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.

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.

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.

Ladhani Metal Corporation offers SS 304 Boiler Tube Shields engineered to protect straight boiler and heat exchanger tubes from erosion, oxidation, and impact damage in aggressive thermal environments. Manufactured from austenitic stainless steel grade SS 304, these shields provide excellent corrosion resistance, good mechanical strength, and thermal stability at high operating temperatures. SS 304 is widely used in applications where exposure to flue gases, steam, and particulate matter demands reliable, long-term protection. The half-round design is precision-formed to match the curvature of straight boiler tubes, ensuring a snug and secure fit. This close contact minimizes tube exposure to abrasive particles, high-velocity gases, and soot blower impact. The shields serve as a durable physical barrier, extending tube life and reducing the frequency of costly maintenance and replacements. Ladhani Metal Corporation manufactures, supplies, and exports SS 304 Boiler Tube Shields in a variety of lengths, diameters, and thicknesses to suit specific application requirements across domestic and international markets. SS 304 Grade Chemical Composition – Austenitic Stainless Steel • Carbon (C): ≤ 0.08% • Manganese (Mn): ≤ 2.00% • Phosphorus (P): ≤ 0.045% • Sulfur (S): ≤ 0.030% • Silicon (Si): ≤ 1.00% • Chromium (Cr): 18.0 – 20.0% • Nickel (Ni): 8.0 – 10.5% • Iron (Fe): Balance Applications: Suitable for thermal power stations, process heaters, WHRBs, HRSGs, and chemical industries operating under corrosive and high-heat environments. Uses • Protection of straight boiler tubes from erosion and oxidation • Installed in radiant and convection zones of boilers • Shields against soot blower damage in utility boilers • Used in HRSG and WHRB systems exposed to flue gases • Ideal for chemical, food, and textile processing boilers Features • Excellent corrosion resistance – Performs in oxidizing and mildly acidic environments • High thermal durability – Maintains strength at elevated temperatures • Long service life – Minimizes wear and reduces maintenance intervals • Easy to install – Can be clamped, tack welded, or banded • Custom-built – Available in varied lengths, thicknesses, and diameters • Export-ready – Manufactured to meet international standards Applications • Power plants – Steam generator tube protection from scale and erosion • Refineries and petrochemical units – For tube shielding in process heaters • Waste heat recovery systems – In cement, steel, and glass industries • Industrial boilers – Where high temperature and flue gas exposure are present Conclusion The SS 304 Boiler Tube Shield from Ladhani Metal Corporation delivers robust and corrosion-resistant protection for straight tubes exposed to harsh thermal and gaseous environments. With high-grade austenitic stainless steel construction, precise fit, and customizable dimensions, these shields are ideal for domestic and global boiler systems. For technical consultation, material selection, or custom orders, 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 #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 #halftubeshield #utypehalftubeshield #tubeshieldexporter

Half Round Tube Shield Half Round Tube Shields by Ladhani Metal Corporation are designed to provide surface protection for boiler tubes, superheaters, and heat exchangers from erosion, slag deposition, and thermal wear. These shields are commonly used in low temperature superheaters (LTSH), economizers, and coil sections in power plants and industrial heating systems. Their half-round profile allows quick installation on exposed tube surfaces, ensuring prolonged tube service life and reduced maintenance frequency. SS 304 Half Round Tube Shield for LTSH Tube The SS 304 Half Round Tube Shield is manufactured from austenitic stainless steel grade 304, which offers excellent corrosion resistance, good mechanical strength, and thermal stability. Designed specifically for LTSH (Low Temperature Super Heater) applications, it protects the exposed surfaces of tubes from low-temperature corrosion, soot erosion, and gas flow damage. The shield is precisely fabricated to match the outer diameter of LTSH tubes, enabling a tight and reliable fit. The Low Temperature Superheater (LTSH) is a section in a boiler where saturated steam from the steam drum is superheated to a moderately higher temperature before entering the high-temperature superheater stages. Positioned in areas with relatively lower flue gas temperatures, the LTSH helps improve thermal efficiency and reduces moisture content in steam. Due to constant exposure to abrasive flue gases and ash, LTSH tubes are prone to wear and require protective shielding, such as half round tube shields, to extend service life. Ladhani Metal Corporation is a leading manufacturer, supplier, and exporter of SS 304 Half Round Tube Shields for LTSH applications, delivering durable and performance-oriented shielding solutions for thermal power and industrial process systems. Chemical Composition of SS 304 – Austenitic Stainless Steel • Carbon (C): ≤ 0.08% • Manganese (Mn): ≤ 2.00% • Phosphorus (P): ≤ 0.045% • Sulfur (S): ≤ 0.030% • Silicon (Si): ≤ 1.00% • Chromium (Cr): 18.0 – 20.0% • Nickel (Ni): 8.0 – 10.5% • Iron (Fe): Balance Applications: Ideal for low-temperature zones in superheaters, economizers, and other heat exchange systems exposed to gas flow, corrosion, and mild scaling. Uses • Installed on LTSH tubes in power plant boilers to protect from low-temperature flue gas corrosion • Shields exposed tube sections in economizers, air preheaters, and convection coil banks • Used in heat exchangers and process heaters operating in mildly corrosive and low thermal environments • Suitable for protection in industrial boilers and steam generation systems • Applied in thermal units where soot, slag, or flue gas turbulence causes mechanical surface wear Features • Excellent corrosion resistance – Resists oxidation, acidic gas exposure, and low-temperature fouling • Custom fit – Fabricated to match the exact diameter and length of LTSH tubes • Easy installation – Can be mounted using clamp-on, tack welding, or banding methods • Moderate thermal stability – Maintains structural integrity in low to moderate heat zones • Reduces maintenance – Prevents erosion and pitting, extending tube service life • Available in various lengths, wall thicknesses, and radii as per system specifications Applications • thermal power plants – Installed on LTSH tube banks to guard against flue gas corrosion and surface damage • industrial steam systems – Shields exposed superheater and reheater tube sections • waste heat recovery – Used in lower temperature zones of WHRBs and HRSGs • chemical plants – Provides surface protection in convection and heating coils exposed to process gases • boiler maintenance – Ideal for tube protection during retrofits, upgrades, or preventive maintenance Conclusion The SS 304 Half Round Tube Shield for LTSH Tube by Ladhani Metal Corporation – manufacturer, supplier, and exporter – offers dependable and corrosion-resistant protection for tubes in low-temperature superheater applications. With excellent mechanical and chemical performance, this shield ensures efficient operation and extended tube life in a wide range of thermal and industrial systems. For custom dimensions, technical support, or pricing, please contact Ladhani Metal Corporation.

Half Round Tube Shield Half Round Tube Shields by Ladhani Metal Corporation are precision-engineered components used to protect boiler and heat exchanger tubes from erosion, scaling, and high-temperature corrosion. These shields are widely applied in industrial systems exposed to thermal cycling, aggressive gases, and particulate flow. Their half-round shape allows for simple and secure installation over straight or curved tube surfaces, extending tube life and reducing maintenance needs. 1Cr18Ni9Ti U Type Half Round Tube Shield The 1Cr18Ni9Ti U Type Half Round Tube Shield is specifically designed for protection of U-bend tube sections in high-temperature heat exchangers, boilers, and superheaters. Manufactured from 1Cr18Ni9Ti, a titanium-stabilized austenitic stainless steel equivalent to AISI 321, this shield delivers excellent resistance to intergranular corrosion, high-temperature oxidation, and thermal fatigue. The titanium addition prevents chromium carbide precipitation during welding or long-term heat exposure, making it ideal for use in welded structures subjected to continuous heating cycles. • Outer U Type Half Round Tube Shield – Provides robust protection to the outer curve of U-bends against hot gas erosion, flame impingement, and scaling. • Inner U Type Half Round Tube Shield – Safeguards the inner arc of the bend from localized wear, slag buildup, and thermal degradation. Ladhani Metal Corporation manufactures and exports 1Cr18Ni9Ti U Type Half Round Tube Shields to industries requiring high-performance shielding in aggressive thermal and chemical service environments, particularly where welding is involved. Chemical Composition of 1Cr18Ni9Ti – Titanium-Stabilized Austenitic Stainless Steel • Carbon (C): ≤ 0.08% • Manganese (Mn): ≤ 2.00% • Phosphorus (P): ≤ 0.035% • Sulfur (S): ≤ 0.030% • Silicon (Si): ≤ 1.00% • Chromium (Cr): 17.0 – 19.0% • Nickel (Ni): 8.0 – 11.0% • Titanium (Ti): ≥ 5 × C content • Iron (Fe): Balance Applications: Suitable for high-temperature environments where welded tube systems are exposed to flue gases, thermal cycling, and corrosive atmospheres. Uses • Protection of U-bend tubes in reheaters and superheaters in thermal power plants • Shielding tube bends in waste heat recovery boilers and steam reformers • Coverage for curved tubes in high-temperature chemical process equipment • Guarding return bends in condensers and evaporators subject to scaling and oxidation • Ideal for systems requiring welded tube shields with resistance to intergranular corrosion Features • Titanium stabilization – Prevents sensitization and intergranular corrosion in welded or heat-affected zones, ensuring long-term structural reliability. • Excellent high-temperature resistance – Performs reliably under continuous thermal exposure, resisting scaling and surface degradation. • Complete bend protection – Available in both inner and outer U-type configurations for full shielding of curved tube areas. • Tight fit and customization – Manufactured to precise dimensions matching tube radius and diameter for secure, stable installation. • Easy to mount – Designed for hassle-free installation using clamps, tack welding, or banding without requiring tube removal. • Versatile performance – Suitable for oxidizing and mildly corrosive environments involving high heat and mechanical stress. Applications • thermal power stations – Protects U-bend tubes in critical heat transfer sections against heat-induced wear and gas corrosion. Enhances operational lifespan and safety. • petrochemical and refinery plants – Used in process heaters, reformers, and exchangers exposed to flue gases and thermal cycling. Maintains performance under continuous operation. • waste heat recovery systems – Shields curved tubes from erosion and scaling in gas recovery units and economizers. Improves durability in high-velocity environments. • chemical industries – Applied to tube bends in reactors, steam heaters, and evaporators where corrosion and temperature resistance are essential. • boiler systems and HRSGs – Provides reliable protection against fatigue, oxidation, and slag accumulation in high-temperature return bends. Conclusion The 1Cr18Ni9Ti U Type Half Round Tube Shield from Ladhani Metal Corporation is an advanced solution for protecting U-bend tube sections in thermally aggressive and welded environments. Its titanium-stabilized composition offers superior resistance to intergranular corrosion, oxidation, and thermal stress. Custom-engineered for precision fit and available in dual-sided configurations, this tube shield enhances system reliability and reduces maintenance needs in power, chemical, and industrial heating systems. For technical consultation, custom orders, or quotations, please contact Ladhani Metal Corporation.

Half Round Tube Shield Half Round Tube Shields by Ladhani Metal Corporation are precision-engineered protective components designed to shield exposed tubes in boilers, heat exchangers, and furnaces from erosion, corrosion, and high-temperature damage. These shields are vital in extending equipment life and minimizing unplanned maintenance in industrial systems operating under extreme heat and pressure. SS 310S Half Round Tube Shield The SS 310S Half Round Tube Shield is a semi-cylindrical cover manufactured from high-quality stainless steel grade 310S. It is specifically designed for high-temperature environments where oxidation, scaling, and corrosive gas exposure are common. The “S” in SS 310S indicates lower carbon content than standard SS 310, which improves weldability and reduces the risk of carbide precipitation during welding and high-temperature exposure. The half-round profile allows easy installation over the tube surface, ensuring a tight fit and reliable protection across thermal cycles and mechanical stresses. Chemical Composition of SS 310S – Austenitic Stainless Steel • Carbon (C): ≤ 0.08% • Manganese (Mn): ≤ 2.00% • Phosphorus (P): ≤ 0.045% • Sulfur (S): ≤ 0.030% • Silicon (Si): ≤ 1.50% • Chromium (Cr): 24.0 – 26.0% • Nickel (Ni): 19.0 – 22.0% • Iron (Fe): Balance Uses • Boiler Tube Protection – Protects boiler tubes from flue gas corrosion, abrasive wear, and scaling in high-temperature zones, especially in coal-fired and biomass plants. • Heat Exchanger Tube Shielding – Prevents erosion and chemical attack in steam and process gas exchangers, maintaining thermal efficiency. • Furnace Tube Protection – Shields tubes from direct flame impingement and high thermal loads in industrial furnaces, kilns, and incinerators. • Petrochemical and Refining Operations – Guards tubes in reformers, crackers, and reactors from carburization and oxidation in aggressive processing environments. • Superheater and Reheater Systems – Provides robust protection to tubes exposed to extreme thermal stress in high-pressure steam circuits. Features • High-Temperature Resistance – SS 310S withstands temperatures up to 1100°C continuously, making it suitable for severe service conditions. • Low Carbon Content – Enhanced weldability and reduced risk of intergranular corrosion during or after welding processes. • Half-Round Design – Engineered for precise fitment over existing tubes, allowing efficient installation and tube surface coverage. • Corrosion and Oxidation Resistance – Excellent resistance to high-temperature oxidizing environments and thermal scaling. • Custom Options – Available in multiple lengths, thicknesses, diameters, and with various mounting or clamping configurations. • Surface Finishes – Offered in pickled, passivated, and bright annealed finishes to match system requirements and aesthetics. Applications • Thermal Power Plants – Shields boiler tubes from soot blowers, slag, and hot gas erosion in economizers and superheaters. • Refineries and Petrochemical Plants – Applied to tubes in cracking furnaces and heat recovery systems to resist high-temperature corrosion. • Heat Recovery Steam Generators (HRSGs) – Enhances tube life in combined-cycle systems where exhaust gases impact tube bundles. • Chemical Processing Facilities – Protects process tubes in aggressive thermal and chemical environments including acid and gas streams. • Industrial Boilers and Steam Systems – Ensures longevity of steam lines and tubing in high-pressure, high-temperature operations across various sectors. • Marine and Offshore Installations – Withstands corrosive sea air and high thermal loads in shipboard and platform boiler systems. Conclusion The SS 310S Half Round Tube Shield by Ladhani Metal Corporation delivers a high-performance solution for tube protection in extreme thermal and corrosive environments. Its low carbon composition ensures superior weldability and resistance to intergranular attack, making it a preferred choice for welded systems and continuous high-temperature applications. These shields reduce wear, enhance equipment life, and lower maintenance costs in power generation, refining, chemical, and marine industries. With customizable dimensions, high-grade material quality, and precision engineering, Ladhani Metal Corporation is your trusted partner for robust and reliable tube shielding solutions. For technical assistance, custom fabrication, or a quotation tailored to your application, please contact Ladhani Metal Corporation

DIN 2576 Super Duplex Flanges PN 10 are high-performance, slip-on flanges manufactured from super duplex stainless steel, designed for piping systems operating under low to medium pressures. Produced in accordance with the DIN 2576 standard, these flanges offer exceptional mechanical strength combined with superior corrosion resistance, making them ideal for highly aggressive and chloride-laden environments. The slip-on design facilitates easy placement over the pipe and enables secure welding, ensuring precise alignment and a reliable seal across various industrial applications. Ladhani Metal Corporation is a trusted manufacturer and global supplier of super duplex steel flanges, providing products that meet stringent international standards in terms of dimensions, metallurgy, and performance. DIN 2576 super duplex flanges are especially valued in industries where resistance to pitting, crevice corrosion, and stress corrosion cracking is critical, including marine, chemical, and wastewater systems. Pressure Rating: • PN 10 (10 bar / 145 psi): Designed for moderate-pressure systems demanding long-term durability in corrosive environments. Flange Types: • Slip-On Flanges These flanges slide over the pipe and are welded on both sides, offering ease of installation and secure mechanical performance. • Flat Face (FF) Flanges Designed for use with flat gaskets and mating surfaces, these flanges are ideal for applications involving non-metallic or cast components. Super Duplex Stainless Steel Grades and Composition: Super Duplex 2507 (UNS S32750) Composition: • Chromium (Cr): 24.0 – 26.0% • Nickel (Ni): 6.0 – 8.0% • Molybdenum (Mo): 3.0 – 5.0% • Nitrogen (N): 0.24 – 0.32% • Iron (Fe): Balance Applications: Super Duplex 2507 delivers superior yield strength and corrosion resistance, particularly in extreme environments. It is commonly used in subsea equipment, chemical containment, high-pressure systems, and offshore platforms exposed to seawater and chlorides. Applications of DIN 2576 Super Duplex Flanges: • Offshore and Marine Engineering Well-suited for seawater cooling systems, risers, and structural elements exposed to marine conditions. • Chemical and Petrochemical Industries Ideal for conveying highly corrosive fluids, acids, and chlorides in reactors and pipelines. • Water Treatment and Desalination Applied in reverse osmosis systems, brine piping, and high-salinity water circuits requiring enhanced corrosion resistance. • Pulp and Paper Industry Offers protection against aggressive bleaching agents and chemical fluids under pressurized conditions. • Oil and Gas Used in critical systems like separators, manifolds, and sour gas applications. • Structural and Pressure Vessel Fabrication Preferred for tanks and pressure vessels operating under corrosive and mechanical stress. Key Features: • Fully compliant with DIN 2576 standard specifications • PN 10 pressure rating for use in moderate-pressure applications • Superior resistance to chloride-induced pitting, crevice corrosion, and stress corrosion cracking • High mechanical strength reduces material thickness and overall system weight • Manufactured using Super Duplex 2507 and other super duplex alloys • Slip-on design ensures straightforward alignment and welding • Flat face variants suitable for a wide range of gaskets and connection types • Widely used across marine, chemical, oil and gas, and water treatment sectors • Custom sizes, face configurations, and finishes available on request Conclusion: DIN 2576 Super Duplex Flanges PN 10 by Ladhani Metal Corporation offer exceptional strength and corrosion resistance for highly demanding industrial environments. Available in Super Duplex 2507 and other super duplex grades, these flanges ensure reliable performance in systems facing high salinity, pressure, and temperature. For technical guidance, grade selection, or customized project solutions, reach out to Ladhani Metal Corporation today.

DIN 2576 Monel Flanges PN 10 are high-integrity, slip-on flanges manufactured from corrosion-resistant nickel-copper alloys, specifically designed for demanding low to medium-pressure applications. Compliant with the DIN 2576 standard, these flanges provide exceptional resistance to seawater, acids, alkalis, and corrosive chemicals, making them ideal for highly corrosive industrial environments. The slip-on design allows the flange to be positioned over the pipe and welded in place, ensuring precise alignment and long-term mechanical stability. Ladhani Metal Corporation is a trusted manufacturer and international supplier of Monel flanges, producing components that meet rigorous dimensional, metallurgical, and quality standards. DIN 2576 Monel flanges are widely used in marine, chemical, and oil and gas industries, where material durability and corrosion resistance are critical. Pressure Rating: • PN 10 (10 bar / 145 psi): Designed for systems requiring stable operation under moderate pressures in fluid and gas transport environments. Flange Types: • Slip-On Flanges Facilitate easy assembly by slipping over the pipe and welding on both sides to ensure a leak-proof and secure joint. • Flat Face (FF) Flanges Designed for use with flat gaskets and mating surfaces, offering even pressure distribution and sealing performance, particularly with brittle or non-metallic materials. Monel Grades and Composition: Monel 400 (UNS N04400) Composition: • Nickel (Ni): ≥ 63.0% • Copper (Cu): 28.0 – 34.0% • Iron (Fe), Manganese (Mn), Silicon (Si), Carbon (C): Trace amounts Applications: Monel 400 is well-known for its outstanding resistance to seawater, hydrofluoric acid, sulfuric acid, and alkalis. It is widely used in marine engineering, chemical processing, and heat exchangers. Monel K500 (UNS N05500) Composition: • Nickel (Ni): ≥ 63.0% • Copper (Cu): ~30.0% • Aluminum (Al): 2.3 – 3.15% • Titanium (Ti): 0.35 – 0.85% Applications: Monel K500 offers the same corrosion resistance as Monel 400 but with significantly higher strength and hardness due to age-hardening. It is ideal for high-stress applications such as pump shafts, valve components, and marine fasteners. Applications of DIN 2576 Monel Flanges: • Marine and Offshore Engineering Ideal for seawater exposure, ballast systems, and structural applications in shipbuilding and offshore platforms. • Chemical and Petrochemical Processing Used in piping systems exposed to strong acids, caustics, and other corrosive agents. • Oil and Gas Industry Suitable for sour gas (H₂S) environments, offshore drilling equipment, and refining systems. • Heat Exchangers and Condensers Monel's thermal conductivity and corrosion resistance make it suitable for tube sheets and connecting flanges. • Power Generation Applied in cooling systems, boiler feedwater lines, and other aggressive service environments. • Aerospace and Defense Used in fuel and hydraulic systems where resistance to corrosion and stress cracking is required. Key Features: • Manufactured according to DIN 2576 specification • PN 10 pressure rating for low to medium-pressure fluid systems • Exceptional resistance to seawater, acids, alkalis, and chlorides • Available in Monel 400 and Monel K500 grades • Slip-on design enables easy installation and welding • Flat face versions for compatibility with flat gaskets and brittle materials • Excellent mechanical properties and corrosion resistance • Custom dimensions, finishes, and face types available upon request Conclusion: DIN 2576 Monel Flanges PN 10 from Ladhani Metal Corporation deliver high corrosion resistance and mechanical strength for aggressive environments where conventional materials fail. With availability in Monel 400 and K500 grades, these flanges are suitable for marine, oil & gas, and chemical applications. For technical support, project consultation, or custom orders, contact Ladhani Metal Corporation today.