Grade Grade2Grade3Grade4Grade5Ti2Al25Zr Specifications Rangemm 10300530600
Grade Grade2,Grade3,Grade4,Grade5,Grade9,Grade11,Grade12,B-1,TB5,GR5,Ti-6.5Al-1Mo-1V-2Zr(-0.15Si),TA12A,SP700 Specifications Range(mm) Thickness x Width x Length 4.0~101.6�?400-1600�?â?¤6000 >0.6~
Grade Grade6Grade9Grade12A4Ti811Ti25CuTi65Al1Mo1V2Zr015SiTi2Al25ZrTi2Al2V Ti6242STi1Al1MnTi3Al1Mo1Ni1ZrTi3Al2Mo2Zr B1Ti1023GR21Beta 21SGR19GR20Grade11Grade12A4Ti65Al35Mo025SiAB4 TB15Ti5Al2Sn2Zr4Mo4CrTi5Al475Mo475V1Cr1Fe NiTi Specifications Rangemm Pure Ti20500 Compressor blades2070 Medium Strength Alloys20350 High Strength Alloys20130 300400 9150
Platinized Titanium Anode Platinized titanium anode consist of titanium anodes coated with platinum or platinum metal oxide. These anodes act as inert and non-consumable electrodes, making them very durable. In addition, they remain insoluble in the electrolyte even under the conditions present in the electrolysis process. Platinum Plated Titanium Anode Platinum plated titanium anode consist of titanium anodes coated with platinum or platinum metal oxide. These Platinum plated titanium anode act as inert and non-consumable electrodes, making them very durable. In addition, they remain insoluble in the electrolyte even under the conditions present in the electrolysis process. Platinum is an ideal anode material due to its excellent electrical conductivity and low consumption rate. However, in view of its status as a precious metal, a cost-effective method of electroplating a thin layer of platinum on a highly corrosion-resistant substrate is usually employed. Titanium, known for its ability to form insulating oxide films under anodic conditions, is a commonly used anode substrate.
MMO Coated Titanium Anodes Mixed metal oxide coatings on titanium substrates are widely used as anodes in various electrochemical processes, such as chlorination, oxygen production, electrolytic deposition of metals and cathodic protection in the chlor-alkali industry. The application of materials with high conductivity and long-term stability in electrochemical environments is considered to be one of the main goals of electrochemical cell engineering. Metal oxides such as RuO2 and IrO2, which have high electrical conductivity and electrochemical activity, have received much attention as electrocatalysts in the electrochemical industry. In order to further improve the stability of these oxides, other oxides such as TiO2, Ta2O5 and ZrO2 have been added to these active oxides. Anodic chloride and oxygen precipitation are the most important reactions in the application of these materials. Oxygen precipitation is the most important reaction in electrochemical processes such as water electrolysis, electrolytic deposition of metals and cathodic protection. In addition, this reaction is unavoidable in many anodic processes. RuO2-based coatings (e.g. pure RuO2 and RuO2-TiO2) are very stable to the chloride precipitation reaction. However, they are unstable to anodic oxygen precipitation and are subject to severe corrosion in acidic media. IrO2 is more stable for the oxygen precipitation reaction, but its oxygen precipitation electrocatalytic activity is lower. Therefore, due to the favourable properties of the two oxides, a mixture of IrO2 and RuO2 could be a suitable electrocatalyst for the oxygen revolution. Mixing two or more different oxides can affect the electrocatalytic performance of the oxides by changing the microstructure, surface composition and morphology of the electrocatalyst components. In addition, the surface composition, morphology and microstructure of mixed oxide coatings are not homogeneous and may be affected by preparation factors and active oxide content. Ruthenium mixed oxide coated titanium anodes are generally used in environments such as hydrochloric acid, electrolytic seawater and electrolytic brine environments. Fields of application Electrolytic production of non-ferrous metals, electrolysis of chlorinated salts, electrolysis of salt/seawater, metal foil manufacturing, electrochemical treatment of metal foil surfaces, disinfection, electrolytic extraction and recovery of non-ferrous metals, organic electrolysis, cathodic protection, electrodialysis, production of acidic and alkaline ionised water, treatment of industrial wastewater.
Grades: Grade2,Grade3,Grade4,Grade5,Grade6,Grade11,Grade12,B-1,TB5,Ti-6.5Al-1Mo-1V-2Zr(-0.15Si),Ti-70,Ti-75,customized Specifications Range(mm): Thickness x Width x Length 4.0~101.6x400-1600 6000 >0.6~
Product Introduction: Titanium Basket for gravure plating machine used on rotogravure cylinder making copper and chrome tank. Product Advantage: 1.Good corrosion resistance against 2.Good electrical conductivity
The company specializes in producing and selling titanium and titanium alloys, nickel-based alloys, tungsten and tungsten alloy, special alloys, tantalum, niobium and other rare metal products.
The company specializes in producing and selling titanium and titanium alloys, nickel-based alloys, tungsten and tungsten alloy, special alloys, tantalum, niobium and other rare metal products.
The company specializes in producing and selling titanium and titanium alloys, nickel-based alloys, tungsten and tungsten alloy, special alloys, tantalum, niobium and other rare metal products.
The company specializes in producing and selling titanium and titanium alloys, nickel-based alloys, tungsten and tungsten alloy, special alloys, tantalum, niobium and other rare metal products.
Titanium tubes come in various grades, each with specific properties suited to different applications. Titanium alloys are known for their excellent strength-to-weight ratio, corrosion resistance, and biocompatibility, making them ideal for a wide range of industries, including aerospace, medical, chemical processing, and marine. Here are some common grades of titanium tubes: Grade 1 (UNS R50250): Commercially pure titanium with excellent corrosion resistance, high ductility, and good weldability. Grade 1 titanium tubes are often used in applications where corrosion resistance and formability are essential, such as chemical processing equipment, heat exchangers, and marine components. Grade 2 (UNS R50400): Commercially pure titanium with slightly higher oxygen content than Grade 1, resulting in improved formability and moderate strength. Grade 2 titanium tubes are widely used in aerospace, marine, and medical applications, as well as in heat exchangers, piping systems, and condensers. Grade 5 (Ti-6Al-4V, UNS R56400): An alpha-beta titanium alloy containing 6% aluminum and 4% vanadium, offering excellent strength, toughness, and corrosion resistance. Grade 5 titanium tubes are commonly used in aerospace, automotive, and biomedical applications, as well as in high-performance sports equipment and marine components. Grade 9 (Ti-3Al-2.5V, UNS R56320): An alpha-beta titanium alloy containing 3% aluminum and 2.5% vanadium, providing a good balance of strength, weldability, and corrosion resistance. Grade 9 titanium tubes are often used in aerospace structures, bicycle frames, and marine components where high strength and corrosion resistance are required. Grade 12 (Ti-0.3-Mo-0.8Ni, UNS R53400): An alpha-beta titanium alloy containing 0.3% molybdenum and 0.8% nickel, offering excellent corrosion resistance in oxidizing and reducing environments. Grade 12 titanium tubes are commonly used in chemical processing, desalination plants, and marine applications where resistance to chlorides and seawater is critical. Grade 23 (Ti-6Al-4V ELI, UNS R56401): An extra-low interstitial version of Grade 5 titanium with enhanced fracture toughness and biocompatibility, suitable for medical implants and surgical instruments. These are some of the commonly used grades of titanium tubes. The selection of the appropriate grade depends on factors such as mechanical properties, corrosion resistance, temperature requirements, and cost considerations. It's important to consult with suppliers or engineers to choose the right grade for your specific application needs.
Material: Ta0 Ta1 Ta2 Ta7 Ta9 etc. Thickness: 0.25mm, 0.3mm, 0.4mm, 0.6mm, 0.8mm, 1.0mm etc. Porosity: 50-60%,55%, 65%, 60-70%, 75% 70-80% Size: 100x100mm, 200x200mm, 300x300mm, 400x400mm, 500x500mm, 600x600mm etc. Applicationï¼? The field of hydrogen production by electrolysis of water; PEM electrolyzer diffusion layer; Hydrogen fuel; Hydrogen suction machine, hydrogen-rich water dispenser, hydrogen-rich cup;
titanium bars Grade GR1,GR2,GR3,GR4,GR5,GR7,GR9,GR23 Email Specifications: (3.0--350) mm L, specifications can be selected, can also be customized according to the specifications provided by the customer zero cut, the implementation of standards, delivery on time! Standardï¼? astm b348, astm f136, astm f67, ams4928, iso5832-2, iso5832-3 titanium alloy rod applications: Titanium products include titanium wire, titanium rods, titanium plates, titanium tubes, titanium strips and titanium foils. Extensive evaluation of aerospace, sports, petrochemical and other industrial fields. Titanium parts manufactured by machining, casting and forging, including various bolts, bolts, bases, flanges, connectors, elbows, medical parts, widely used in coupes, bicycles, automotive, medical, aerospace and petrochemical Industrial applications.
Titanium Wire ASTM B863 Titanium Alloy Rod Titanium wire We stock a variety of titanium wires, including a full line of commercially pure and medical grade titanium wires. It can provide random length. Titanium wire specifications standardgradetechnologystraightforwardCoillengthsurface ASTM B863ã??ASTM B348ã??ASTM F67ã??ASTM F136 ç� Gr1, Gr2, Gr5, Gr23, etc. hot rolled, cold rolled, rolled Diameter: 1.0mm-10.0mm (tolerance: +/-0.05mm) Diameter: 0.2mm-10.0mm Coil or according to customer requirements Blackened, pickled, polished (diameter>1mm) Titanium wire characteristics Low Density, High Strain Strength excellent corrosion resistance Good heat resistance Excellent low temperature bearing capacity Harmless and non-toxic good thermal performance low elastic modulus Titanium wire application 3D printing fan 3D printing straight wire Aerospace alloys and their applications medical entry automotive application Drilling and Accessories light frame Surgical Instruments construction application cover other materials bolts and bolts corroded web Titanium wire test Slewing ring bend test Metallography (General) microporous near surface inspection Porosity test Meets AMS, ASTM, MIL, DIN specifications Titanium round wire, titanium aluminum alloy wire, nickel titanium wire, titanium ear wire, titanium welding wire, nickel titanium alloy wire are available. We produce according to the exact dimensions given. We are a trusted supplier and have been focusing on titanium wire production for many years. We supply high quality medical grade titanium wire at competitive prices.
Titanium Foil 0.007-0.3mm GR1,GR2,GR5 ASTM B265 Quick Details Grade GR1,GR2,GR5 Standard GB/T 3622, ASTM B265, ASME SB265 Thickness 0.007mm - 0.3 mm Condition Annealed or unannealed Shape Coil or sheet Packaging cardboard or wooden boxes producing area baoji,china
Product Details Titanium plate execution standard: GB/T3621-2007, ASTM B265, ASTM F136, ASTM F67 Titanium plate grade: TA2/GR2, TA1/GR1, TC4/GR5, GR9, GR12, GR23 Titanium plate specifications: Thickness: 0.8mm-50mm Width: 1000-2000mm Length: â?¤ 6000mm, can be customized and cut according to size specifications Product advantages: Good plasticity, excellent formability, easy fusion welding, and high temperature working temperature up to 300 â??. Mainly used as corrosion-resistant structural materials, such as pressure vessels, pump valves, etc Titanium plate application field: Seawater desalination, petroleum, chemical, mechanical equipment, electrical equipment, automotive and motorcycle components, sports and leisure, medical components, steel and metallurgy, high-tech industries, and other industries Titanium plate features: Low density (4.51KG/m3), high melting point (1660 â??), strong corrosion resistance, high specific strength, and good plasticity Process: Manufacturing process: hot rolled, cold rolled, vacuum annealed. Delivery status: R/M/Y
Titanium dioxide, copper , aluminium, steel and iron.
Titanium feedstocks like ilmenite, rutile, slag.
Titanium-dioxide-rutile.
