'vanadium molybdenum'

Product name: Titanium Tubes For Heat Exchanger Standard:ASTM B338 Material:Grade 1 Grade 2 titanium Diameter:15mm 19.1mm 25.4mm 33.4mm 38.1mm 45mm etc. Wall thickness:1.0mm / 1.2mm Length:Max 16000mm Surface:Pickling surface/Polished Type:Seamless, welded Application:Heat Exchanger, chemical industry etc. Technique:Rolled Titanium Tubes For Heat Exchanger Titanium tubes are corrosion resistant in seawater and chlorine. It is alloyed with elements such as iron, vanadium, aluminum and molybdenum to produce strong and light alloys for industrial purposes such as chemical industry, seawater desalination plant, petrochemical, papermaking and pulp. The most common dimensions of titanium seamless or titanium welded tubes for heat exchangers and pressure vessels are od0.5 "(12.7mm), 0.63" (16mm), 0.75 "(19.05mm), 1" (25.4mm), 1.25 "(31.75mm), 1.5" (38.1mm), 1.78 "(45mm), 2" (50.8mm), etc., and wt0.02 "(0.5mm), 0.024" (0.6mm), 0.028 "(0.71mm), 0.035" (0.89mm) , 0.049 "(1.24mm), 0.11" (2.77mm), 0.125 "(3.17mm), etc. Product name Titanium tubes for heat exchanger，ASTM B338 titanium tube pipe,Seamless titanium tube,Welded titanium tubes,Titanium tube price per kg Grade Gr1 Gr2 Different types of Titanium heat exchanger tubes Seamless, Welded Standard ASME /ASTM B 338 Straightness of heat exchanger tubes 0.0015 x L. In conversion , 1 meter length OUTER DIAMETER (OD) 0.500 - 3.000 inch heat exchanger tubes manufacturer 12.7 - 76.2 mm WALL THICKNESS (WT) 0.035 - 0.220 inch 0.89 - 5.52 mm Lengths Titanium heat exchanger tubes are delivered in straight lengths up to 16.5 meters (54 ft). Titanium U-bent tubes are available on request. Manufacturing Method Seamless (Cold Drawn/Cold Rolling) Heat exchanger tubes Certified test reports ASTM / ASME A450 EN 10204: for EN 10297 nonspecified testing (only the mandatory tests), 2.2 specified testing – 3.1.B after agreement - 3.1.A, 3.1.C, 3.2 DIN 50049, - 2.2, 3.1. B Pipe Assemby Headers Pigtails Flanged Pipes Longitudinal finned Pipes and Tubes Finned Tubes Special Forgings Special designed parts acc. to drawing Welding together possible Grades of Seamless Titanium Heat Exchanger Tubes ASTM GRADE UNS NO. DIN/ EN MATERIAL CODE Grade 1 R50250 3.7025 Ti 1 Grade 2 R50400 3.7035 Ti 2 Grade 3 R50550 3.7055 Ti 3 Grade 7 R52400 3.7235 Ti 2 Pd Grade 9 R56320 3.7195 Ti Al 3 V 2,5 Grade 11 R52550 3.7225 Ti 1 Pd Grade 12 R53400 3.7105 Ti Ni 0,8 Mo 0,3

Product name:6mm Titanium plate Unit price:$14-$36.9/kg Material: Titanium grade 1 grade 2 grade 3 grade 4 Grade 5 (Ti6al4v),grade 7,grade 12 etc. Standard: ASTM/ASME B265 AMS 4911 ASTM F136 ASTM F67 etc. Demension: Thickness*1000*2000mm Thickness*3000*6000mm (Standard size); Thickness: 0.5mm; 0.8mm; 1.0mm; 1.2mm; 1.5mm; 2.0mm; 3.0mm; 4.0mm ......40mm etc br>Technique : Rolled Status: Annealed(M) A Thin Titanium Sheet is slow to react with water and air at ambient temperatures. Since, on exposure to both mediums, the Titanium Alloy Plate forms a passive oxide coating or coating which protects the bulk metal from further oxidation. Titanium Sheets Suppliers note that Atmospheric passivation gives Titanium Foil Sheet excellent resistance to corrosion. Though, as a metal Titanium Alloy Sheet is capable of withstanding attack by dilute sulfuric acid and hydrochloric acids, chloride solutions, as well as most organic acids ; However, Titanium Sheet Metal can be corroded by concentrated acids. Material Pure Titanium plate and titanium alloy plate Standard ASTM B265, ASME SB265, AMS 4900, AMS 4901, AMS 4902 Type Clad Plate, Rolling Plate, Flat Shim, Plain Sheet, Rolling Sheet Rolls, Foils, Coils, Plate, Strip, Sheet, Flats, Blank (Circle), ,Flat Sheet, Shim Sheet, soft annealed, descaled, sheared, annealed, Checker Plate, tread plate ASTM B265 Titanium Plate surface Hot rolled plate (HR), Cold rolled sheet (CR), No.1 finish hot rolled ASTM B265 Titanium Plate, BA, No.3, No.4, No.6, No.1, No. 2D, No. 2B, BA NO(8), No.7, 2B, 2D, SATIN (Met with Plastic Coated), 2B, 1D, No.4, 8K, BA, hairline, brush, satin, mirror etc. ASTM B265 Titanium Plate Length 0-12mm or as required Titanium Plate Thickness 0.3 to 1200 mm or as required Titanium Alloy Plate Width 0-3000mm or as required Titanium alloy Plate Process Hot/ Cold Rolled ASTM B265 Titanium Grade 2 Sheet ASTM B265 Titanium Grade 5 Sheet ASTM B265 Titanium Grade 12 Sheet Sizes T(0.5-60) x 1000 x 2000mm Physical Properties Tensile Strength(min) Yeild Strength(min) Elongation(%) ksi MPa ksi MPa Grade 1 35 240 20 138 24 Grade2 50 345 40 275 20 Grade 3 65 450 55 380 18 Grade 4 80 550 70 483 15 Grade 5 130 895 120 828 10 Grade 7 50 345 40 275 20 Grade 12 70 483 50 345 18

Titanium couplings and nipples are essential components used in piping systems to connect, extend, or adapt pipes. Renowned for their outstanding strength, corrosion resistance, and durability, titanium fittings are widely utilized in high-performance industries such as aerospace, marine, chemical processing, and power generation. The unique properties of titanium ensure that these fittings offer long-lasting, reliable service in demanding applications. Titanium Coupling A titanium coupling is a pipe fitting used to join two pipes or tubes together. They are designed to connect the same or different diameter pipes, allowing for a seamless, leak-proof connection. Titanium couplings offer exceptional resistance to corrosion, high strength, and are lightweight, making them ideal for use in environments exposed to harsh conditions like seawater, chemical exposure, or high temperatures. Titanium Nipple A titanium nipple is a short, cylindrical pipe section that is typically threaded on both ends to allow for easy connection of pipes. It serves as an extension or connection between two other fittings or pipes, offering a secure and stable joint. Like other titanium components, titanium nipples offer the advantage of corrosion resistance, strength, and durability, making them suitable for challenging applications across various industries. Titanium Couplings and Nipples – Mechanical Specifications Material: Grade: Typically Grade 2 (commercially pure titanium) or Grade 5 (Ti-6Al-4V, titanium alloy) depending on the application requirements. Standard: ASTM B337, ASTM B348, or equivalent. Tensile Strength: Grade 2 (Pure Titanium): 35,000 – 50,000 psi (240 – 345 MPa). Grade 5 (Ti-6Al-4V): 130,000 psi (900 MPa). Yield Strength: Grade 2 (Pure Titanium): 20,000 – 40,000 psi (138 – 276 MPa). Grade 5 (Ti-6Al-4V): 120,000 psi (828 MPa). Elongation: Grade 2 (Pure Titanium): 20-25%. Grade 5 (Ti-6Al-4V): 10-15%. Hardness: Grade 2 (Pure Titanium): 170-230 HV (Vickers hardness). Grade 5 (Ti-6Al-4V): 300-400 HV (Vickers hardness). Types of Titanium Couplings: Threaded Couplings: Used to connect pipes with matching threads, providing a secure and easy-to-assemble connection. Common for low-pressure systems. Socket Weld Couplings: Welded into the socket of connecting pipes, ideal for high-pressure applications, offering a permanent, strong connection. Butt Weld Couplings: Have flared ends for welding to pipes, commonly used in high-pressure systems for a smooth and durable connection. Flanged Couplings: Connect pipes via flanges and bolts with a gasket for a high-pressure, leak-proof connection. Suitable for large-scale industrial applications. Types of Titanium Nipples: Threaded Nipples: Cylindrical pipes with male threads at both ends, used to extend or connect pipes. Easy to install and remove. Socket Weld Nipples: One end fits into a socket for welding, designed for high-pressure systems, offering a permanent and robust connection. Butt Weld Nipples: Used to connect pipes by welding, offering a seamless and high-strength connection for high-pressure systems. Reducing Nipples: Connect pipes of different diameters, allowing for transitions between pipe sizes in fluid systems. Extension Nipples: Extend the length of a pipeline, used in systems requiring adjusted pipe alignment or spacing. Hex Nipples: Have a hexagonal shape for easy tightening and installation without tools, commonly used in fluid and gas systems.

Ladhani Metal Corporation is a manufacturer and stockist of a wide range of titanium valves, including: Titanium Full Bore and Flanged Valves, Titanium Needle Valves, Titanium Check Valves, Titanium Globe Valves, Titanium Gate Valves, Titanium Y Strainers, and other titanium forged fittings. Titanium valves are available in a variety of material grades, ranging from the most commonly used Grade 2 to alloyed titanium grades such as Gr. 5, Gr. 7, and Gr. 12. Titanium alloys are also known as R50400, R50550, and R56400 in UNS. Titanium valves are designed as per ANSI B16.34. Titanium valves are primarily made from ASTM B381 Grade F2 and F5. We manufacture our ball valves entirely from titanium, including: Titanium Ball Titanium Body Titanium Handle Titanium Fasteners Titanium Flange Ladhani Metal Corporation is a manufacturer, exporter, and supplier of titanium ball valves. Our Titanium Ball Valve Products: 1000 - 6000 PSI Two-Piece Full Bore Ball Valve 1000 - 6000 PSI Three-Piece Full Bore Ball Valve ANSI Class 150 – 900 Two-Piece Flanged Ball Valve ANSI Class 150 – 900 Two-Piece Flanged Ball Valve Design Features: Full Bar Machined Construction Valve Design as per ANSI B16.34 2-Piece Body Design, Full Bore Blow-Out-Proof Stem Design Flange Face to Face: ANSI B16.10 Class 150/300 RF Flange Dimension: ANSI B16.5 Class 150/300 End Type: Screwed & Welded End NACE MR0175 is available Ladhani Metal Corporation can also manufacture titanium ball valves in grades such as Titanium Grade 1, Titanium Grade 2, Titanium Grade 5, Titanium Grade 9, Titanium Grade 6, and Titanium Grade 23. Available at the following locations: Coimbatore, Rudrapur, Bhilai, Raigarh, Navi Mumbai, Aluva, Vijayawada, Firozabad, Panna, Panipat, Channapatna, Varanasi, Moradabad, Bareilly, Jamshedpur, Tiruppur, Rajahmundry, Bokaro Steel City, Kolkata, Durgapur, Kharagpur, Hosdurg, Haldia, Indore, Pithampur, Belagavi, Dibrugarh, Palakkad, Delhi, Noida, Kannur, Salem, Sivakasi, Kanpur, Rajkot, Kochi, Peenya, Surat, Rourkela, Visakhapatnam, Angul, Ahmedabad, Gandhinagar, Jamnagar, Vadodara, Bharuch-Ankleshwar, Ludhiana, Pimpri-Chinchwad, Mumbai, Bangalore, Thiruvananthapuram, Thrissur, Gajraula, Unnao, Sri City, Margao, Kunnamkulam, Darjeeling, Nashik, Chennai, Hosur, Haridwar, Faridabad, Mathura, Gurugram, Baddi, Calicut, Pune, Aurangabad, Nagpur, Mirzapur, Perambra, Muzaffarnagar, Meerut, Saharanpur, Bulandshahr, Ichalkaranji, Muvattupuzha, Aligarh, Anjar, Bardoli, Chittaranjan, Hyderabad, Jharia, Morbi, Nepanagar, Kollam, Tiruvalla, Kottayam, Idukki, Alappuzha, Cherthala, Alwaye, Ambattur, Ambarnath, Amritsar, Avadi, Ankleshwar, Bhadravati, Cochin, Dindigul, Ennore, Guntur, Kagithapuram, Kalpakkam, Kollegal, Kolar, Lucknow, Mysore, Nandambakkam, Nangal, Neyveli, Ooty, Perambur, Pinjore, Rupnarayanpur, Renukoot, Sindri, Singhbhum, Sirpur, Udhana, Urkunta, Worli, Zaina Kot. We are an exporter to the following countries: Russia, Canada, United States, China, Brazil, Australia, Argentina, Kazakhstan, Algeria, Democratic Republic of the Congo, Denmark, Saudi Arabia, Mexico, Indonesia, Sudan, Libya, Iran, Mongolia, Peru, Chad, Niger, Angola, Mali, South Africa, Colombia, Ethiopia, Bolivia, Mauritania, Egypt, Tanzania, Nigeria, Venezuela, Namibia, Mozambique, Pakistan, Turkey, Chile, Zambia, Myanmar, Afghanistan, South Sudan, France, Somalia, Central African Republic, Ukraine, Madagascar, Botswana, Kenya, Yemen, Thailand, Spain, Turkmenistan, Cameroon, Papua New Guinea, Sweden, Uzbekistan, Morocco, Iraq, Paraguay, Zimbabwe, Norway, Japan, Germany, Republic of the Congo, Finland, Vietnam, Malaysia, Côte d'Ivoire, Poland, Oman, Italy, Philippines, Ecuador, Burkina Faso, New Zealand, Gabon, United Kingdom, Guinea, Uganda, Ghana, Romania, Laos, Guyana, Belarus, Kyrgyzstan, Senegal, Syria, Cambodia, Uruguay, and Suriname.

A Molybdenum Block is a solid, rectangular or square piece of molybdenum metal, widely used in industrial and commercial applications that require exceptional heat resistance, strength, and durability. Molybdenum is a refractory metal known for its high melting point, corrosion resistance, and mechanical properties, making molybdenum blocks an ideal choice for use in extreme environments. Key Features of Molybdenum Blocks: o High Melting Point: Molybdenum has an exceptionally high melting point of around 2,623°C (4,753°F), allowing molybdenum blocks to perform effectively in high-temperature applications, such as furnace components, aerospace, and other industries where elevated temperatures are a concern. o Excellent Mechanical Strength: Molybdenum blocks possess excellent tensile strength, ensuring they maintain their shape and structural integrity even under heavy loads and mechanical stress. This makes them suitable for demanding environments where other materials may fail. o Corrosion and Oxidation Resistance: Molybdenum is highly resistant to oxidation and corrosion, even at elevated temperatures, which makes molybdenum blocks ideal for applications in chemically aggressive environments like chemical processing, heat exchangers, and reactors. o Thermal and Electrical Conductivity: Molybdenum has good thermal and electrical conductivity, which is particularly valuable in applications requiring efficient heat transfer or electrical performance, such as in electronics, electrical contacts, and semiconductors. o Workability: Although molybdenum is a relatively hard metal at room temperature, it can be machined and fabricated into precise shapes and sizes, including blocks, to meet specific requirements for industrial applications. Molybdenum blocks can be easily cut, milled, or ground to create custom shapes and finishes. o Ductility at High Temperatures: At elevated temperatures, molybdenum becomes more ductile, allowing it to be easily processed into complex shapes and designs when necessary. Common Applications: o Aerospace and Aviation: Molybdenum blocks are used in the manufacturing of aerospace components such as heat shields, turbine blades, and rocket nozzles due to their ability to withstand extreme heat and mechanical stress. o Chemical Processing: Molybdenum blocks are used in reactors, heat exchangers, and other equipment in the chemical and petrochemical industries. Their resistance to corrosion and high-temperature stability makes them suitable for handling aggressive chemicals and high-pressure conditions. o Electronics and Electrical Engineering: Molybdenum blocks are employed in electronics, such as in the production of filaments, cathodes, and components for vacuum tubes. Their thermal and electrical conductivity makes them ideal for these applications. o Metallurgy: Molybdenum blocks are commonly used in the manufacturing of specialty steel alloys, improving the strength and heat resistance of steel products. They are also used in producing molds, dies, and other metalworking tools. o Energy Sector: Molybdenum blocks are used in the energy industry, particularly in nuclear reactors, where their resistance to radiation and high temperatures is critical.

Molybdenum plates are flat, solid sheets of molybdenum metal, renowned for their outstanding properties such as high temperature resistance, strength, and corrosion resistance. These plates are primarily used in demanding industrial applications where materials need to perform under extreme conditions. Key Features of Molybdenum Plates: o High Melting Point: Molybdenum has a very high melting point of about 2,623°C (4,753°F), which makes it ideal for use in high-temperature environments such as aerospace, metal processing, and furnace construction. o Strength and Durability: Molybdenum plates maintain excellent mechanical strength and can withstand heavy stress and pressure without deformation. This makes them suitable for structural components in industries like aerospace and manufacturing. o Corrosion and Oxidation Resistance: Molybdenum is highly resistant to corrosion, especially in high-temperature conditions, which makes molybdenum plates ideal for use in chemically aggressive environments such as chemical processing plants. o Thermal and Electrical Conductivity: Molybdenum has good thermal and electrical conductivity, making it an ideal material for specialized applications in electronics and electrical components, such as filaments, electrodes, and connectors. o Workability: Despite being a hard and brittle metal at room temperature, molybdenum can be processed into thin plates with precise dimensions and surface finishes, making it versatile for various applications. o Ductility at Elevated Temperatures: Molybdenum's ductility increases at higher temperatures, allowing it to be shaped and fabricated into complex parts for industrial use. Common Applications: o Aerospace and Aviation: Molybdenum plates are used in the production of heat shields, turbine blades, and components for jet engines due to their ability to withstand high temperatures and stress. o Chemical and Petrochemical Industries: Molybdenum plates are employed in the construction of reactors, furnace linings, and other equipment that needs to resist harsh chemical environments at high temperatures. o Electronics and Electrical Engineering: Molybdenum plates are used in applications like electrical contacts, semiconductors, and components for vacuum tubes and other high-performance electronic devices. o Metallurgical Industry: Molybdenum plates are often used in the manufacturing of steel alloys and other metals to enhance strength, durability, and resistance to high temperatures.

A Molybdenum Disc is a flat, circular-shaped piece of molybdenum metal, commonly used in various high-performance applications that require excellent thermal conductivity, high-temperature resistance, and mechanical strength. Molybdenum, a transition metal, is known for its outstanding properties, which make it suitable for demanding environments in industries such as aerospace, electronics, and metallurgy. Key Features of Molybdenum Discs: o High Melting Point: Molybdenum has a very high melting point of approximately 2,623°C (4,753°F), allowing it to perform under extreme temperatures without losing its structural integrity. This makes it ideal for high-temperature applications like aerospace and industrial furnaces. o Excellent Strength and Durability: Molybdenum discs possess superior mechanical strength, maintaining their rigidity and resilience under stress. They can withstand heavy loads and maintain their shape even in harsh working conditions. o Corrosion and Oxidation Resistance: Molybdenum discs are highly resistant to oxidation and corrosion, especially at elevated temperatures. This property makes them suitable for use in chemical processing, reactors, and other environments prone to corrosive elements. o Thermal and Electrical Conductivity: Molybdenum exhibits good thermal and electrical conductivity, which is particularly useful in applications requiring efficient heat transfer and electrical performance, such as in electronics or semiconductor manufacturing. o Workability: Molybdenum is a tough, but ductile metal at high temperatures, allowing molybdenum discs to be fabricated with high precision into specific dimensions, surface finishes, and designs tailored to particular industrial needs. o Versatility: Molybdenum discs can be customized to different diameters, thicknesses, and surface finishes, making them adaptable for a wide range of applications. Common Applications: o Aerospace Industry: Molybdenum discs are used in components such as heat shields, rocket nozzles, and turbine blades due to their ability to endure high temperatures and mechanical stress. o Electronics and Electrical Applications: Molybdenum discs are employed in the manufacture of electrical contacts, filaments, and electrodes. Their good electrical conductivity and resistance to high temperatures make them valuable for vacuum tubes, semiconductors, and other electronic devices. o Chemical Processing: Molybdenum discs are used in the construction of equipment for the chemical and petrochemical industries, including reactors, heat exchangers, and other high-temperature processing units due to their corrosion and oxidation resistance.

A Molybdenum Industrial Ring is a circular component made from molybdenum metal, designed for use in demanding industrial applications where high strength, thermal stability, and corrosion resistance are crucial. Molybdenum, known for its exceptional high-temperature properties and durability, makes these industrial rings highly suitable for environments that require reliable, long-lasting performance. Key Features of Molybdenum Industrial Rings: o High Melting Point: Molybdenum has a melting point of around 2,623°C (4,753°F), which enables it to withstand extremely high temperatures without degrading. This makes molybdenum industrial rings ideal for use in furnaces, reactors, and other high-temperature processes. o Strength and Durability: Molybdenum industrial rings are characterized by their excellent mechanical properties, including superior tensile strength and resistance to wear and deformation. This ensures that the rings maintain their shape and functionality under stress. o Corrosion and Oxidation Resistance: Molybdenum's resistance to corrosion, especially at high temperatures, makes these industrial rings suitable for use in harsh chemical environments, including petrochemical, nuclear, and other processing industries where exposure to aggressive substances is common. o Thermal and Electrical Conductivity: Molybdenum has good thermal and electrical conductivity, allowing it to be used effectively in applications where efficient heat transfer and electrical performance are required. This makes molybdenum industrial rings useful in electronics and energy industries. o Precision and Customization: Molybdenum industrial rings can be manufactured with precise dimensions, surface finishes, and tolerances to meet the specific requirements of each application. This makes them versatile and adaptable for a wide range of industrial needs. Common Applications: o Aerospace Industry: Molybdenum industrial rings are used in aerospace components such as turbine blades, rocket engine parts, and heat shields due to their ability to withstand high temperatures and mechanical stresses. o Chemical and Petrochemical Industries: Molybdenum rings are used in reactors, heat exchangers, and other chemical processing equipment where resistance to corrosion and high-temperature conditions is essential. o Electronics and Electrical Applications: Molybdenum industrial rings are employed in electronic devices, electrical contacts, and filaments, where their thermal and electrical conductivity properties are advantageous. o Steel Manufacturing and Metallurgy: Molybdenum rings are used in steel alloys to improve their strength, durability, and resistance to heat. They are also used in manufacturing molds and tools that require precision and high-temperature performance. o Energy Sector: In the nuclear and energy industries, molybdenum industrial rings are used in components that must endure high radiation and thermal conditions.

Product name: Titanium Tubes For Heat Exchanger Standard:ASTM B338 Material:Grade 1 Grade 2 titanium Diameter:15mm 19.1mm 25.4mm 33.4mm 38.1mm 45mm etc. Wall thickness:1.0mm / 1.2mm Length:Max 16000mm Surface:Pickling surface/Polished Type:Seamless, welded Application:Heat Exchanger, chemical industry etc. Technique:Rolled Titanium Tubes For Heat Exchanger Titanium tubes are corrosion resistant in seawater and chlorine. It is alloyed with elements such as iron, vanadium, aluminum and molybdenum to produce strong and light alloys for industrial purposes such as chemical industry, seawater desalination plant, petrochemical, papermaking and pulp. The most common dimensions of titanium seamless or titanium welded tubes for heat exchangers and pressure vessels are od0.5 "(12.7mm), 0.63" (16mm), 0.75 "(19.05mm), 1" (25.4mm), 1.25 "(31.75mm), 1.5" (38.1mm), 1.78 "(45mm), 2" (50.8mm), etc., and wt0.02 "(0.5mm), 0.024" (0.6mm), 0.028 "(0.71mm), 0.035" (0.89mm) , 0.049 "(1.24mm), 0.11" (2.77mm), 0.125 "(3.17mm), etc. Product name Titanium tubes for heat exchanger，ASTM B338 titanium tube pipe,Seamless titanium tube,Welded titanium tubes,Titanium tube price per kg Grade Gr1 Gr2 Different types of Titanium heat exchanger tubes Seamless, Welded Standard ASME /ASTM B 338 Straightness of heat exchanger tubes 0.0015 x L. In conversion , 1 meter length OUTER DIAMETER (OD) 0.500 - 3.000 inch heat exchanger tubes manufacturer 12.7 - 76.2 mm WALL THICKNESS (WT) 0.035 - 0.220 inch 0.89 - 5.52 mm Lengths Titanium heat exchanger tubes are delivered in straight lengths up to 16.5 meters (54 ft). Titanium U-bent tubes are available on request. Manufacturing Method Seamless (Cold Drawn/Cold Rolling) Heat exchanger tubes Certified test reports ASTM / ASME A450 EN 10204: for EN 10297 nonspecified testing (only the mandatory tests), 2.2 specified testing – 3.1.B after agreement - 3.1.A, 3.1.C, 3.2 DIN 50049, - 2.2, 3.1. B Pipe Assemby Headers Pigtails Flanged Pipes Longitudinal finned Pipes and Tubes Finned Tubes Special Forgings Special designed parts acc. to drawing Welding together possible Grades of Seamless Titanium Heat Exchanger Tubes ASTM GRADE UNS NO. DIN/ EN MATERIAL CODE Grade 1 R50250 3.7025 Ti 1 Grade 2 R50400 3.7035 Ti 2 Grade 3 R50550 3.7055 Ti 3 Grade 7 R52400 3.7235 Ti 2 Pd Grade 9 R56320 3.7195 Ti Al 3 V 2,5 Grade 11 R52550 3.7225 Ti 1 Pd Grade 12 R53400 3.7105 Ti Ni 0,8 Mo 0,3