Product Name: Medical Titanium Bars Standard: ASTM F136/ ISO 5832-3 Material: Grade 5/Gr23 Unit Price: $25.5usd/kg- $55.5usd/kg Shape: Round Diameter: 3-350mm Length: Max 6000mm Surface: Bright Condition: Annealed Application:Medical,surgical implant(Bone nail implant, dentistry etc.) Medical titanium material has excellent corrosion resistance, elastic modulus close to natural bone, and good biocompatibility. Medical pure titanium is a single-phase structure, which can not be strengthened by heat treatment. It can be used as internal bone plate, bone screw, dental implant, etc. it can also be used as artificial skull, artificial heart valve, pacemaker and titanium alloy for radiother.

Porduct name : Titanium Steel Composite Tube plate Material: Titanium +steel,Titanium+stainless steel etc. Size &Standard: As per client drawing Production Method: Forging,annealing and machining Advantage: Excellent corrosion resistance ability Packing: Plywood case Application: Heat Exchanger, chemical equipment, Pressure Vessel, filter devices, etc. Titanium steel composite tube plate Name Clad Metal Base Metal Specification Standard Application Titanium-Steel Cladding plate TA1, TA2, TA9, TA10 Q235, Q245R Q345R Coating metal thickness: 0.5~50mm Base material thickness: 0.5~500mm ASME, ASTM petrochemical, vacuum salt making, Chlor-alkali, food, fertilizer, hydrometallurgy, electroplate and etc. Main applications: Titanium clad steel plate tube sheet is mainly used in two aspects: heat exchanger tube sheet and processing container plate. The total thickness of the tube sheet is 75-100mm and the thickness of the coating is 12-15mm. The total thickness of the processing vessel plate is 19-25mm and the coating thickness is 2-3mm. Titanium-steel clad plate has a good application prospect in the manufacture of heat exchanger tube sheet, large diameter (1800 mm) seamless head and reactor. Titanium clad steel plate tube sheet is used more in the reactor and terephthalic acid plant equipment, as well as ethylene glycol, maleic acid and rust remover production equipment. Some reservoirs have operating temperatures up to 200℃, internal pressure of 9 MPa, equipment diameters of 700 mm, length of 1080 mm, and composite plate thickness of (2 + 15) mm.For petrochemical equipment operating at ordinary high pressures and temperatures, the lining must provide good heat conduction and must withstand heat cycles, pressure differences and other pressures. Therefore, loose lining or spot welding additional lining is not satisfactory, but the titanium-steel clad plate can meet the above requirements. Titanium clad steel plates tube sheets are used not only in pressure vessels, heat exchangers and tubesheets, but also in the following applications: A. containers for municipal sewage treatment, which contain larger chloride. B. chemical distillation tanks for high temperature applications. C. water storage containers and containers for nuclear waste disposal

DIN 2527 SS 321 Blind Flanges are specialized components used in industrial piping systems to close off the ends of pipes or equipment where no further connection is necessary. A blind flange is a solid, flat disc without a central bore, specifically designed to seal the open end of a pipe or a vessel. The DIN 2527 standard, developed by the German Institute for Standardization, defines the specifications for these flanges, ensuring that they meet high standards for dimensional accuracy, pressure tolerance, and mechanical strength. The SS 321 material, used for the production of these blind flanges, is an austenitic stainless steel known for its excellent resistance to high-temperature oxidation, corrosion, and scaling. The addition of titanium to this steel stabilizes its structure, making it suitable for environments where temperatures fluctuate or are consistently high. As a result, SS 321 blind flanges are frequently used in industries where both strength and resistance to harsh environmental conditions are paramount, including the chemical, petrochemical, aerospace, and power generation industries. By utilizing DIN 2527 SS 321 Blind Flanges, companies can ensure secure, long-lasting, and efficient closures for piping systems under challenging operational conditions. These flanges are essential in maintaining the integrity of systems exposed to elevated pressures and corrosive substances, ensuring the safe containment of fluids and gases. key Features of DIN 2527 SS 321 Blind Flanges: Material Composition of SS 321: Carbon (C): ≤ 0.08% Chromium (Cr): 17.0 - 19.0% Nickel (Ni): 9.0 - 12.0% Titanium (Ti): 5 times the carbon content, generally around 0.60% minimum, to prevent carbide precipitation. Manganese (Mn): 2.00% max Silicon (Si): 1.00% max Phosphorus (P): 0.045% max Sulfur (S): 0.030% max Pressure and Temperature Resistance: Operating Temperature: SS 321 can perform well in high-temperature environments, up to 900°C (1650°F) intermittently and up to around 700°C (1292°F) for continuous service. Design and Dimensions of DIN 2527 Blind Flanges: Pressure Ratings: The design of a DIN 2527 blind flange is primarily based on pressure class ratings (such as PN6, PN10, PN16, etc.), which denote the maximum pressure the flange can safely withstand. Bolt Holes: The number and size of bolt holes for DIN 2527 blind flanges are specified according to the flange's pressure class and size. The bolt pattern is designed to ensure a tight seal and accommodate appropriate bolt sizes for a given pressure class. Thickness: The thickness of a blind flange can vary depending on the pressure rating and size, with thicker flanges being required for higher pressure applications. Nominal Diameter: Blind flanges are available in various nominal pipe diameters (DN) ranging from DN10 (1/2 inch) up to DN600 (24 inches) or more. Types of DIN 2527 SS 321 Blind Flanges: Standard Blind Flange (Type A): A solid, circular flange used to seal the end of a pipe or vessel. Common for general applications. Flat-Faced Blind Flange: Has a flat sealing surface, ideal for low-pressure systems and tight sealing. Raised Face Blind Flange: Features a raised surface around the center for better sealing in higher pressure systems. Ring-Type Joint (RTJ) Blind Flange: Has a groove for an RTJ gasket, designed for high-pressure applications, often used in the oil and gas industry. Long Weld Neck Blind Flange: Has an extended neck for welding, providing additional strength and used in high-pressure or stressed systems.

A DIN 2527 AISI 4140 blind flange is a specialized type of blind flange made from AISI 4140 alloy steel, adhering to the DIN 2527 German standard. Blind flanges are crucial components in piping systems, used to seal the end of a pipe, vessel, or valve to isolate it or stop the flow of fluids. The AISI 4140 material used for this specific flange is a high-strength alloy steel known for its robustness and excellent mechanical properties, making it ideal for high-stress applications. AISI 4140, a chromium-molybdenum alloy steel, is renowned for its excellent mechanical properties, including high tensile strength, hardness, and resistance to wear. It is often used in heavy-duty applications such as in the automotive, aerospace, and oil & gas industries, where the need for robust materials is crucial. The use of AISI 4140 steel in a DIN 2527 blind flange ensures that the flange can handle high pressures, temperatures, and mechanical stresses without compromising on performance or safety. Material: AISI 4140 Alloy Steel Composition: AISI 4140 is a medium-carbon steel alloy that contains chromium (Cr) and molybdenum (Mo) as its primary alloying elements. These elements improve the steel's hardness, strength, and wear resistance. Key Properties: Strength: High tensile strength and yield strength, making it capable of withstanding high loads and stress in high-pressure applications. Toughness: Offers excellent toughness and impact resistance, making it suitable for challenging environments where forces are dynamic. Hardness: Can be heat-treated to achieve high hardness levels, providing resistance to wear and abrasion. Corrosion Resistance: While AISI 4140 is not as corrosion-resistant as stainless steel, it can still perform well in less corrosive environments with proper surface treatment (e.g., coatings or galvanizing). Design and Dimensions (DIN 2527) Shape: The blind flange is a flat, circular plate with no central hole. Its purpose is to seal the end of a pipe or vessel, effectively "closing" the pipeline or system. Bolt Holes: The flange has evenly spaced bolt holes around the perimeter, allowing it to be bolted securely to the corresponding flange or fitting in the system. These holes align with the bolt pattern of other components. Thickness: The flange thickness varies depending on the size, pressure class, and specific application requirements. It is designed to withstand internal pressure while providing a reliable seal. Pressure Rating: Flanges are typically rated according to pressure classes such as PN 6, PN 10, PN 16, PN 25, etc., indicating the maximum pressure the flange can safely handle without failure. Applications Pipeline Sealing: The primary function of a blind flange is to seal the open end of a pipeline, preventing the passage of fluids, gases, or other materials through the system. System Isolation: Blind flanges are used to isolate a section of the system for maintenance or repairs, allowing for safe disconnection of parts while maintaining system integrity. Pressure Containment: AISI 4140 blind flanges are also used in applications where maintaining pressure within a system is critical. The high strength and durability of AISI 4140 make it suitable for use in high-pressure environments. Types of Blind Flanges in DIN 2527 Raised Face (RF): The flange surface has a small raised area around the bolt circle to improve sealing when mated with a gasket. Flat Face (FF): The flange surface is level with the flange body, typically used with softer gaskets to create a seal. Ring Type Joint (RTJ): The flange may feature a groove to accommodate a metal ring gasket for high-pressure applications, providing a secure, reliable seal.

DIN 2527 is a German standard that defines the dimensions, design, and tolerances for flanges, including blind flanges. Blind flanges made of stainless steel 316 are commonly used in piping systems to seal the ends of pipes, providing a secure and reliable closure. Here's a detailed description of DIN 2527 Stainless Steel 316 Blind Flanges: Material: Stainless Steel 316: This is a higher grade of stainless steel compared to 304, offering superior corrosion resistance. Stainless steel 316 contains molybdenum, which enhances its resistance to corrosion, particularly against chlorides, making it ideal for environments with higher risks of corrosion, such as seawater, chemicals, and marine environments. Corrosion Resistance: Stainless steel 316 has excellent resistance to a wide range of chemicals and industrial environments. Temperature Resistance: It can withstand higher temperatures compared to 304 stainless steel, making it suitable for high-temperature applications. Strength: Stainless steel 316 has slightly higher tensile strength compared to 304, offering added durability and structural integrity. Design and Dimensions: Shape: Blind flanges are flat, round plates with no center hole, used to seal the end of a pipe or pressure vessel. Bolt Holes: These flanges have bolt holes to align with bolts for connecting to other flanged components. The number and size of bolt holes depend on the diameter of the flange and the pressure class. Thickness: The thickness of DIN 2527 blind flanges varies depending on the pressure class (PN 6, PN 10, PN 16, PN 25, etc.). Thicker flanges can handle higher pressure ratings and provide a more secure seal. Pressure Rating: Similar to other flanges, the pressure rating for DIN 2527 blind flanges is important for determining the maximum pressure they can withstand without failure. Stainless steel 316 flanges can be designed to withstand high-pressure applications. Applications: Sealing: Blind flanges made of stainless steel 316 are used to seal the end of a pipeline or vessel to prevent fluid leakage, effectively creating a closed system. System Isolation: These flanges are used to isolate sections of a piping system for maintenance or modification, allowing for safe shutoff of pressure or fluid flow. High-Corrosion Environments: Due to the superior corrosion resistance of stainless steel 316, these blind flanges are used in industries where exposure to corrosive materials, saltwater, or harsh chemicals is a concern (e.g., chemical processing, marine, pharmaceutical, food processing). Types of Blind Flanges in DIN 2527: Raised Face (RF): The face of the flange is slightly raised to improve the sealing capability when paired with a gasket. Flat Face (FF): The face of the flange is level with the surface, often used with softer gaskets for a secure seal. Ring Type Joint (RTJ): For applications requiring high pressure, a ring-type joint may be used, which features a groove in the flange for a metallic gasket.

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.

A pure tungsten tube is a hollow cylindrical shape made from 100% tungsten metal, known for its exceptional physical properties, including high strength, resistance to high temperatures, and high density. These tubes are produced for specific industrial, scientific, and technological applications where extreme conditions are involved. Key Characteristics of a Pure Tungsten Tube 99.95% Pure Tungsten (W): A tungsten tube is made from pure tungsten metal, meaning it contains no significant alloys or impurities, allowing it to retain the full range of tungsten's advantageous properties. High Density:Tungsten has one of the highest densities of any metal, at 19.25 g/cm³, making tungsten tubes compact and heavy, which is beneficial in applications that require high mass in a small volume. Extremely High Melting Point: Tungsten has the highest melting point of any metal, at 3,422°C (6,192°F), which makes it ideal for high-temperature applications, such as in aerospace or certain high-performance industrial processes. Strength and Durability: Pure tungsten tubes are incredibly strong, with a high tensile strength around 1510 MPa, meaning they can endure extreme mechanical stresses without deforming or failing. Tungsten also exhibits high wear resistance, which makes the tube durable in harsh, abrasive environments. Corrosion Resistance: Tungsten is highly resistant to corrosion, oxidation, and environmental degradation, even under extreme conditions, including at high temperatures, making tungsten tubes suitable for long-term, reliable use. Applications of Pure Tungsten Tubes: Aerospace and Defense: Rocket nozzles, satellite components, and spacecraft parts benefit from tungsten tubes due to their ability to withstand extreme temperatures and mechanical stresses. Armor-piercing projectiles and military components can also be made from tungsten due to its high density and strength. High-Temperature and High-Pressure Applications: Tungsten tubes are often used in high-temperature environments like furnaces, industrial heating elements, and thermal processing chambers where metals with high melting points are required. Gas turbines and jet engines can also incorporate tungsten tubing for high-temperature stability and strength.

Boiler Spare Part Anti-Corrosion Pressure Cover Plate For CFBC Fluidized Bed Boiler Heating Surface Tube Accessories Par The tube shield is a common component of the heating part of tubes. It is usually used in power station boilers. The useful life of tube shield is 3-5years. The tube shield has a variety of material and the selection of the material shall be subject to the original design of the boiler.The tube shield is divided into straight pipe and bend pipe. The main effect of tube shield is to protect the pipe and increase the service life of the pipe. Boiler Tube Shields are designed to eliminate major maintenance and downtime costs from boiler and condenser tube failure.

ladhani metal corporation is supplier and exporter of SUS 321H sheet , plate , coil , flat bar , circular plate , plate flanges , farma , laser cutting design sheet , waterjet cutting design sheet.SUS 321H is the basic austenitic 18/8 steel stabilised by Titanium or additions. These grades are used because they are not sensitive to intergranular corrosion after heating within the carbide precipitation range of 425-850°C.SUS 321H is the grade of choice for applications in the temperature range of up to about 900°C, combining high strength, resistance to scaling and phase stability with resistance to subsequent aqueous corrosion. Cold Bending : It has excellent cold working properties and cold bending can generally be carried out without too much difficulty. Hot Bending : Hot bending should be performed at 950oC - 1100Oc. Corrosion Resistance : it similar resistance to general corrosion in most media as 304, but not as good as 316. Stress Corrosion Cracking : it has similar resistance to stress corrosion cracking as 304, but not as good as 316. Pitting Corrosion / Crevice Corrosion : It has similar resistance to pitting and crevice corrosion as 304, but not as good as 316. Intergranular Corrosion : it has better resistance to intergranular corrosion than most of the standard 300 grades other than the low carbon types 304L, 316L and 317L due to its titanium content.N.B. Forging : Heat uniformly to 1150oC - 1200oC Machining: It is more difficult to machine than most of the standard austenitic stainless steels, due to its titanium addition. Our Domestic reach is unlimited and we supply to this following cities Ahmedabad, Amritsar, Aurangabad, Bangalore, Bhopal, Chandigarh, Chennai, Coimbatore, Dhanbad, Faridabad, Ghaziabad, Guwahati, Gwalior, Howrah, Hyderabad, Indore, Jabalpur, Jaipur, Jodhpur, Kanpur, Kolkata, Kota, Lucknow, Ludhiana, Madurai, Meerut, Mumbai, Nagpur, Nashik, Navi Mumbai, New Delhi, Patna, Pune, Raipur, Rajkot, Ranchi, Solapur, Srinagar, Surat, Thane, Vadodara, Varanasi, Vijayawada, Visakhapatnam, Hubballi, Tiruchirappalli, Bareilly, Moradabad, Mysore, Gurgaon, Aligarh, Jalandhar, Bhubaneswar We export to following Countries: Russia, Canada, United States, China, Brazil, Australia, Argentina, Kazakhstan, Algeria, Denmark, Saudi Arabia, Mexico, Indonesia, Iran, Mongolia, Peru, South Africa, Colombia, Ethiopia, Bolivia, Egypt, Venezuela, Turkey, Chile, Myanmar, France, Ukraine, Madagascar, Botswana, Kenya, Thailand, Spain, Sweden, Uzbekistan, Morocco, Paraguay, Zimbabwe, Norway, Japan, Germany, Republic of the Congo, Finland, Vietnam, Malaysia, Poland, Oman, Italy, Philippines, Ecuador, New Zealand, United Kingdom, Guinea, Uganda, Nepal, Bangladesh.