Name: EN 10130 DC07 COIL
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EN 10130 DC07 COIL

QUALITY STANDARD MATERIAL NO. DC07 DIN EN 10130 1.0873 The super deep drawing grade DC07 is specified according to the standard DIN EN 10130, which focuses on cold-rolled flat products made of soft steels for cold forming. This standard ensures that the technical requirements and test methods for cold-rolled products are met, which are of great importance in various industrial applications, especially where the highest demands are placed on formability and surface quality. DC07 is a particularly low-carbon steel characterized by exceptional cold formability. The chemical composition of DC07 is strictly controlled to ensure its excellent mechanical properties. The carbon content in DC07 is typically a maximum of 0.01 %, while the manganese content is a maximum of 0.20 %. The addition of micro-alloyed elements such as titanium and niobium can further improve formability and strength. The mechanical properties of DC07 are characterized by a very low maximum yield strength of 120 MPa and a tensile strength of between 270 and 350 MPa. A particularly outstanding property of DC07 is its high elongation at break of at least 40 %, which underlines the excellent formability of the material. These properties make DC07 ideal for the production of complex components that require extremely high precision and surface quality, such as deep-drawn body parts in the automotive industry or highly complex components in the electronics industry. The DIN EN 10130 standard also specifies precise tolerances for dimensions, shape and surface finish. These tolerances are crucial to ensuring consistently high product quality and meeting the requirements of end users. The surface of the cold-rolled flat products can be supplied in various qualities, from matt to high-gloss, to meet the specific requirements of different applications. The DIN EN 10152 standard specifies electrolytically galvanized, cold-rolled steel flat products for cold forming, including the super deep-drawing grade DC07. This standard defines the requirements for the zinc coating and the basic mechanical properties of the base material. DC07, when electrolytically galvanized in accordance with DIN EN 10152, is given an additional corrosion protection layer of zinc. This layer protects the material from oxidative influences and significantly increases the service life of the components made from it. The zinc coating can be applied in various thicknesses, depending on the specific requirements of the application. Typical coating thicknesses range from 5 to 20 µm. The chemical composition and mechanical properties of the base material DC07 remain unchanged after galvanizing and meet the requirements of DIN EN 10130. DC07 therefore retains its exceptional cold formability and mechanical performance. The yield strength, tensile strength and elongation at break also remain in the same range as for non-galvanized DC07. In addition to mechanical performance, the quality of the zinc coating is of central importance. The DIN EN 10152 standard specifies the requirements for the uniformity of the coating, the adhesive strength of the zinc and the surface quality. These requirements ensure that the galvanized products offer high corrosion resistance and an aesthetically pleasing surface. The use of DC07 in accordance with DIN EN 10152 is widespread in the automotive industry, the construction industry and in the manufacture of household appliances, where improved corrosion resistance is required in addition to high formability. Electrolytic galvanizing offers optimum protection here without impairing the excellent mechanical properties of the base material. In summary, it can be said that the DC07 super deep-drawing grade offers a wide range of applications in accordance with both DIN EN 10130 and DIN EN 10152. While DIN EN 10130 focuses on excellent formability and surface quality, DIN EN 10152 supplements these properties with improved corrosion resistance thanks to the zinc coating. Both standards ensure that DC07 is a reliable and high-quality material for numerous industrial applications.

COLD ROLLED SHEET

EN 10130 DC07 PLATE

Titanium Grades

Distributor & High Volume Supplier CP Titanium – Commercially Pure Titanium Titanium CP4 – Grade 1 Commercially Pure Titanium Grade 1 is the softest titanium and has the highest ductility. It has good cold forming characteristics and provides excellent corrosion resistance. It also has excellent welding properties and high impact toughness. Applications Architecture, Automotive Desalination, Dimensional Stable Anodes, Medical, Marine, Processing & Chlorate Manufacturing Standards ASME SB-363, ASME SB-381, ASME SB-337, ASME SB-338, ASME SB-348, ASTM F-67, ASME SB-265, ASME SB-337, ASME SB-338 Forms Available Bar, Flanges, Forgings, Sheet, Welding Wire Titanium CP3 – Grade 2 Commercially Pure Titanium Grade 2 has moderate strength and excellent cold forming properties. It provides excellent welding properties and has excellent resistance to oxidation and corrosion. Applications Aerospace, Automotive, Chemical Processing & Chlorate Manufacturing, Desalination, Architecture, Hydro Carbon Processing, Marine, Medical, Power Generation Standards ASME SB-363, ASME SB-381, ASME SB-337, ASME SB-338, ASME SB-348, ASTM F-67, AMS 4921, ASME SB-265, AMS 4902, ASME SB-337, ASME SB-338, AMS 4942 Forms Available Bar, Fittings, Flanges, Forgings, Pipe, Plate, Sheet, Tube, Welding Wire, Wire Titanium CP2 – Grade 3 Commercially Pure Titanium Grade 3 is stronger and less formable than Titanium Grades 1 and 2. It is used in Aerospace and industrial applications that require moderate strength. Grade 3 titanium has excellent corrosion resistance. Applications Aerospace, Architecture, Automotive, Chemical Processing & Chlorate Manufacturing, Desalination, Hydro Carbon Processing, Marine, Medical, Power Generation, Standards ASME SB-363, ASME SB-381, ASME SB-337, ASME SB-338, ASME SB-348, ASTM F-67, AMS 4921, ASME SB-265, AMS 4902, ASME SB-337, ASME SB-338, AMS 4942 Forms Available Bar, Fittings, Flanges, Forgings, Pipe, Plate, Sheet, Tube, Welding Wire, Wire Titanium CP1 – Grade 4 Commercially Pure Titanium Grade 4 is stronger than CP Grades 2 & 3 – it can be cold formed, but has lower ductility. It has excellent corrosion resistance in a wide variety of environments. Grade 4 titanium is commonly used in Aerospace, Industrial and Medical applications where high strength is needed. Applications Aerospace, Chemical process, Industrial, Marine, Medical Standards ASME SB-363, ASME SB-381, ASME SB-337, ASME SB-348, ASTM F-67, AMS 4921, ASME SB-265, AMS 4901, ASME SB-338 Forms Available Bar, Forgings, Sheet, Welding Wire, Wire Titanium Grade 7 Titanium Grade 7 has physical and mechanical properties equivalent to CP3 titanium or Grade 2. It has excellent welding and fabrication properties and is extremely resistant to corrosion especially from reducing acids. Applications Chemical Processing, Desalination, Power generation Standards ASME SB-363, ASME SB-381, ASME SB-337, ASME SB-338, ASME SB-348, ASME SB-265, ASME SB-337, ASME SB-338, Forms Available Bar, Forgings, Plate, Sheet, Tube, Welding Wire, Wire Titanium Grade 11 – CP Ti-0.15Pd Titanium Grade 11 is highly resistant to corrosion has similar physical and mechanical properties to Titanium CP Grade 2. Applications Chemical processing, Desalination Power generation, Industrial Standards ASME SB-338 Forms Available Tube Titanium Based Alloys Titanium Grade 5 – Titanium 6Al-4V Titanium Grade 5 alloy is the most commercially available of all titanium alloys. It offers an excellent combination of high strength and toughness. Grade 5 titanium has good welding and fabrication characteristics. Applications Aerospace, Chemical Processing, Marine, Medical Standards ASME SB-265, AMS 4911, ASME SB-348, AMS 4928, AMS 4965, AMS 4967 Forms Available Titanium Grade 6 – Titanium 5Al-2.5Sn Titanium Grade 6 alloy offers good weldability, stability and strength at elevated temperatures. Applications Aerospace Standards ASME SB-381, AMS 4966, MIL-T-9046, MIL-T-9047, ASME SB-348, AMS 4976, AMS 4956, ASME SB-265, AMS 4910, AMS 4926 Forms Available Bar, Forgings Plate, Sheet, Wire Titanium Grade 9 – Titanium 3Al-2.5V Titanium Grade 9 has medium strength that falls between Grade 4 and Grade 5. It has excellent corrosion resistance and is used in Aerospace and Industrial applications. Grade 9 Titanium can be used at higher temperatures than Grades 1 through 4. Grade 9 titanium has good cold rolling properties. Applications Aerospace, Automotive, Chemical processing, Consumer applications, Marine, Medical, Transportation Standards AMS 4943, AMS 4944, ASME SB-338 Forms Available Bar, Forgings Plate, Sheet, Wire Titanium Grade 12 – Ti-0.3-Mo-0.8Ni This Titanium Grade 12 alloy is similar to Titanium Grades 2 and 3 except that Titanium Grade 12 has 0.3% molybdenum and 0.8% nickel. This offers enhanced corrosion resistance. Applications Chemical processing, Desalination, Power generation, Industrial Standards ASME SB-338 Forms Available Tube Titanium Grade 19 – Titanium Beta C Titanium Grade 19 has very high strength and can be heat treated. It offers good resistance to stress and corrosion. Applications Aerospace Automobile Standards MIL-T-9046, MIL-T-9047, ASME SB-348, AMS 4957, AMS 4958, ASME SB-265 Titanium Grade 23 – Titanium 6Al-4V ELI Titanium Grade 23 is similar to Grade 5 but has lower oxygen, nitrogen and iron. It has better ductility and fracture toughness than Titanium Grade 5. Applications Aerospace, Chemical Processing, Marine, Medical Standards AMS 4911, AMS 4928, AMS 4930, AMS 4931, AMS 4935, AMS 4965, AMS 4967, AMS 4985, AMS 4991, MIL -T-9046, MIL -T-9047, BSTA 10,11,12, BSTA 28,56,59, DIN 3.7165, AMS 4907 ELI, AMS 4930 ELI, AMS 4956 ELI, ASTM F136 ELI, UNS R56407 Forms Available Bar, Forgings, Plate, Sheet, Welding Wire, Wire Titanium 6Al-6V-2Sn – Titanium 6-6-2 Titanium 6-2-4-2 has excellent strength, stability, and creep resistance to temperatures as high as 550 °C. Applications Gas, Turbine Compressor Engine afterburner, Aerospace Standards AMS 4919, AMS 4952, AMS 4975, DIN 3.7164, GE B50 TF22, GE B50TF21, GE B50TF22, GE C50TF7, MIL F-83142, MIL T-9046, MIL T-9047, PWA 1220, UNS R54620 Forms Available Bar, Plate, Sheet Titanium 6Al-2Sn-4Zr-2Mo – Titanium 6-2-4-2 Titanium 6Al-6V-2Sn is a two-phase, Alpha Beta Alloy. It is usually used in the annealed or solution treated and aged conditions. It’s a heat treatable, high strength alloy with lower toughness and ductility than Titanium Grade 5 (6Al-4V) and it’s difficult to weld. Cold forming of Titanium 6Al-6V-2Sn is difficult because of its high strength and the large amount of spring-back that results. This grade can be welded by the inert gas shielded, fusion welding process but the heat effected area will have less ductility and toughness than the parent material. The hardness of Titanium 6-6-2 is approximately Rockwell C 36-38. This grade is primarily used for airframe and jet engine parts, rocket engine cases and ordinance components. Please call us to determine our minimum item quantity. Applications Airframe Components, Jet Engine Parts, Ordinance Components, Rocket Engine Cases Standards AMS 4981, MIL-T-9047, Forms Available Bar, Wire Sheet, Plate, Forgings, Fittings, Flanges, Seamless Pipe, Seamless Tube, Welded Pipe, Welded Tube Titanium 6Al-2Sn-4Zr-6Mo – Titanium 6-2-4-6 Titanium 6Al-2Sn-4Zr-6Mo is an Alpha-Beta Alloy and it’s generally regarded as the workhorse alloy of the titanium industry. The alloy is fully heat-treatable in section sizes up to one inch and is used up to approximately 400°C (750°F). Since it is one of the most commonly used alloys (over 70% of all alloy grades melted are a sub-grade of Ti-6-4,) its uses span many aerospace engine and airframe components. Titanium 6Al-2Sn-4Zr-6Mo is also used in lots of non-aerospace applications such as marine, offshore and power generation industries. This Alpha-Beta Alloy combines good corrosion resistance and strength with weldability and fabricability. The alloy is generally available in bar form and it’s typically used in deep sour well applications. This alloy can be hot or cold formed. Please call us to determine our minimum item quantity. Applications Aerospace Engines, Airframe Components, Marine Applications, Offshore Applications, Power Generation Applications Standards AMS 4981 Forms Available Bar, Plate, Sheet Titanium 8Al-1Mo-1V – Titanium 8-1-1 Titanium 8Al-1Mo-1V is a near Alpha Alloy that was primarily designed for use at elevated temperatures – up to 455 degrees centigrade. It offers the highest modulus and lowest density of all Titanium alloys. It has good creep strength and it’s weldable by the inert gas fusion and resistance-welding processes. Titanium 8Al-1Mo-1V is used in the annealed condition for such applications as airframe and jet engine parts that demand high strength, superior creep resistance and a good stiffness-to-density ratio. The machinability of this grade is similar to that of Titanium 6Al-4V. Please call us to determine our minimum item quantity. Applications Airframe Parts, Jet Engine Parts Standards MIL-T-9046, MIL-T-9047, AMS 4972, AMS 4915, AMS 4973, AMS 4955, AMS 4916 Forms Available Forgings, Bar, Sheet, Plate, Strip, Extrusions, Wire Titanium 10V-2Fe-3Al Titanium 10V-2Fe-3Al is a Titanium Beta Alloy. It is harder and stronger than many titanium alloys. This Titanium is a heat treatable alloy, it’s weldable and it’s easily formed. Titanium 10V-2Fe-3Al is an all Beta Alloy and is more difficult to machine than most titanium alloys. The chief problems include flank wear, spring-back and chip control. Because of these characteristics, positive rake chip grooves in combination with light hones on the cutting edge are advantageous. Please call us to determine our minimum item quantity. Applications Airframe Components, Compressor Blades, Disks, Wheels and Spacers Standards AMS 4983, AMS 4984, AMS 4986, AMS 4987 Forms Available Bar, Forgings, Plate, Sheet, Seamless Pipe, Seamless Tube, Welded Pipe, Welded Tube, Wire Titanium 15V-3Cr-3Sn-3Al This Metastable-Beta Alloy is used primarily in sheet metal form. It is age-hardenable and highly cold-formable. Titanium 15V-3-3-3 is often used to replace hot-formed Titanium Grade 5 (6Al-4V) sheet. It can also be produced as foil and is an excellent alloy for castings. For aerospace applications, this grade is often specified as AMS 4914. Please call to determine the minimum item quantity. Applications Aerospace Tank Applications, Airframe Applications, Castings, Fasteners High Strength Hydraulic Tubing Standards AMS 4914, ASTM B265 Forms Available Sheet, Foil Titanium Alpha Alloys Commercially pure titanium and alpha alloys of titanium are non-heat treatable and have very good welding characteristics. Applications Cryogenic applications, Airplane parts, Chemical processing equipment Standards AMS 4973, AMS 4976, AMS 4924, AMS 4972, MIL-T-9047, AMS 4910, ASTM B265, GR-6 MIL-T9046, AMS 4909, AMS 4915/4916, AMS 4966, AMS 4924, AMS 4973, AMS 4933, MIL-T-81556A A-1, MIL-T-81556A A-2, MIL-T-81556A A-4 Forms Available Bar, Forgings, Plate, Sheet Extrusions Titanium Beta Alloys Titanium Beta or near Beta Alloys are: Fully heat treatable Generally weldable Capable of high strengths Possess good creep resistance up to intermediate temperatures In the solution treated condition, excellent formability can be expected from Beta Alloys Titanium Beta Alloys are ideal for sporing applications. Common Titanium Beta Alloys include: Ti3Al8V6Cr4Mo4Zr ASTM Grade 19 Ti-3Al-8V-6Cr-4Mo-4Zr AMS 4983, 4984, 4987 Ti-10V-2Fe-3Al ASTM Grade 21 Ti-15Mo-3Nb-3Al-2Si AMS 4914 Ti-15V-3Cr-3Sn-3Al The Metastable Titanium Beta Alloys are heat treatable by solution treatment and ageing. Fully stable beta alloys can only be annealed. Applications Aerospace, Standards AMS 4914, AMS 4983, AMS 4984, AMS 4987, ASTM Grade 19, ASTM Grade 21 Forms Available Forgings Titanium Alpha-Beta Alloys Titanium Alpha Beta alloys are heat treatable and most of them are also weldable. The typical properties of Titanium Alpha Beta Alloys are: Medium to high strength levels; High temperature creep strength is not as less than most alpha alloys; Limited cold forming but hot forming qualities are normally good; The most commonly used Titanium Alpha Beta Alloy is Ti 6Al-4V. Titanium 6Al-4V has been developed in many variations of the basic formulation for numerous and widely differing applications. Other Titanium Alpha Beta Alloys include: 6Al-4V-ELI 6Al-6V-2Sn 6Al-2Sn-4Zr-2Mo 3Al-2.5V 8Mn Applications Aircraft and aircraft turbine parts, Chemical processing equipment, Marine hardware, Prosthetic devices Standards ASME SB-265, AMS 4911, ASME SB-348, AMS 4928, AMS 4965, AMS 4967, AMS 4981, MIL-T-9047, AMS 4930, AMS 4971, AMS 4907, ASTM F 136, MIL-T-9046, AMS 4918, DMS1879/2237, AMS 4908, AMS 4943, ASTM B348, AMS 4975, MIL-T-9047 G, AMS 4928, BMS 7-348, DMS 1570, AMS 4976, AMS 4920, AMS 4934 Forms Available Bar, Fittings, Flanges, Forgings, Pipe, Plate, Sheet, Tube, Wire Titanium Metals Titanium Specifications Titanium Grades CP4 – Grade 1 CP3- Grade 2 Titanium CP2 – Grade 3 CP1 – Grade 4 Grade 7 Grade 11 – CP Ti-0.15Pd Grade 5 – Titanium 6Al-4V Grade 6 – Titanium 5Al-2.5Sn Grade 9 – Titanium 3Al-2.5V Grade 12 – Ti-0.3-Mo-0.8Ni Grade 19 – Titanium Beta C Grade 23 – Titanium 6Al-4V ELI 6Al-6V-2Sn 6Al-2Sn-4Zr-2Mo 6Al-2Sn-4Zr-6Mo 8Al-1Mo-1V 10V-2Fe-3Al 15V-3Cr-3Sn-3Al Alpha Alloys Beta Alloys Alpha-Beta Alloys Titanium Dioxide TiO2 Titanium Applications Titanium Sheets Titanium Plates Titanium Wire Titanium Tubes & Tubing Titanium Round Bar Titanium Pipe We stock and sell Commercially Pure Titanium and Titanium Alloys in a broad range of forms and sizes. 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COLD ROLLED SHEET

EN 10130 DC07 SHEET

Super Duplex Flanges

DIN 2634 Super Duplex Steel Flanges

DIN 2634 super duplex steel flanges PN 25 are high-performance weld neck flanges designed in accordance with the DIN 2634 standard. These flanges are engineered for high-pressure systems operating up to 25 bar (362 psi) and are manufactured from premium super duplex stainless steel grades. Known for their superior strength, excellent corrosion resistance, and enhanced resistance to stress corrosion cracking and pitting, super duplex flanges are ideally suited for demanding industrial environments. Their robust mechanical properties make them a reliable choice for aggressive service conditions and high-pressure applications. Ladhani Metal Corporation is a global leader in the manufacturing and supply of super duplex steel flanges. With advanced production facilities, precision engineering capabilities, and rigorous quality assurance practices, the company ensures that each flange meets the highest standards of safety, durability, and performance under extreme conditions. Pressure Rating: • PN 25 (25 bar / 362 psi): Designed for systems requiring high strength and exceptional corrosion resistance under elevated pressure conditions. Flange Type: • Weld Neck Flanges Featuring a tapered hub design, weld neck flanges deliver optimal stress distribution and secure, leak-free connections in systems exposed to thermal and mechanical loading. • Flat Face (FF) Flanges Recommended for use with softer gasket materials or systems incorporating cast iron components, flat face flanges provide uniform gasket compression and reliable sealing. Super Duplex Steel Grades and Typical Composition: Super Duplex Steel (UNS S32750 / S32760) – Ferritic-Austenitic Stainless Steel • Chromium (Cr): 24.0 – 26.0% • Nickel (Ni): 6.0 – 8.0% • Molybdenum (Mo): 3.0 – 5.0% • Nitrogen (N): 0.2 – 0.3% • Iron (Fe): Balance Applications: Widely used in environments where high strength, corrosion resistance, and resistance to chloride-induced stress corrosion cracking are essential, such as offshore platforms, chemical plants, and desalination facilities. Applications of DIN 2634 Super Duplex Steel Flanges PN 25: • Offshore and Subsea Installations Withstand chloride-rich marine environments, offering long-term durability and resistance to seawater corrosion. • Chemical and Petrochemical Processing Suitable for handling aggressive chemicals, acids, and solvents under high pressure and temperature conditions. • Desalination and Water Treatment Plants Perform reliably in saline and brine-rich environments with superior resistance to pitting and crevice corrosion. • Power Generation and Heat Exchangers Offer excellent performance in high-temperature, high-pressure applications requiring strength and corrosion protection. • Pulp and Paper Industry Operate effectively in harsh chemical environments including bleach and acidic processing streams. Key Features: • Manufactured to DIN 2634 specifications for dimensional accuracy and pressure handling • PN 25 pressure class supports high-performance applications • Superior resistance to localized corrosion including pitting and stress corrosion cracking • High strength-to-weight ratio and excellent mechanical properties • Weld neck design ensures structural integrity and resistance to fatigue • Available in both UNS S32750 and S32760 super duplex grades • Customizable in size, pressure class, and surface finish upon request Conclusion: DIN 2634 super duplex steel flanges PN 25 from Ladhani Metal Corporation are engineered to deliver top-tier performance in environments where mechanical strength and corrosion resistance are non-negotiable. Their robust construction and excellent durability make them ideal for marine, chemical, and industrial applications operating under high pressure. For detailed specifications, project consultations, or a custom quote, contact Ladhani Metal Corporation today.

Inconel Flanges

DIN 2568 Inconel Flanges (PN 64)

DIN 2568 Inconel Flanges PN 64 are precision-engineered threaded flanges made from high-strength Inconel alloys, designed for reliable operation in high-pressure, high-temperature, and corrosive environments. Manufactured in accordance with DIN 2568 standards, these flanges are ideal for use in critical industries such as aerospace, chemical processing, marine, nuclear, and high-temperature power generation, where resistance to oxidation, corrosion, and thermal fatigue is essential. Ladhani Metal Corporation is a trusted manufacturer and exporter of Inconel flanges, offering components that adhere to the highest international quality and dimensional standards. The threaded design allows for quick, weld-free installation and removal, making these flanges highly suitable for systems requiring regular maintenance or disassembly. Pressure Rating: • PN 64 (64 bar / 928 psi): Engineered for high-pressure applications where material performance under extreme conditions is crucial. Flange Types: • Threaded (Screwed) Flanges Provide efficient, weld-free assembly, ideal for pressure systems requiring ease of maintenance. • Raised Face (RF) Flanges Enhance sealing under high pressure and temperature using focused gasket compression. • Flat Face (FF) Flanges Used for even surface contact with flat-faced components, particularly when working with brittle or non-metallic materials. • Forged Threaded Flanges Offer improved mechanical strength, resistance to thermal fatigue, and precise dimensional control. • Custom-Machined Flanges Available in various Inconel grades, dimensions, and configurations as per project requirements. Available Inconel Grades and Composition: 1. Inconel 600 (UNS N06600) • Nickel (Ni): ≥ 72.0% • Chromium (Cr): 14.0 – 17.0% • Iron (Fe): 6.0 – 10.0% Applications: Used in chemical processing, heat-treating equipment, and nuclear reactors due to its excellent resistance to oxidation and carburization at elevated temperatures. 2. Inconel 625 (UNS N06625) • Nickel (Ni): ≥ 58.0% • Chromium (Cr): 20.0 – 23.0% • Molybdenum (Mo): 8.0 – 10.0% • Niobium (Nb): 3.15 – 4.15% Applications: Suitable for marine, aerospace, and chemical environments where superior strength, fatigue resistance, and protection from pitting and chloride-induced corrosion are required. 3. Inconel 718 (UNS N07718) • Nickel (Ni): 50.0 – 55.0% • Chromium (Cr): 17.0 – 21.0% • Iron (Fe): Balance • Niobium (Nb) + Tantalum (Ta): 4.75 – 5.50% • Molybdenum (Mo): 2.80 – 3.30% Applications: Preferred for aerospace, high-speed turbines, and cryogenic systems due to its high tensile strength, creep resistance, and performance across a wide temperature range from cryogenic to over 700°C. Applications of DIN 2568 Inconel Flanges: • Aerospace and Jet Engine Components Used in high-temperature exhaust, combustion, and structural parts. • Chemical and Petrochemical Processing Ideal for vessels, piping, and heat exchangers handling aggressive acids and solvents. • Marine and Offshore Environments Resistant to seawater corrosion and mechanical wear in subsea and shipboard systems. • Nuclear and Power Generation Suitable for steam generators, fuel handling systems, and reactor components. • High-Temperature Industrial Systems Used in furnace systems, heat-treatment fixtures, and thermal reactors. Key Features: • Conforms to DIN 2568 standard • Rated for PN 64 high-pressure service • Excellent resistance to corrosion, oxidation, and thermal fatigue • High mechanical strength and performance across wide temperature ranges • Threaded design enables non-welded, fast installation and disassembly • Available with test certificates, MTCs, and full traceability • Custom machining, surface treatment, and heat-resistance options available Conclusion: DIN 2568 Inconel Flanges PN 64 from Ladhani Metal Corporation are engineered for durability and precision in high-stress, high-temperature, and corrosive environments. Available in Inconel 600, 625, and 718, these flanges provide industry-leading strength, corrosion resistance, and reliability for the most critical applications. For tailored specifications, technical support, or consultation, contact Ladhani Metal Corporation today.

Inconel Flanges

DIN 2565 Inconel Flanges (PN 6)

Ladhani Metal Corporation is a leading manufacturer and exporter of DIN 2565 Inconel flanges, engineered for high-performance, corrosion-resistant, and heat-resistant piping connections in low-pressure systems. These flanges are manufactured in accordance with DIN 2565 standards and are typically available with a PN 6 pressure rating, making them ideal for threaded piping connections where welding is not required. Inconel flanges are made from a family of nickel-chromium-based superalloys known for their excellent resistance to oxidation, high temperatures, and corrosive environments. They are especially suitable for critical applications in extreme operating conditions, including chemical processing, marine, aerospace, and high-temperature industrial systems. Flange Types: • Threaded (Screwed) Flanges: Allow for quick and easy installation without welding, suitable for systems requiring periodic disassembly. • Raised Face (RF) Flanges: Provides enhanced gasket compression, ensuring a tight and reliable seal in corrosive and high-temperature applications. • Flat Face (FF) Flanges: Commonly used in low-pressure piping systems, especially when paired with non-metallic gaskets. • Forged Threaded Flanges: Forging enhances mechanical strength and resistance to fatigue and stress. • Custom-Machined Flanges: Precision-machined to meet specific dimensional, material, and pressure requirements for specialized uses. Available Inconel Grades and Chemical Composition: 1. Inconel 600 (UNS N06600) o Nickel (Ni): ≥ 72.0% o Chromium (Cr): 14.0 – 17.0% o Iron (Fe): 6.0 – 10.0% Applications: Resistant to high temperatures and oxidizing environments; ideal for furnace components, chemical processing, and heat exchangers. 2. Inconel 625 (UNS N06625) o Nickel (Ni): ≥ 58.0% o Chromium (Cr): 20.0 – 23.0% o Molybdenum (Mo): 8.0 – 10.0% o Niobium (Nb): 3.15 – 4.15% Applications: Offers outstanding fatigue strength and chloride corrosion resistance; used in marine systems, nuclear reactors, and aerospace components. Applications of DIN 2565 Inconel Flanges: • Chemical Processing: Excellent resistance to a wide range of corrosive chemicals and high-temperature oxidation. • Marine and Offshore: Withstands saltwater corrosion and extreme marine conditions. • Power and Heat Generation: Suitable for high-temperature boiler systems and superheaters. • Aerospace Industry: Ideal for jet engines, turbine components, and exhaust systems. • Nuclear and Defense: Used in systems exposed to radiation, high pressure, and corrosive environments. Key Features: • Manufactured in compliance with DIN 2565 specifications and PN 6 pressure rating • Excellent resistance to oxidation, carburization, and chloride stress corrosion • High mechanical strength at elevated temperatures • Non-magnetic and corrosion-resistant in both oxidizing and reducing environments • Supplied with complete material traceability, test certificates, and quality assurance documents Conclusion: DIN 2565 Inconel flanges from Ladhani Metal Corporation are engineered to meet the highest standards of performance, durability, and corrosion resistance. Ideal for demanding industries where reliability under extreme conditions is essential, these flanges deliver long-term performance and safety. Backed by stringent quality control and precision manufacturing, our Inconel flanges are a trusted choice for critical applications worldwide. For technical details, pricing information, or to place a bulk order, contact Ladhani Metal Corporation today.

Monel Flanges

DIN 2561 Monel Flanges

Ladhani Metal Corporation is a reputed manufacturer and exporter of DIN 2561 Monel flanges, engineered for durability and corrosion resistance in low-pressure piping systems. Manufactured in accordance with the DIN 2561 standard, these flanges are available in pressure ratings including PN6, PN10, PN16, PN25, and PN40, offering excellent adaptability for custom project requirements. Monel, a high-performance nickel-copper alloy, is known for its exceptional resistance to seawater, acidic environments, and high-temperature oxidation. These properties make Monel flanges a preferred choice for marine, chemical, and oil & gas applications. Flange Types: Weld neck flanges: Designed for high-strength applications and superior leak-proof integrity. Raised face (RF): Enhances gasket compression and improves sealing performance. Flat face (FF): Ideal for connections involving brittle or non-metallic mating surfaces. Grades, Chemical Composition, and Applications: Monel 400 (UNS N04400) Chemical Composition: Nickel (Ni): ≥ 63.0% Copper (Cu): 28.0 – 34.0% Iron (Fe): ≤ 2.5% Manganese (Mn): ≤ 2.0% Silicon (Si): ≤ 0.5% Carbon (C): ≤ 0.30% Applications: Used in marine engineering, chemical processing, hydrocarbon processing, and heat exchangers. Outstanding resistance to seawater, acidic solutions (such as hydrofluoric and sulfuric acids), and high-pressure steam. Monel K500 (UNS N05500) Chemical Composition: Nickel (Ni): ≥ 63.0% Copper (Cu): 27.0 – 33.0% Aluminum (Al): 2.3 – 3.15% Titanium (Ti): 0.35 – 0.85% Iron (Fe): ≤ 2.0% Carbon (C): ≤ 0.25% Applications: Commonly used in oil and gas drilling tools, marine shafts, fasteners, and pumps. Offers higher strength and hardness than Monel 400 while retaining excellent corrosion resistance. Key Features: Complies with DIN 2561 standard specifications. Excellent resistance to corrosion in seawater and acidic environments. High mechanical strength and dimensional stability. Available in custom sizes, face finishes, and drilling options. Supplied with complete material test certificates and quality documentation. Applications: Marine & Shipbuilding: Exceptional resistance to saltwater corrosion makes Monel flanges suitable for seawater piping, condensers, and pump components. Oil & Gas Industry: Ideal for offshore rigs, valves, drilling equipment, and sour gas environments due to their resistance to corrosion and high pressure. Chemical Processing: Used in equipment handling hydrofluoric acid, alkalis, and other corrosive media in chemical plants. Conclusion: DIN 2561 Monel flanges from Ladhani Metal Corporation are engineered to deliver superior corrosion resistance and mechanical strength in aggressive environments. With Monel grades such as 400 and K500, these flanges are trusted by global industries for critical applications where reliability and performance are paramount. Our strict quality control and precision manufacturing ensure flanges that meet the highest standards of durability and safety. For technical details, pricing, or bulk inquiries, contact Ladhani Metal Corporation.

Stainless Steel Flanges

DIN 2558 Stainless Steel Flange (PN 6)

The DIN 2558 Stainless Steel Flange PN 6 is a high-performance, precision-engineered component designed to meet the stringent demands of modern industrial piping systems. Manufactured in accordance with the DIN (Deutsches Institut für Normung) standard, this flange is available in a range of high-quality stainless steel grades that provide excellent resistance to corrosion, high temperatures, and mechanical stresses. Ladhani Metal Corporation is a trusted supplier of these flanges, delivering products that are known for their exceptional durability, reliability, and long-lasting performance. These flanges are used in a variety of industries, including chemical, petrochemical, food processing, pharmaceutical, and water treatment. Whether for general-purpose applications or more specialized uses in high-pressure or high-temperature environments, the DIN 2558 SS flange offers versatility and safety. The PN 6 pressure rating makes them ideal for medium-pressure systems, ensuring a reliable and leak-proof connection that will withstand the test of time. Ladhani Metal Corporation ensures that each flange is produced with precision, using advanced manufacturing processes and premium materials to meet the highest industry standards. Types: Weld Neck Flange – Ideal for high-pressure applications, it is welded directly to the pipe, providing a robust, leak-free connection. Slip-On Flange – Slides over the pipe and is welded both inside and outside for easier installation and cost-effectiveness. Blind Flange – Used to seal the end of a piping system, preventing the flow of fluids or gases. Threaded Flange – Features internal threads for easy connection to the pipe without requiring welding. Socket Weld Flange – Typically used for small-diameter high-pressure systems, providing a smooth bore for fluid flow. Grades & Chemical Composition: Grade 304: Carbon (C): ≤ 0.08% Chromium (Cr): 18.0 - 20.0% Nickel (Ni): 8.0 - 10.5% Manganese (Mn): 2.0% max Silicon (Si): 1.0% max Phosphorus (P): 0.045% max Sulfur (S): 0.03% max Offers excellent corrosion resistance and is widely used in food processing, chemical, and petrochemical industries. Grade 316: Carbon (C): ≤ 0.08% Chromium (Cr): 16.0 - 18.0% Nickel (Ni): 10.0 - 14.0% Molybdenum (Mo): 2.0 - 3.0% Manganese (Mn): 2.0% max Silicon (Si): 1.0% max Phosphorus (P): 0.045% max Sulfur (S): 0.03% max Known for its superior resistance to corrosion, especially in chloride-rich environments like seawater. Grade 321: Carbon (C): ≤ 0.08% Chromium (Cr): 17.0 - 19.0% Nickel (Ni): 9.0 - 12.0% Titanium (Ti): 5 times the carbon content, minimum 0.3% Manganese (Mn): 2.0% max Silicon (Si): 1.0% max Phosphorus (P): 0.045% max Sulfur (S): 0.03% max Offers enhanced high-temperature stability and resistance to sensitization, making it suitable for applications involving elevated temperatures, such as heat exchangers, and in chemical industries. PN 6 Rating: The PN 6 rating corresponds to a pressure class of 6 bar (approximately 87 psi), making it suitable for medium-pressure applications in a variety of industrial settings. Features: • Corrosion Resistance: Stainless steel provides excellent protection against rust, corrosion, and staining, ensuring reliability even in harsh environments. • High Strength: These flanges deliver superior tensile strength and durability under both high and low-pressure conditions. • Versatile Applications: Suitable for use in chemical, petrochemical, food, pharmaceutical, and water treatment industries. • Easy Installation: The flanges are designed for straightforward welding and installation, providing secure, leak-proof connections. • Long-Lasting Performance: Ladhani Metal Corporation's SS flanges are engineered to offer a long service life, minimizing the need for maintenance and replacements. Ladhani Metal Corporation ensures that each DIN 2558 SS flange is manufactured to meet the highest quality standards, offering both performance and cost-effectiveness for various industrial piping systems.