Surface: bright  
  • Place of Origin:Shaanxi BaoJi China

Gr2 pure Titanium foil in stock

The titanium foil material is mainly used for the high-pitched film of the speaker and the horn, and the titanium foil is used for high fidelity and the sound is clear and bright. Titanium foil materials can also be used for precision fittings for implants on bones.

Pure titanium foil grade1 grade 2 for industry

Titanium foil is just like any other metal foil. It is a thin layer of metal made from pure titanium, Since titanium is such a durable and expensive metal, it is the perfect material for high-end, precise razors that can cut through hairs easily and effectively.

Gr1 Titanium foil bright surface

Specification: 0.025-0.6 (thick) 50-500 (wide) more than 500 (long);
General thickness: 0.008mm titanium foil, 0.01mm titanium foil, 0.03mm titanium foil, 0.05mm titanium foil, 0.08mm titanium foil.

Titanium foil /titanium strip bright surface

The production process of titanium foil is composed of main working procedure including hot rolling, cold rolling and auxiliary working procedure (pickling, degrease, heat treatment and shearing). Cold rolled titanium strip is the original billet in the process of rolling titanium foil. After pickling and annealing, cold rolled the titanium strip repeatedly and the total amount of deformation is always controlled in 20%~40%. The advanced equipment, rolling process, process control, annealing temperature and time control ensured the surface smoothness and finish of titanium foil, effectively improved the quality of our products.




Gr1, Gr2, Gr3,Gr4,Gr5, Gr7, Gr6,Gr9, Gr11, Gr12


ASTM B265,ASME SB265,DIN17851,TiA16Zr5Mo1.5


Cold rolled: Thick 0.02mm-5mm * Wide 1500mm max * Long 2500mm max

Hot rolled: Thick 5mm-100mm * Wide 3000mm max * Long 6000mm max

Price term


Payment term

TT,L/C,Western Union,D/P,By cash,paypal,



Export to

Ireland,Singapore,Indonesia,Ukraine,Saudi Arabia,Spain,Canada,USA,


South Africa,Russia,Malaysia,Chile,etc


Standard export package,suit for all kinds of transport ,or as required.


1.Based on High intensity,titanium products tensile strength can be up

to 180Kg/mm².

2.best price for asme sb gr2  titanium titanium clad  plate and titanium alloy in aviation industry,is called “space metal”

In addition,in the shipbuilding industry,chemical industry,manufacturing

machinery parts,telecommunications equipment,hard alloy,etc.have

increasingly extensive application.

3.In addition,because of the titanium alloy with the human body has very

good compatibility

So the titanium alloy can also be artificial bone.

Titanium plate manufacturing process:
Hot forging is a forging process performed above the metal recrystallization temperature. Hot rolling is a rolling process carried out at a temperature higher than the recrystallization temperature. Cold rolling: a rolling process in which the plastic deformation temperature is lower than the recovery temperature. Annealing: A metal heat treatment process in which the metal is slowly heated to a temperature for a sufficient period of time and then cooled at a suitable rate (usually slow cooling, sometimes controlled cooling). Pickling: The article is immersed in an aqueous solution of sulfuric acid or the like to remove a film such as an oxide on the surface of the metal. It is a pre-treatment or intermediate treatment of electroplating, enamel, rolling and other processes.
To sum up, the welding function of cutting titanium plates is the first to reflect these aspects:

(1) High temperature crack: The high temperature crack referred to herein means a crack related to welding. High temperature cracks can be roughly classified into condensation cracks, microcracks, cracks in HAZ (heat affected zone), and reheat cracks.
(2) Low-temperature cracking: Low-temperature cracking sometimes occurs in a martensitic-cut titanium plate and some ferrite-cut titanium plates having a martensite arrangement. Because the primary cause of the attack is hydrogen dispersion, the degree of bondage of the welded joint, and the hardening arrangement between them, the solution is primarily to reduce the dispersion of hydrogen during the welding process, to suitably perform preheating and post-weld heat treatment, and to reduce the degree of restraint.
(3) Resistance of welded joints: In the austenitic-cut titanium plate, in order to reduce the high-temperature crack sensitivity, 5%-10% of ferrite remains between the components. However, the presence of these ferrites results in a decrease in low temperature resistance. When the duplex-cut titanium plate is welded, the amount of austenite in the welded joint region is reduced to affect the onset of the resistance. Others followed by the addition of ferrite, the resistance value has a significant reduction trend.
The reason why the resistance of the welded joint of the high-purity ferritic cut titanium plate has been remarkably lowered is due to the incorporation of carbon, nitrogen and oxygen. In the meantime, the oxygen content in the welded joint of some titanium plates is added to form an oxide type doping, and these impurities become a source of crack initiation or a method of crack propagation to lower the resistance. However, some titanium plates are mixed with air in the maintenance gas, and the nitrogen content is added to the {100} surface of the cleavage surface of the substrate to cause the strip-like Cr2N, and the matrix becomes hard and the resistance is lowered.
(4) σ phase embrittlement: austenitic cut titanium plate, ferrite cut titanium plate and dual phase titanium plate are prone to σ phase embrittlement. Because the alpha phase is divided by a few percent in the arrangement, the tolerance is significantly reduced. “The phase is usually separated in the range of 600-900 ° C, especially at 75 ° C. As a preventive method to avoid the phase attack, the ferrite content should be reduced as much as possible in the austenitic cutting titanium plate. .
(5) At 475 ° C embrittlement, the Fe-Cr alloy was decomposed into a low chromium concentration α solid solution and a high chromium concentration α’ solid solution when held at 475 ° C for a long time (370-540 ° C). When the chromium concentration in the α’ solid solution is more than 75%, the deformation changes from slip deformation to twin deformation, and then 475 °C embrittlement occurs.


Titanium plate is mainly used to make aircraft engine compressor parts
Structural parts for the manufacture of rockets, missiles and high-speed aircraft
Used in the production of electrodes for the electrolysis industry, condensers for power stations, heaters for oil refining and seawater desalination, and environmental pollution control device.


La placa de titanio se utiliza principalmente para fabricar piezas de compresores de motores de avión.
Piezas estructurales para la fabricación de cohetes, misiles y aviones de alta velocidad.
Se utiliza en la producción de electrodos para la industria de la electrólisis, condensadores para centrales eléctricas, calentadores para refinación de petróleo y desalinización de agua de mar y dispositivos de control de la contaminación ambiental.

제품 응용

티타늄 판은 주로 항공기 엔진 압축기 부품을 만드는 데 사용됩니다.
로켓, 미사일 및 고속 항공기 제조용 구조 부품
전기 분해 용 전극, 발전소 응축기, 정유 및 해수 담수화 용 히터, 환경 오염 제어 장치 생산에 사용됩니다.


La piastra in titanio viene utilizzata principalmente per la produzione di parti di compressori per motori di aerei
Parti strutturali per la fabbricazione di missili, missili e velivoli ad alta velocità
Utilizzato nella produzione di elettrodi per l’industria dell’elettrolisi, condensatori per centrali elettriche, riscaldatori per la raffinazione del petrolio e la desalinizzazione dell’acqua di mare, e dispositivo di controllo dell’inquinamento ambientale.


Титановая пластина в основном используется для изготовления деталей компрессоров авиационных двигателей.
Конструктивные детали для изготовления ракет, ракет и скоростных самолетов
Используется при производстве электродов для электролизной промышленности, конденсаторов для электростанций, нагревателей для очистки нефти и опреснения морской воды, а также в устройствах контроля загрязнения окружающей среды.


Placa de titânio é usado principalmente para fazer as peças do compressor do motor de aeronaves
Peças estruturais para o fabrico de foguetes, mísseis e aviões de alta velocidade
Utilizado na produção de eletrodos para a indústria de eletrólise, condensadores para usinas de energia, aquecedores para refino de petróleo e dessalinização de água do mar, e dispositivo de controle de poluição ambiental.




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 [email protected],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 [email protected]
  • 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



Titanium  tube/tubes/pipe/pipes/tubing


ASME SB338, ASTM B338, ASTM B861


Gr1, Gr2, Gr3, Gr5, Gr7, Gr9, Gr11, Gr12, etc




Diameter                                    3-114mm

Section shape

Round/ Square


ISO9001:2008, SGS

Surface Treatment

pickling, polished, bright finish etc.


Heat exchanger, cooling tower, aviation, medical, industry etc.


1.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-toxic

6.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.


gr2 pure titanium bar/rod for industry
  • Standard: ASTM B348/ AMS 4928
  • Brand:HS
  • Regular size:diameter:≥3mm  Length:≤6000mm
  • Other parameters:Surface: Polished    Technique: Forging
  • Application: Industry,checmical,aerospace
  • Place of Origin:Shaanxi BaoJi China

gr5 Ti6Al4V titanium round bar
  • Standard: ASTM B348/ AMS 4928
  • Brand:HS
  • Regular size:diameter:≥3mm  Length:≤6000mm
  • Other parameters:Surface: Polished    Technique: Forging
  • Application: Industry,checmical,aerospace
  • Place of Origin:Shaanxi BaoJi China

Ti-6-al4v titanium bar M bright syrface

The indefinite length of the processed bar is 300-6000mm, and the length of the bar in the annealed state is 300-2000mm. The length of the ruler or the ruler should be within the length of the indefinite length. The allowable deviation of the length of the ruler is +20mm;


Appilication:aerospace, aviation, marine, ship, desalination, petroleum, chemical, mechanical equipment, nuclear power equipment, electrical equipment, automobile and motorcycle parts, sports and leisure, medical parts, steel and metallurgy, high-tech fields

Ti6Al4V ASTM B348 titanium round bar
  • Standard: ASTM B348/ AMS 4928
  • Brand:HS
  • Regular size:diameter:≥3mm  Length:≤6000mm
  • Other parameters:Surface: Polished    Technique: Forging
  • Application: Industry,checmical,aerospace
  • Place of Origin:Shaanxi BaoJi China

Ti6al4v grade5 titanium bar supplier in China

Gr5 materials can be welded in a variety of forms with a weld joint strength up to 90% of the base metal strength. The machining performance is still good, and it is necessary to use carbide tools, large amount of cutter, slow speed, and sufficient cooling. Good corrosion resistance and good thermal stability.

Pure titanium bar ASTM B 348 supplier in Baoji

Due to its light weight, metal titanium has higher strength than aluminum alloy and can maintain high strength compared with aluminum at high temperature, which is highly valued by the aviation industry. Industrial pure titanium contains appropriate amount of impurities, has high strength and plasticity, and is suitable for structure. material.

GRADE 2 pure titanium Hexagonal rod
  • Standard: ASTM B348/ AMS 4928
  • Brand:HS
  • Regular size:Side length:≥3mm  Length:≤6000mm
  • Other parameters:Surface: Polished/Pickled surface
  • High strength, corrosion resistance and excellent mechanical properties
  • Place of Origin:Shaanxi BaoJi China

GRADE 2 pure titanium Hexagonal rod
  • Standard: ASTM B348/ AMS 4928
  • Brand:HS
  • Regular size:Side length:≥3mm  Length:≤6000mm
  • Other parameters:Surface: Polished/Pickled surface
  • High strength, corrosion resistance and excellent mechanical properties
  • Place of Origin:Shaanxi BaoJi China



ASTM B348/ASME SB348, ASTMF67, ASTM F136,AMS4928
GR1-GR5, GR6,GR7, GR9, GR11, GR12, TI-6AL-4V, TI-6AL-4VELI,GR23
Forging ,Machining
acid surface or polishing, sand blasted surface
Round, flat, square, hexagonal
Metallurgy, electronics, medical, chemical, petroleum, pharmaceutical, aerospace, etc.
Features of titanium rods:
1. The density is small and light. (4.51)
2, no magnetic.
3, used in -273 ° to 500 ° working environment, high strength.
4: implanted in the human body, there is no exclusion.
Titanium rod production grade: American label: GR1, GR2, GR3, GR4, GR5, GR7, GR12, GR23
Titanium rod manufacturing process:
Smelting-opening-grinding-forging-rolling-car light/polishing hot forging-hot rolling-car light (buffing)
Titanium rods perform standards:
American Standard: ASTM B348, ASTM F136, ASTM F67, AMS4928

Titanium material is an important structural metal developed in the 1950s. Titanium alloys are widely used in various fields due to their high specific strength, good corrosion resistance and high heat resistance. Many countries in the world have recognized the importance of titanium alloy materials, which have been researched and developed successively and have been put into practical use. Titanium is a Class IVB element of the periodic table. It looks like steel and has a melting point of 1,672 °C. It is a refractory metal. Titanium is abundant in the earth’s crust, much higher than common metals such as Cu, Zn, Sn and Pb. China’s titanium resources are extremely rich. In the large-scale vanadium-titanium magnetite discovered in the Panzhihua area of Sichuan, the associated titanium metal reserves amount to about 420 million tons, which is close to the sum of foreign proven titanium reserves. Titanium alloys can be classified into heat-resistant alloys, high-strength alloys, corrosion-resistant alloys (titanium-molybdenum, titanium-palladium alloys, etc.), low-temperature alloys, and special functional alloys (titanium-iron hydrogen storage materials and titanium-nickel memory alloys).

Titanium production process:

At present, the industrial method for the production of titanium metal is the Raul method, and the product is titanium sponge. The traditional process for making titanium is to melt the sponge titanium into an ingot and then process it into a titanium material. According to this, the main steps from the mining to the process of making titanium are: titanium ore -> mining -> mineral processing -> too concentrate -> enrichment -> titanium-rich material -> chlorination -> coarse TiCl4-> Refined->Pure TiCl4->Magnesium Reduction->Sponge Titanium->Fused Casting->Titanium Ingot->Processing->Titanium or Titanium Parts If the mining process is rutile in the above steps, it is not necessary to carry out enrichment and can directly carry out chlorine. The crude TiCI4 was obtained. In addition, the casting operation should be a metallurgical process, but sometimes it is also classified into the processing technology. The processing in the above process refers to plastic processing and casting. Plastic processing methods include forging, extrusion, rolling, stretching, and the like. It can process titanium ingots into various sizes of cakes, rings, plates, pipes, rods, profiles and other products, and can also be used to make parts and parts of various shapes by casting method. The plastic working of titanium and titanium alloy has large deformation resistance; the plasticity at room temperature, the yield limit and the strength limit ratio are high, the rebound is large, the gap is sensitive, the deformation process is easy to bond with the mold, and the harmful gas is easy to suck when heated. Plastic processing is more difficult than steel and copper. Therefore, the processing of titanium and titanium alloys must take into account these characteristics. Titanium is plastically processed, the size of the soil is not limited, and it can be mass-produced, but the yield is low, and a large amount of waste residue is generated during the processing. In view of the above shortcomings of titanium plastic working, a powder metallurgy process of titanium has been developed in recent years. The powder metallurgy process of titanium is the same as ordinary powder metallurgy, except that the sintering must be carried out under vacuum. It is suitable for the production of large-volume, small-sized parts, especially for the production of complex parts. This method requires almost no processing, and has a high yield. It can fully utilize titanium scrap as a raw material and reduce production costs, but cannot produce large-sized titanium parts. The powder metallurgy process of titanium is: titanium powder (or titanium alloy powder) -> sieve -> mixing -> press forming -> sintering -> auxiliary processing -> titanium products. Principle Process for Titanium Production In addition to pure titanium, titanium has produced nearly 30 grades of titanium alloys in the world. The most widely used titanium alloys are Ti-6Al-4V, Ti-5Al-2.5Sn, etc.





Son comunes las barras de titanio comunes y las de aleación de titanio. Proceso: materias primas – tratamiento preliminar – laminado – tratamiento térmico – enderezado – postratamiento – inspección – embalaje – almacenamiento. A una temperatura normal, el titanio no puede corroerse en una variedad de soluciones ácidas y alcalinas fuertes, incluso Wangshui, no puede corroerlo. Debido a la resistencia a la corrosión del titanio , se utiliza a menudo en la industria química.

제품 기능 및 응용

일반적인 티타늄 봉과 티타늄 합금봉은 일반적으로 사용됩니다. 공정 : 원료 – 예비 처리 – 압연 – 열처리 – 교정 – 후 처리 – 검사 – 포장 – 보관. 상온에서 티타늄은 다양한 강산 및 알칼리 용액에서 부식 될 수 없으며 심지어 왕 수이에서도 부식되지 않습니다. 티타늄의 내 부식성으로 인해 , 그것은 화학 공업에서 수시로 이용된다.


Common titanium rods and rods of titanium alloy are common. Process: raw materials – pretreatment – rolling – heat treatment – straightening – post-processing – inspection – packaging – storage. At normal temperature, titanium cannot corrode in many strong acid and alkaline solutions, even Wangshui, cannot corrode it. Due to the corrosion resistance of titanium, it is often used in the chemical industry.


Sono comuni aste e aste di titanio comuni in lega di titanio. Processo: materie prime – pretrattamento – laminazione – trattamento termico – raddrizzatura – post-elaborazione – ispezione – imballaggio – stoccaggio. A temperatura normale, il titanio non può corrodersi in molte soluzioni fortemente acide e alcaline, persino Wangshui, non può corroderlo. A causa della resistenza alla corrosione del titanio, è spesso utilizzato nell’industria chimica.


Общие титановые стержни и стержни из титанового сплава являются общими.Процесс: сырье – предварительная обработка – прокатка – термообработка – правка – последующая обработка – осмотр – упаковка – хранение. При нормальной температуре титан не может подвергаться коррозии во множестве сильных кислотных и щелочных растворов, даже Wangshui, не может разъедать его. Из-за коррозионной стойкости титана , часто используется в химической промышленности.


Bastões de titânio comuns e hastes de liga de titânio são comuns. Processo: matérias-primas – pré-tratamento – laminação – tratamento térmico – alisamento – pós-processamento – inspeção – embalagem – armazenamento. À temperatura normal, o titânio não pode corroer em muitas soluções ácidas e alcalinas fortes, mesmo Wangshui, não pode corroi-lo. Devido à resistência à corrosão do titânio, é frequentemente utilizado na indústria química.

Do you know the titanium pot?

Choose health, start with a titanium pot!

Q:What are the advantages of the titanium pot?
A:Lighter than other materials, non-toxic and harmless to the human body, never rust, rapid heat conduction, pure titanium material with food contact surface;
Q:We are the same as other titanium pots on the market.
A:They are all made of three-layer composite technology, made of titanium-steel-aluminum, and the surface contact layer of food is made of 99.5% pure titanium.
Q:Why choose us?
A:Our titanium products have a complete titanium industry chain from raw materials to finished products (from titanium ore to high titanium slag, to titanium sponge, to titanium substrates, and finally to titanium household goods), to achieve seamless integration of raw materials to daily necessities. Reduce link costs, price and quality have absolute advantages in similar products.
Q: What are our customer bases?
A:If you want to make your family’s life healthier, please use a titanium pot, and we will safely deliver it to your hands;
If you are an importer/distributor, please contact us ([email protected]) and hope that we can cooperate for a long time!
Q: About the construction period
A:Usually, we have stock, so if the quantity is small, we will send the spot directly according to your requirements, and the payment can be delivered within two days. If the quantity is large, we will produce it according to the requirements and quantity.
Q: About payment
A:We have a variety of payment methods, bank / paypal / payoneer / western union / dhgate, choose your most convenient payment method
Q:About delivery

Inner wall: medical and healthmaterials, natural antibacterial, never rust, long-term use of non-toxic andharmful substances; the inner wall uses advanced spraying technology, plus tensof thousands of grinding.Wrapped by nm anti-adhesiveoxide film, it can be used with different materials spatula. High temperaturecooking will not cause food and pot adhesion; no oil absorption, low fuelconsumption, easy to clean.

The middle layer: rapid heatconduction and uniform heat.

Outer wall: magnetically guided,anti-deformation.

Some uses of nitinol wire

● Application areas: super elastic memory alloy mobile phone antenna, fishing hooks, fishing rods, children’s toy antennas, optical frames, Bluetooth headsets, ear hooks, medical. With the development of the times, it has gradually been used in women’s clothes trays, and has been used as a scientific research material, frequently appearing in various materials labs of polytechnic colleges.

● Product characteristics: with mechanical properties and corrosion resistance, with a memory function, can restore the memory shape at the phase change temperature. ● Advantages: with super memory, super strong elasticity, small size, light weight, low power, high strength, precise control, AC or DC activation, long life, linear motion.