'extremely high temperatures'

Nickel alloys are metals made from combining nickel as the primary element with another material. It merges two materials to deliver more desirable features, such as higher strength or corrosion-resistance. Because of its unique properties, it’s used in a variety of equipment spanning multiple industries. NICKEL ALLOYS (20, 155, 200, 201, 255, 400, 405, 600, 601, 617, 625, 718, X750, 800H, 825, 925, C22, C276, INVAR 36 and more) Common forms include TUBE, PLATE, SHEET, PLATE, ROUND BAR, WIRE, FITTINGS and more What Are Nickel Alloys? Nickel alloy is formed by combining nickel with other metals, commonly titanium, copper, aluminum, iron, and chromium. Approximately 3,000 nickel-based alloys are in use, forming products for numerous industries. Roughly 90% of all new nickel sold every year is used to create alloys. The most popular one is stainless steel, which accounts for approximately two-thirds of new nickel alloys produced. The enhancements this material provides includes: Improved versatilityNickel_Alloy_Sheet Higher toughness Increased corrosion resistance Oxidation resistance Improved strength at higher and lower temperatures Magnetic properties Electronic properties Many nickel-based alloys offer superior performances at temperatures above 1000°C, making them well suited for extremely harsh environments. These offer excellent oxidation resistance at high temperatures while maintaining quality weldability, workability, and ductility. Nickel alloy has a life span between 25 and 35 years on average and can last much longer depending on the application. With its extended service life, this material is more cost effective than other metals. Nickel alloy is recyclable and is among the most recycled materials around the world. Approximately half of the nickel in stainless steel products comes from recycled nickel materials. What Are Nickel Alloys Used For? This material is common in a variety of equipment and items people use each day. Examples include: Cell phones Food preparation equipment Medical equipment Laboratory equipment Transportation Aircraft Pharmaceuticals Building materials Aircraft and power turbines Nuclear power systems Industries That Benefit From Nickel Alloy Industries such as energy, chemical, petrochemical, and power rely on nickel superalloys—those that present superior oxidation resistance and high-temperature strength—in critical applications. Alloys of nickel, chromium, and molybdenum provide enhanced corrosion resistance. Superalloys are made by adding balanced amounts of elements, including chromium, aluminum, cobalt, and titanium, to create optimal directionally solidified or single crystal structures, giving the material a strength that exceeds regular steel. These nickel-based alloys are utilized in extremely hot environments such as in gas turbines for power generation and in aircraft. Nickel alloy that includes iron is popular in electronic and specialty engineering. Nickel alloys with copper are used in marine engineering for their corrosion-resistant properties in seawater. Engineering markets accounted for 27% of all end-use nickel applications as of 2015. Wastewater treatment and plumbing systems have increased their use of this type of stainless steel because it provides very low corrosion rates when handling water, even at high flow rates. It also offers incredible strength and ductility as well as easy fabrication, facilitating the use of less costly joining methods when assembling piping.

Ladhani Metal Corporation offers Half Round Tube Shields specially designed for refinery heaters, where tubes are exposed to extremely high operating temperatures, flue gas velocity, and abrasive particle erosion. These shields act as a protective barrier, preventing tube surface wear, oxidation, and localized damage in the radiant and convection sections of refinery heaters. By absorbing erosive and thermal stress, Half Round Tube Shields extend tube service life, reduce maintenance downtime, and improve heater reliability. Function of Tube Shields in Refinery Heaters • Protect heater tubes against erosion, oxidation, and scaling • Reduce wear in high-flue-gas velocity zones and flame-impinged areas • Extend tube lifespan under continuous high-temperature service • Improve refinery heater efficiency and minimize shutdown frequency Ladhani Metal Corporation manufactures, supplies, and exports Half Round Tube Shields in refinery-grade stainless steels and heat-resistant alloys, offering custom sizes to meet specific heater configurations. Available Grades • SS 304 / SS 304L • SS 310 / SS 310S • SS 316 / SS 316L • SS 410 / SS 420 / SS 430 • 1Cr13 • 1Cr18Ni9Ti • 1Cr20Ni14Si2 • 1Cr25Ni20Si2 • Cr23Ni13 • Cr25Ni20 Applications: Used in refinery heaters, petrochemical furnaces, process gas heaters, and other fired equipment requiring tube surface protection against oxidation, erosion, and flame impingement. Uses • Shields radiant section tubes from high-temperature scaling • Protects convection section tubes against flue gas erosion • Extends operational life of refinery heater components • Provides reliability under continuous refinery operating cycles Features • Excellent high-temperature oxidation resistance • Strong mechanical strength under thermal cycling • Precision-formed to match tube curvature for complete coverage • Available in stainless steel and heat-resistant alloy grades Applications • Refinery fired heaters – Protects radiant and convection section tubes • Petrochemical process furnaces – Guards against erosive and thermal wear • Thermal cracking and reformer heaters – Enhances tube longevity • Industrial fired heaters – Suitable for high-temperature corrosive atmospheres Conclusion Half Round Tube Shields for Refinery Heaters by Ladhani Metal Corporation deliver reliable, export-quality protection for tubes operating under extreme refinery service conditions. Available in stainless steels and special alloys, these shields are engineered to enhance efficiency, reduce erosion damage, and extend heater tube service life.

Aerospace Titanium Specifications (AMS 49) AMS 4900 Plate, Sheet & Strip – Annealed –55,000 psi Yield AMS 4901 Sheet, Strip & Plate – Annealed – 70,000 psi Yield AMS 4902 Plate, Sheet & Strip – Annealed – 40,000 psi Yield AMS 4905 Plate, Damage Tolerant Grade – 6AI 4V, Beta Annealed AMS 4907 Plate, Sheet & Strip – 6Al-4V, Extra Low Interstitial, Annealed AMS 4908 Sheet & Strip – 8Mn Annealed - 110,000 psi Yield AMS 4909 Plate, Sheet & Strip – 5Al-2.5Sn, Extra Low Interstitial, Annealed AMS 4910 Plate, Sheet & Strip – 5Al-2.5Sn, Annealed AMS 4911 Sheet, Strip & Plate – 6Al-4V, Annealed AMS 4914 Sheet & Strip – 15V 3Cr 3Sn #AI – Solution Heat Treated AMS 4915 Plate, Sheet & Strip – 8Al-1Mo-1V – Single Annealed AMS 4916 Plate, Sheet & Strip – 8Al-1Mo-1V – Duplex Annealed AMS 4917 Plate, Sheet & Strip – 13.5V 11Cr 3Al – Solution Treated AMS 4918 Plate, Sheet & Strip –6Al-6V-2Sn – Annealed AMS 4919 Sheet, Strip & Plate – 6Al 2Sn 4Zr-2Mo – Annealed AMS 4920 Forgings – 6Al-4V – Alpha Beta or Beta Processed – Annealed AMS 4921 Bars, Forgings & Rings – Annealed – 70,000 psi Yield AMS 4924 Bars, Forgings & Rings – 5Al-2.5Sn – Extra Low Interstitial, Annealed – 90,000 psi Yield AMS 4926 Bars & Rings – 5Al-2.5Sn – Annealed – 110,000 psi Yield AMS 4928 Bars & Forgings – 6Al-4V – Annealed – 120,000 psi Yield AMS 4930 Bars, Forgings & Rings – 6Al-4V – Extra Low Interstitial, Annealed AMS 4931 Bars, Forgings & Rings – 6Al-4V ELI, Duplex Annealed, Fractured Toughness AMS 4933 Extrusions & Flash Welded Rings – 8AI 1Mo 1V – Solution Heat Treated & Stabilized AMS 4934 Extrusions & Flash Welded Rings - 6Al-4V – Solution Heat Treated & Aged AMS 4935 Extrusions & Flash Welded Rings – 6Al-4V – Annealed, Beta Processed AMS 4936 Extrusions & Flash Welded Rings – 6Al-4V – Beta Processed AMS 4941 Tubing, Welded – Annealed – 40,000psi Yield AMS 4942 Tubing, Seamless – Annealed – 40,000 psi Yield AMS 4943 Tubing, Seamless – Annealed – 3.0Al 2.5V AMS 4944 Tubing, Seamless – hydraulic – 3.0Al 2.5V – Cold Worked, Stress Relieved AMS 4951 Wire, Welding – Commercially Pure AMS 4953 Wire, Welding – 5Al 2.5Sn AMS 4954 Wire, Welding –6Al 4V AMS 4955 Wire, Welding – 8Al 1Mo 1V AMS 4956 Wire, Welding – 6Al 4V – Extra Low Interstitial, Environment Controlled AMS 4957 Bars & Wire, 3Al-8V-6Cr-4Mo-4Zr, Consumable Electrode Melted, Cold Drawn AMS 4958 Bars & Rod – 3Al-8V-6Cr-4Mo-4Zr, Consumable Electrode Melted, Solution Heat Treated & Centerless Ground AMS 4959 Wire – 13.5V 11Cr 3Al – Spring Temper AMS 4965 Bars, Forgings & Rings – 6Al-4V – Solution & Precipitation Heat Treated AMS 4966 Forgings – 5Al-2.5Sn – Annealed – 110,000 psi Yield AMS 4967 Rings & Forgings – 6Al-4V – Annealed, Heat Treatable AMS 4970 Bars & Forgings – 7Al 4Mo – Solution & Precipitation Heat Treated AMS 4971 Bars, Forgings & Rings – 6Al-6V-2Sn – Annealed, Heat Treatable AMS 4972 Bars & Rings – 8Al-1Mo-1V – Solution Heat Treated & Stabilize AMS 4973 Forgings – 8Al 1Mo 1V - Solution Heat Treated & Stabilized AMS 4974 Bars & Forgings – 11Sn 5.0Zr 2.3Al 1.0Mo 0.21Si - Solution & Precipitation Heat Treated AMS 4975 Bars & Rings – 6Al-2Sn-4Zr-2Mo - Solution & Precipitation Heat Treated AMS 4976 Forgings - 6Al-2Sn-4Zr-2Mo - Solution & Precipitation Heat Treated AMS 4979 Bars, Forgings & Rings – 6Al-6V-2Sn - Solution & Precipitation Heat Treated AMS 4981 Bars & Forgings 6Al 2Sn 4Zr 6Mo - Solution & Precipitation Heat Treated AMS 4983 Forgings – 10V 2Fe 3Al – Solution Heat Treated & Aged Military Titanium Specifications Mil-T-9046H Titanium & Titanium Alloy Sheet, Strip & Plate Type I – Commercially Pure: Composition A – CP GR 2 (40 KSI) Composition B – CP GR 4 (70 KSI) Composition C – CP GR 3 (55 KSI) Type II – Alpha Alloys: Composition A - 5Al-2.5Sn Composition B - 5Al-2.5Sn ELI Composition F – 8Al-1Mo-1V Composition G – 6Al-2Cb-1Ta-.8Mo Type III – Alpha-Beta Alloys: Composition C – 6Al-4V Composition D – 6Al-4V ELI Composition E – 6Al-6V-2Sn Composition G – 6Al-4Sn-4Zr-2Mo Composition H – 6Al-4V SPL Type IV – Beta Alloys Composition A – 13Al-11Cr-3Al Composition B – 11.5Mo-6Zr-4.5Sn (Beta III) Composition C – 3Al-8V-6Cr-4Mo-4Zr (Beta C™)(10) MIL-T-9046J Titanium & Titanium Alloy Sheet , Strip & Plate Commercially Pure (CP CP-1 – Grade 4 (70 KSI) CP-2 – Grade 3 (55 KSI) CP-3 – Grade 2 (40 KSI) CP-4 – Grade 1 (25 KSI) Alpha Alloys (A) A-1 – 5Al-2.5Sn A-2 – 5Al-2.5Sn (ELI) A-3 – 6Al-2Cb-1Ta-.8Mo A-4 – 8Al-1Mo-1V Alpha-Beta Alloys (AB) AB-1 – 6Al-4V AB-2 – 6Al-4V (ELI) AB-3 – 6Al-6V-2Sn AB-4 – 6Al-2Sn-4Zr-2Mo AB-5 – 3Al-2.5V AB-6 – 8Mn Beta Alloys (B) B-1 – 13V-11Cr-3Al B-2 – 11.5Mo-6Zr-4.5Sn (Beta III) B-3 – 3Al-8V-6Cr-$Mo-$zr (Beta C™)(10) B-4 – 8Mo-8V-2Fe-3Al MIL-T-9047E Titanium & Titanium Alloy Bars & Reforging Stock Alpha Alloys Composition 1 – Unalloyed Composition 2 – 5Al-2.5Sn Composition 3 – 5Al-2.5Sn ELI Composition 5 – 5Al-1Mo-1V Alpha-Beta Alloys Composition 6 – 6Al-4V Composition 7 – 6Al-4V ELI Composition 8 - 6Al-6V-2Sn Composition 9 – 7Al-4Mo Composition 10 – 11Sn-5Zr-2Al-1Mo Composition 11 – 6Al-2Sn-4Zr-2Mo Composition 14 – 6Al-2Sn-4Zr-6Mo Beta Alloys Composition 12 – 13V-11Cr-3Al Composition 13 – 11.5Mo-6Zr-4.5Sn (Beta III) MIL-T-9047G Titanium & Titanium Alloy Bars & Reforging Stock, Aircraft Quality Commercially Pure TI-CP-70 (Grade 4) Alpha Alloys Ti – 5Al-2.5Sn Ti – 5Al-2.5Sn (ELI) 6Al-2Cb-1Ta-.8Mo 8Al-1Mo-1V Alpha-Beta Alloys Ti – 3Al-2.5V Ti – 6Al-4V Ti – 6Al-4V (ELI) Ti – 6Al-6V-2Sn Ti – 6Al-2Sn-4Zr-2Mo Ti – 6Al-2Sn-4Zr-6Mo Ti –7Al-4Mo Beta Alloys Ti – 8Mo-8V-2Fe-3Al Ti – 11.5Mo-6Zr-4.5Sn (Beta III) Ti – 3Al-8V-6Cr-4Mo-4Zr (Beta C™)(10) Ti – 13V-11Cr-3Al Imperial and Metric sizes available upon request.

Ladhani Metal Corporation offers 1Cr25Ni20Si2 Boiler Half Round Tube Shields engineered for superior protection of boiler tubes in extremely high-temperature and abrasive service environments. Manufactured from a heat-resistant austenitic stainless steel alloy with high chromium, nickel, and silicon content, 1Cr25Ni20Si2 delivers exceptional resistance to oxidation, carburization, and high-temperature scaling. The added silicon improves anti-oxidation properties and enhances structural stability during prolonged thermal exposure. These shields are precision-formed into a half-round profile to ensure accurate coverage of straight boiler tube sections. They provide a durable physical barrier against flue gas erosion, soot blower impact, and particle-laden gas flow, significantly extending the operational life of boiler tubes. Ladhani Metal Corporation manufactures, supplies, and exports 1Cr25Ni20Si2 Boiler Half Round Tube Shields in a wide range of sizes, thicknesses, and lengths, catering to both domestic and international markets. 1Cr25Ni20Si2 Grade Chemical Composition – Heat Resistant Austenitic Stainless Steel • Carbon (C): ≤ 0.12% • Manganese (Mn): ≤ 2.00% • Phosphorus (P): ≤ 0.035% • Sulfur (S): ≤ 0.030% • Silicon (Si): 1.50 – 2.50% • Chromium (Cr): 24.00 – 26.00% • Nickel (Ni): 19.00 – 22.00% • Iron (Fe): Balance Uses • Shields straight boiler tubes in superheaters, reheaters, and economizers • Protects against oxidation, scaling, and particulate erosion • Suitable for carburizing and high-silicon demanding environments • Extends tube life in power generation and process heating units Features • Enhanced oxidation resistance – Silicon addition boosts scale resistance at extreme temperatures • Superior thermal stability – Maintains mechanical integrity during prolonged heat exposure • Precision-engineered profile – Ensures a secure and accurate fit over boiler tubes • Flexible installation – Can be welded, clamped, or banded based on site requirements • Export-ready – Compliant with international quality and dimensional standards Applications • Thermal power stations – Protects superheater and reheater tubes from oxidation and erosion • Waste heat boilers – Guards tubes in severe heat recovery operations • Petrochemical and refinery heaters – Resists carburization in furnace conditions • Metallurgy and cement industries – Provides reliable tube protection under abrasive, high-heat gas flows Conclusion The 1Cr25Ni20Si2 Boiler Half Round Tube Shield from Ladhani Metal Corporation is designed for extreme service conditions where oxidation, scaling, and high-temperature wear are major concerns. With its silicon-enhanced heat-resistant alloy composition and precise manufacturing, it ensures prolonged boiler tube life and reduced downtime. Available in customized sizes for both domestic and export orders, these shields offer dependable performance in the world’s toughest boiler and furnace environments. For specifications and order inquiries, contact Ladhani Metal Corporation. #Mumbai #Pune #Ahmedabad #Vadodara #Surat #Rajkot #Jamnagar #Bharuch #Ankleshwar #Vapi #Delhi #Faridabad #Ghaziabad #Noida #Gurugram #Chennai #Coimbatore #Tiruchirappalli #Hyderabad #Visakhapatnam #Vijayawada #Bangalore #Mangalore #Mysore #Kolkata #Durgapur #Asansol #Bhubaneswar #Rourkela #Raipur #Bhilai #Bilaspur #Nagpur #Nashik #Aurangabad #Indore #Bhopal #Jabalpur #Kanpur #Lucknow #Varanasi #Jaipur #Kota #Udaipur #Jodhpur #Chandigarh #Ludhiana #Jalandhar #Haridwar #Dehradun #Agra #Meerut #Aligarh #Moradabad #Bareilly #Mathura #Gwalior #Rewa #Satna #Sagar #Ujjain #Ratlam #Solapur #Kolhapur #Amravati #Akola #Jalgaon #Latur #Sangli #Nanded #Gandhinagar #Bhavnagar #Mehsana #Surendranagar #Junagadh #Nadiad #Nizamabad #Karimnagar #Warangal #Kurnool #Nellore #Tirupati #Salem #Erode #Madurai #Tirunelveli #Thoothukudi #Belgaum #Hubli #Tumkur #Hassan #Cuttack #Sambalpur #Jamshedpur #Ranchi #Dhanbad #Patna #Gaya #Muzaffarpur#halftubeshield #utypehalftubeshield #tubeshieldexporter #TubeShield #HalfTubeShield #SSHalfRoundShield #BoilerTubeShield #BoilerShield #TubeProtection #Tubeshieldmanufacturer #BoilerTubeProtection #SSTubeShield #MetalIndustry #SteelFabrication #IndustrialShielding #SS304Shield #SS316Shield #StainlessSteelShield #WeldOnShield #WeldedTubeShield #TubeCladding #BoilerTubeSleeve #TubeSleeve #MetalFabrication #PowerPlantSupplies #RefineryEquipment #ProcessIndustry #MetalComponent #TubeShieldForBoilers #BoilerParts #SteelSolutions #TubeShieldManufacturer #TubeShieldSupplier #SSShielding #IndustrialTubeShield #BoilerTubeGuard #CustomMetalParts #SteelIndustryIndia #MetalEngineering #HeavyIndustrySupply #StainlessSteelIndia #SteelExporters #MetalComponentExport #FabricatedProducts #SteelDealer #IndustrialSupplyIndia #BoilerTubeFittings #TubeShieldingSolutions #HalfTubeCover #HeatExchangerShield

Half Round Tube Shield Half Round Tube Shields by Ladhani Metal Corporation are robust, precision-fabricated protective sleeves designed to guard the outer surfaces of tubes in boilers, heat exchangers, incinerators, and high-temperature processing equipment. Engineered to extend the service life of tubes exposed to corrosive gases, abrasive particulates, and elevated temperatures, these shields provide a reliable barrier against mechanical and chemical degradation. The half-round design facilitates easy installation while ensuring a secure, form-fitting layer of defense. 1Cr13 Half Round Tube Shield The 1Cr13 Half Round Tube Shield is a semi-cylindrical component manufactured from martensitic stainless steel containing approximately 13% chromium. Classified under the 1Cr13 grade, this alloy delivers good corrosion resistance, excellent wear performance, and moderate strength at elevated temperatures. It is especially suited for thermal environments that are not extremely oxidizing or carburizing but where erosion and mechanical wear are a concern. With a higher hardness potential through heat treatment and moderate thermal resistance, 1Cr13 shields are ideal for applications involving flue gas exposure, soot-laden atmospheres, and temperature cycling. The shield’s half-round configuration is precision-engineered for optimal tube coverage and long-term durability. It offers a balance of strength, corrosion resistance, and cost-effectiveness, making it suitable for a wide range of industrial processes. Chemical Composition of 1Cr13 – Martensitic Stainless Steel • Carbon (C): 0.15 – 0.20% • Silicon (Si): ≤ 1.00% • Manganese (Mn): ≤ 1.00% • Phosphorus (P): ≤ 0.035% • Sulfur (S): ≤ 0.030% • Chromium (Cr): 12.0 – 14.0% • Nickel (Ni): ≤ 0.60% • Iron (Fe): Balance Uses • Boiler Tube Protection – Shields tube surfaces from flue gas erosion, ash particle abrasion, and soot buildup in economizers and waterwalls. • Heat Exchanger Tubes – Provides an extra layer of wear resistance in zones prone to mechanical stress and fluid turbulence. • Incinerator and Waste Heat Units – Guards tubes exposed to fluctuating temperatures, slag, and particulate deposits. • Cement Plant Piping – Protects tubing and ducts in kiln exhaust systems from abrasive dust and high flow velocity. • Air Preheaters and Recuperators – Enhances the durability of components subjected to temperature variations and corrosive gases. Features • Moderate Oxidation Resistance – Chromium content enables good performance in mildly oxidizing environments and intermittent exposure to high temperatures. • Wear and Abrasion Resistance – Martensitic structure offers high surface hardness and resistance to mechanical wear. • Heat Treatable – Can be hardened to increase durability and resistance to deformation. • Cost-Effective – Provides a lower-cost alternative to austenitic and superalloy shields for moderate service conditions. • High Dimensional Accuracy – Manufactured with tight tolerances to ensure secure fitment and uniform tube coverage. • Convenient Installation – Half-round shape enables quick mounting through welding or clamping techniques. • Versatile Finishing Options – Supplied with pickled or mechanically polished surfaces to improve corrosion resistance and adhesion. Applications • Power Generation – Used in economizer, preheater, and convection sections of boilers to prevent erosion and fouling. • Chemical and Fertilizer Plants – Protects exposed tube surfaces in systems with moderate chemical exposure. • Metallurgical Furnaces – Shields mechanical and flue components exposed to particulate movement and temperature cycling. • Pulp and Paper Industry – Used in recovery boilers and heat exchangers where corrosion resistance and mechanical strength are both required. • Petrochemical Plants – Applied in lower-temperature zones where scaling and erosion are primary concerns. Conclusion The 1Cr13 Half Round Tube Shield by Ladhani Metal Corporation provides an optimal solution for industrial tube protection in moderate temperature and corrosion environments. Its martensitic stainless steel composition ensures excellent wear resistance, good oxidation stability, and structural strength at a competitive cost. Designed for easy installation and reliable performance, these shields are ideal for various applications in power, process, and heat recovery systems. Custom-built to meet specific dimensions, material thicknesses, and finishing preferences, 1Cr13 tube shields offer dependable service life extension for critical heat transfer equipment. For technical specifications, pricing, or customization inquiries, please contact Ladhani Metal Corporation.

DIN 2627 Super Duplex Steel flanges PN 400 are robust, high-performance blind flanges engineered for extremely demanding applications requiring exceptional strength, corrosion resistance, and reliability under ultra-high-pressure conditions. Designed according to the DIN 2627 standard, these flanges are primarily used to isolate sections of piping systems, especially in environments that involve aggressive media such as seawater, acidic chemicals, and high-temperature fluids. With a PN 400 pressure rating (400 bar / 5800 psi), these flanges are suitable for critical systems where both mechanical strength and corrosion resistance are vital. Ladhani Metal Corporation is a globally recognized supplier and exporter of Super Duplex DIN flanges, offering products that meet or exceed international quality, safety, and performance standards for extreme-service applications. Pressure Rating: • PN 400 (400 bar / 5800 psi): Designed for high-pressure operations in chemically aggressive and mechanically demanding environments. Flange Type: • Blind Flanges Flat, solid flanges without a bore used to seal the end of piping systems. Ideal for temporary shutdowns, pressure testing, or future system expansion. • Flat Face (FF) Flanges Feature a flat sealing surface, suitable for use with full-face gaskets and flat mating components to ensure consistent and effective sealing under pressure. Super Duplex Steel Grades and Composition: Super Duplex 2507 (UNS S32750) • Chromium (Cr): 24 – 26% • Nickel (Ni): 6 – 8% • Molybdenum (Mo): 3 – 5% • Nitrogen (N): 0.24 – 0.32% • Iron (Fe): Balance Applications: Exceptional corrosion resistance in seawater, brines, and acidic environments. Commonly used in offshore structures, desalination plants, and chemical processing systems. Applications of DIN 2627 Super Duplex Flanges PN 400: • Offshore Oil and Gas Platforms Used in topside and subsea installations exposed to high salinity, pressure, and harsh chemical environments. • Desalination and Water Treatment Plants Resistant to chloride-induced corrosion and fouling in seawater intake and brine discharge systems. • Chemical and Petrochemical Processing Ideal for aggressive process media such as chlorides, sulfur compounds, and acids at high temperatures and pressures. • Marine Engineering and Shipbuilding Excellent corrosion resistance in marine atmospheres, making them suitable for seawater cooling, ballast systems, and structural piping. • Pulp and Paper Industry Deployed in bleaching plants and alkaline recovery lines where strength and corrosion resistance are essential. • Power Generation and Nuclear Facilities Reliable under high-temperature and pressure cycles in superheated steam, feedwater, and condenser systems. Key Features: • Manufactured to DIN 2627 standard • PN 400 pressure class for ultra-high-pressure environments • Blind flange design for secure pipe end sealing or access closure • Flat face type for even gasket compression and leak-free performance • Available in Super Duplex 2507 (UNS S32750) and S32760 • Excellent resistance to pitting, crevice corrosion, and stress corrosion cracking • Twice the strength of conventional stainless steels • Widely used in offshore, marine, petrochemical, and water treatment industries • Custom options available: sizes, pressure ratings, face types, and finishes Conclusion: DIN 2627 Super Duplex Steel Flanges PN 400 by Ladhani Metal Corporation are designed to withstand the harshest industrial environments, providing unmatched corrosion resistance, mechanical strength, and sealing reliability. These flanges are ideal for mission-critical applications in offshore, marine, chemical, and energy industries. For technical assistance, custom fabrication, or detailed product specifications, contact Ladhani Metal Corporation and ensure your systems are protected by industry-leading flange solutions.

DIN 2545 Inconel flanges are engineered for superior strength, excellent resistance to high temperatures, and remarkable corrosion resistance in extreme environments. Ladhani Metal Corporation provides these high-quality flanges made from Inconel alloys, known for their ability to endure elevated temperatures, oxidation, and corrosive conditions. These flanges are ideal for industries where performance under high-temperature stress and resistance to harsh environments are essential, such as aerospace, chemical processing, power generation, and marine. Types of DIN 2545 Inconel Flanges: Flat Face Flanges (FF) – These flanges have a flat surface that facilitates uniform distribution of the sealing force, making them ideal for low-pressure systems or when a secure seal is required. Raised Face Flanges (RF) – Raised face flanges feature a raised area around the bolt holes, providing enhanced sealing pressure, making them suitable for high-pressure environments. Ring-Type Joint (RTJ) Flanges – Designed with a groove for a metal sealing ring, these flanges are ideal for applications requiring resistance to high pressure and high temperatures. Grades and Chemical Composition: Inconel 600 (UNS N06600) Chemical Composition: Ni: 72%, Cr: 14-17%, Fe: balance, Mn: 1%, Si: 0.5%, C: 0.15% Inconel 600 is known for its excellent resistance to oxidation and corrosion at elevated temperatures. It is widely used in applications like furnace components, chemical processing, and nuclear reactors, offering high strength and good workability. Inconel 625 (UNS N06625) Chemical Composition: Ni: 58%, Cr: 20-23%, Mo: 8-10%, Fe: 5%, Nb: 3.15-4.15%, Ti: 0.4-1% Inconel 625 is a nickel-based alloy that offers superior resistance to high-temperature oxidation and corrosion. It provides exceptional resistance to pitting and crevice corrosion, making it ideal for applications in aerospace, marine, and chemical industries, where high temperatures and corrosive environments are common. Inconel 718 (UNS N07718) Chemical Composition: Ni: 50-55%, Cr: 17-21%, Fe: 0-5%, Mo: 2.8-3.3%, Nb+Ta: 4.75-5.5%, Ti: 0.65-1.15%, Al: 0.2-0.8% Inconel 718 is a high-strength, corrosion-resistant alloy widely used in high-temperature applications. It is designed for use in extreme conditions, offering excellent resistance to oxidation, sulfidation, and high-temperature environments. PN 40 Pressure Rating: The "PN" rating indicates the flange's pressure capacity. PN 40 refers to flanges that are designed to withstand pressures up to 40 bar, making them suitable for high-pressure systems where secure, leak-free connections are essential. Applications: Aerospace Industry: Jet Engines and Turbomachinery: Inconel flanges are commonly used in aerospace applications, including jet engines and turbine systems, where components are exposed to extremely high temperatures and pressures. They provide excellent resistance to heat and corrosion in high-stress environments. Exhaust Systems: Inconel's ability to withstand high temperatures makes it ideal for use in exhaust systems of aircraft engines. 2. Power Generation Industry: Gas Turbines: Inconel flanges are used in gas turbines in power plants, particularly in components that operate at high temperatures, such as turbine blades, combustors, and other critical parts. Nuclear Power Plants: Inconel is used in the construction of components for nuclear reactors, where heat and radiation resistance are crucial. It is used in piping, valves, and other systems exposed to high-temperature nuclear environments. 3. Chemical Processing and Petrochemical Industries: High-Temperature Reactors: Inconel flanges are used in reactors, heat exchangers, and other equipment in the chemical industry that handle aggressive, high-temperature chemical reactions, including those with sulfuric acid, chlorine, and other corrosive substances. Petrochemical Refineries: Inconel is used in systems where high temperatures and reactive chemicals are present, offering superior performance in handling corrosive materials such as acids and hydrocarbons. 4. Oil and Gas Industry: Offshore Platforms: Inconel flanges are widely used in offshore oil and gas platforms, particularly in subsea pipelines, risers, and pressure vessels, where high resistance to both high pressure and corrosion (especially from seawater) is necessary. Wellhead Equipment: Inconel flanges are also used in downhole equipment and wellhead connections that need to resist high-pressure environments and exposure to extreme temperatures. Ladhani Metal Corporation ensures that each Inconel flange is produced to the highest standards of quality and precision, adhering to international specifications. Every flange undergoes thorough testing to meet the required durability and performance standards, providing reliable solutions for critical applications in the most challenging environments. #din2545 #din2545flanges #din2545inconelflanges #flanges #flangessupplier

DIN 2544 Inconel flanges are flanges manufactured according to the DIN 2544 standard, specifically designed for use with Inconel alloys. Inconel is a family of high-performance nickel-chromium-based superalloys that are known for their exceptional strength and resistance to high temperatures and corrosion. These flanges are primarily used in industries that involve extreme conditions such as aerospace, chemical processing, and high-temperature applications. Ladhani Metal Corporation is a prominent supplier and distributor of high-quality industrial products, including DIN 2544 Inconel flanges. The company specializes in offering a wide range of flanges, fittings, and pipes made from high-performance materials such as Inconel, duplex stainless steel, and other super alloys. Key Features: Material: Inconel alloys (typically Inconel 600, 625, or 718). Pressure Rating (PN 25): These flanges are rated for pressure class PN 25, meaning they can handle pressures up to 25 bar (2500 kPa). High Temperature Resistance: Inconel alloys are well-suited for high-temperature environments, maintaining strength and stability even at temperatures above 1000°C (1832°F). Corrosion Resistance: Inconel offers superior resistance to oxidation, corrosion, and carburization, particularly in high-temperature environments, making them ideal for harsh industrial conditions. Strength: Known for excellent mechanical properties, Inconel alloys retain high tensile and creep-rupture strength even under extreme temperatures. Types of DIN 2544 Inconel Flanges: Weld Neck Flange (WN): Used for high-pressure and high-temperature applications, where a strong, leak-proof joint is essential. Slip-On Flange (SO): Easy to install, these flanges slide over the pipe and are welded both inside and outside. Blind Flange (BL): Used to seal the ends of pipes, vessels, or openings. Threaded Flange (TH): These are screwed onto the pipe without welding, making them easier to remove. Socket Weld Flange (SW): Designed for smaller pipe sizes, where the pipe is inserted into the socket and welded in place. Grades of Inconel: Inconel 600: Contains 72% nickel, 14-17% chromium, and 6-10% iron. It offers excellent resistance to oxidation and carburization at high temperatures, making it ideal for applications in furnace components, heat exchangers, and chemical processing. Inconel 625: A nickel-chromium alloy with added molybdenum and niobium for increased strength and corrosion resistance in marine and chemical environments. It is highly resistant to both oxidation and carburization. Inconel 718: A precipitation-hardenable superalloy with high yield, tensile, and creep-rupture properties at temperatures up to 700°C (1292°F). It is widely used in aerospace, gas turbines, and high-performance engines. Pressure Rating (PN 25): PN 25 means the flange is rated for pressure up to 25 bar (2500 kPa), making it suitable for moderate to high-pressure applications. Summary: DIN 2544 Inconel flanges are robust, high-performance components made from Inconel alloys, designed for use in extremely high-temperature and corrosive environments. They come in various types, These flanges offer excellent resistance to oxidation, corrosion, and high temperatures, making them ideal for demanding applications in aerospace, chemical processing, and high-temperature industries. PN 25 flanges are rated for pressures up to 25 bar.

DIN 2527 Titanium Blind Flanges are specialized components used to seal the open ends of pipes, vessels, or other equipment in industrial systems where no further connection is required. Made from Titanium alloys, these flanges offer a combination of high strength, excellent corrosion resistance, and light weight, making them an ideal choice for applications in demanding environments. Manufactured according to the DIN 2527 standard, these flanges ensure high levels of dimensional accuracy, pressure tolerance, and mechanical strength, which are critical for maintaining the integrity of piping systems. Material Composition of Titanium Alloys: Titanium alloys used for DIN 2527 Blind Flanges typically include: Grade 2 Titanium (Commercially Pure Titanium): Titanium (Ti): 99.2% min Iron (Fe): 0.30% max Oxygen (O): 0.25% max Carbon (C): 0.08% max Nitrogen (N): 0.03% max Hydrogen (H): 0.015% max Grade 5 Titanium (Ti-6Al-4V): Titanium (Ti): 90.0% min Aluminum (Al): 6.0% - 7.0% Vanadium (V): 3.5% - 4.5% Iron (Fe): 0.25% max Oxygen (O): 0.20% max Carbon (C): 0.10% max Nitrogen (N): 0.05% max Hydrogen (H): 0.015% max Key Features of DIN 2527 Titanium Blind Flanges: Corrosion Resistance: Titanium is highly resistant to corrosion, especially in chloride, seawater, and acidic environments, making Titanium Blind Flanges ideal for use in marine, chemical, and offshore applications. Titanium alloys offer superior resistance to pitting, crevice corrosion, and stress corrosion cracking, even in extreme environments like high salinity and acidic conditions. High Strength-to-Weight Ratio: Titanium has an excellent strength-to-weight ratio, making it significantly stronger than many steel alloys while being much lighter. This is particularly beneficial in industries where weight reduction is essential, such as aerospace and marine industries. Temperature Resistance: Titanium alloys can withstand high temperatures, with Grade 2 Titanium performing well at up to 400°C (752°F) and Grade 5 Titanium being suitable for continuous service at up to 400°C (752°F) as well, with intermittent exposure to even higher temperatures. Dimensional Accuracy and Pressure Class: DIN 2527 Titanium Blind Flanges are manufactured to precise dimensions, ensuring a secure seal within the piping system. Available in different pressure classes such as PN6, PN10, PN16, etc., ensuring compatibility with a wide range of piping systems. Design Options: Standard Blind Flange (Type A): A solid, circular disc used to seal the end of a pipe or vessel. Commonly used in general applications. Flat-Faced Blind Flange: Features a flat sealing surface, ideal for low-pressure systems. Raised Face Blind Flange: Includes a raised area around the center for improved sealing in higher pressure systems. Ring-Type Joint (RTJ) Blind Flange: Designed with a groove to accommodate a ring-type joint gasket, used for high-pressure applications, particularly in the oil and gas industry. Long Weld Neck Blind Flange: Features an extended neck for welding, providing additional strength and stability, commonly used in high-pressure or high-stress systems. Nominal Diameter: DIN 2527 Titanium Blind Flanges are available in a variety of nominal diameters (DN), typically ranging from DN10 (1/2 inch) up to DN600 (24 inches) or more, based on the application needs.