'hot forming fabrication'

Product name:Titanium Hemispherical Dish Head Standard: ASME VIII-I, DIN28013 Material: Titanium GR1, GR2 Size: Customized Titanium Hemispherical Dish Head Material: titanium, titanium alloy Outer diameter: dn15-dn1200 Wall thickness: sch5-sch160. Standard: ASME DIN JIS BS Scope of application: petrochemical industry, nuclear power, machinery, medical equipment, chemical fertilizer, shipbuilding, waterproof treatment, pipeline, etc Purpose: pipe fittings welded on the pipe end or installed on the external thread of the pipe end to cover and block the pipe. It is used to close the pipeline and has the same function as the pipe plug. The pipe cap includes the design of convex pipe cap, conical shell, reducing section, flat cover and tightening mouth. The most common types of spherical head: Pan head This is a spherical head. The radius of the plate is equal to the diameter of the cylinder to which it is attached. The radius of the knuckle is equal to one tenth of the diameter of the cylinder. Ellipsoidal head This is a semicircular head, also known as a semicircular ellipsoid head. The radius of the disk is 90.45% of the diameter of the cylinder (ICR=0.9045 x od). The radius of the steering knuckle is (IKR=0.1729 x od).

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.

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.

Product name:Titanium Dished Head Standard: ASME VIII-I, DIN28013 Material: Titanium GR1, GR2 Size: Customized Titanium Dished Head The most common dish heads are the Ellipsoidal head the Hemispherical head. Heads are widely used in heat exchanger/pressure vessel equipment such as power generation, seawater desalination, water treatment, chemical processing and oil and gas exploration industries. Product name: Titanium dished head Standard: According to DIN28013 Grade: GR1, GR2 Quality Inspection: 100% Ultrasonic Test and PT test after forming. Process: Cold forming and Hot forming Fabrication: According to ASME VIII-I standard. Application:Used for Pressure Vessel Equipment Classification of the head Ellipsoid head, hemispherical head and hyperboloid head are three types of ASME pressure vessel disc head. Ellipsoidal head This is also known as a 2:1 oval head. This head shape is more economical because the height of the head is only a quarter of its diameter. Its radius varies between the major axis and the minor axis. Hemispherical head A sphere is the ideal shape for the head because the pressure in the container is evenly distributed over the surface of the head. The head radius (R) is equal to the radius of the cylindrical part of the container. Spherical head of complex surface These have a disc head with a fixed radius (CR), the size of which depends on the type of spherical head. The transition between the cylinder and the plate is called the knuckle. The steering knuckle is circular. Chemical composition (Wt%) ASTM No. Fe max O max N max C max H max Pd Al Bal Grade 1 0.2 0.18 0.03 0.1 0.015 - - Ti Grade 2 0.3 0.25 0.03 0.1 0.015 - - Ti Physical Properties (Min) ASTM Grade Alloy Composition Tensile Strength Yield Strength Elongation min % ksi Mpa ksi Mpa Grade 1 Unalloyed Ti ("Pure") 35A -CP1 35 240 25 170 30 Grade 2 Unalloyed Ti ("Pure") 50A -CP2 58 400 40 275 25

Half Round Tube Shield Ladhani Metal Corporation manufactures SS 310 Half Round Straight Tube Shields to protect boiler and heat exchanger tubes from high-temperature corrosion, oxidation, and erosion. These shields are precisely engineered to conform to straight tube surfaces and serve as a protective barrier in harsh thermal environments. SS 310 is an austenitic stainless steel known for its high chromium and nickel content, offering excellent resistance to oxidation and scaling at elevated temperatures. SS 310 Half Round Straight Tube Shield The SS 310 Half Round Straight Tube Shield is specifically designed for applications involving intense heat and corrosive gas flow. With its superior resistance to oxidation and sulfidation, this shield is ideal for straight tube sections in boilers, superheaters, reformers, and high-temperature process equipment. The half-round shape allows for secure placement while maintaining ease of installation and servicing. Ladhani Metal Corporation is a reliable manufacturer, supplier, and exporter of SS 310 Half Round Straight Tube Shields, delivering high-performance tube protection solutions for power generation, petrochemical, and thermal processing industries. Material Grade SS 310 – High-temperature austenitic stainless steel with enhanced resistance to oxidation and thermal fatigue. Chemical Composition of SS 310 • Carbon (C): ≤ 0.25% • 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 Applications: Suitable for environments with elevated temperatures, thermal cycling, and aggressive flue gas exposure. Uses • Protecting straight tubes in superheaters and reheaters • Shielding economizer sections in boilers • Used in steam reformers and furnace tube systems • Applied in petrochemical heat recovery and cracking units • Installed in chemical and fertilizer plants handling hot process gases Features • High oxidation resistance – Performs reliably at temperatures up to 1100°C • Excellent scaling resistance – Chromium-nickel alloy composition minimizes metal loss • Structural integrity – Maintains strength under prolonged thermal cycling • Custom design – Fabricated to fit tube diameter, thickness, and required length • Easy to install – Secures in place with clamps, tack welds, or metal straps • Extended durability – Minimizes downtime and maintenance in harsh environments Applications • thermal power stations – Shields straight sections of superheater tubes from fly ash and flue gas erosion • oil and gas refineries – Used in fired heaters and steam reforming units exposed to hot corrosive media • waste heat recovery boilers – Enhances protection in high-velocity gas flow zones • process heating systems – Ideal for straight tubes in sulfur recovery, ammonia cracking, and hydrogen production • industrial boilers – Extends tube service life under continuous high-temperature operation Conclusion The SS 310 Half Round Straight Tube Shield from Ladhani Metal Corporation is a proven solution for tube protection in aggressive thermal environments. Its superior heat resistance, oxidation protection, and durable performance make it a trusted choice in power generation, chemical processing, and industrial boiler systems. Customizable to exact dimensions, these shields are designed for long-term service reliability. For detailed specifications, custom configurations, or orders, please 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

Half Round Tube Shield Half Round Tube Shields by Ladhani Metal Corporation are precision-designed components used to protect boiler, superheater, and heat exchanger tubes from erosion, slag accumulation, scaling, and high-temperature oxidation. These shields are essential for industrial systems exposed to intense thermal cycling, high-velocity flue gases, and corrosive atmospheres. Their half-round form ensures quick and secure installation over curved or straight tube surfaces, significantly enhancing tube durability and reducing downtime. 1Cr20Ni14Si2 U Type Outer Half Round Tube Shield The 1Cr20Ni14Si2 U Type Outer Half Round Tube Shield is made from a high-performance austenitic stainless steel alloy containing 20% chromium, 14% nickel, and approximately 2% silicon. This alloy provides excellent resistance to oxidation, high-temperature corrosion, and thermal fatigue, especially in oxidizing and carburizing environments. The outer U-type design is specifically intended to protect the outer arc of U-bend tubes in boilers, reformers, and heat exchangers, where flame, gas flow, and slag buildup cause the most wear. • Outer U Type Half Round Tube Shield – Shields the outer curvature of U-bend tubes from flame impingement, gas erosion, slag attack, and thermal scaling. Ladhani Metal Corporation is a leading manufacturer, supplier, and exporter of 1Cr20Ni14Si2 U Type Outer Half Round Tube Shields, offering custom-built shielding solutions for critical high-temperature and industrial systems. Chemical Composition of 1Cr20Ni14Si2 – Austenitic Heat-Resistant Stainless Steel • Carbon (C): ≤ 0.10% • Manganese (Mn): ≤ 1.50% • Phosphorus (P): ≤ 0.035% • Sulfur (S): ≤ 0.030% • Silicon (Si): 1.50 – 2.50% • Chromium (Cr): 19.0 – 21.0% • Nickel (Ni): 13.0 – 15.0% • Iron (Fe): Balance Applications: Best suited for high-temperature, oxidizing environments in power generation, chemical processing, and furnace systems where excellent thermal and scaling resistance are required. Uses • Outer arc protection for U-bend tubes in superheaters and reheaters in thermal power plants • Shields return bends in heat exchangers and steam reformers exposed to hot gases and flame • Used in waste heat recovery boilers (WHRBs) and HRSGs to prevent surface oxidation and slag damage • Suitable for petrochemical and chemical reactors operating under oxidizing or mildly carburizing conditions • Applied in high-temperature industrial furnaces, incinerators, and reforming equipment Features • Excellent high-temperature resistance – Withstands service temperatures up to 1100°C with minimal deformation or scaling • Oxidation and corrosion resistance – High Cr-Ni-Si composition forms a stable oxide layer for prolonged exposure protection • Outer bend coverage – Provides critical protection for the most exposed and erosion-prone section of U-bend tubes • Custom fabrication – Manufactured to match exact tube radius and diameter, ensuring a precise and stable fit • Easy installation – Secured with clamps, tack welds, or stainless steel banding without disassembly • Long-lasting performance – Enhances operational life and minimizes costly tube replacements in aggressive environments Applications • thermal and power generation – Protects outer U-bend tube surfaces from slag, soot, and flue gas corrosion • petrochemical and refining – Shields return bends in reformers and heaters exposed to oxidizing and sulfur-rich gases • waste heat recovery – Guards outer tube arcs in WHRBs and HRSGs against scaling and erosion • metallurgy and cement processing – Used in high-temperature pipelines and ducts in furnaces and kilns • process heating systems – Ideal for environments involving intense flame exposure and cyclic thermal loads Conclusion The 1Cr20Ni14Si2 U Type Outer Half Round Tube Shield by Ladhani Metal Corporation—manufacturer, supplier, and exporter—is a highly durable, heat-resistant shielding solution for protecting U-bend tube outer surfaces in extreme industrial environments. With superior resistance to oxidation, scaling, and thermal fatigue, it ensures long-term reliability and efficiency in power plants, reformers, and furnace 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 high-precision protective components designed to shield boiler and heat exchanger tubes from erosion, high-temperature scaling, and aggressive gas flows. Crafted from superior stainless steel alloys, these shields enhance equipment reliability and performance in demanding industrial conditions. SS 310 Half Round Tube Shield The SS 310 Half Round Tube Shield is a semi-circular metallic shield fabricated using premium stainless steel grade 310, known for its outstanding resistance to oxidation, scaling, and corrosion at elevated temperatures. This shield is specifically designed for use in environments involving extreme thermal cycling, aggressive combustion gases, and high mechanical stress. The half-round configuration ensures easy, secure installation over exposed tubes, forming a protective barrier that extends component life and reduces maintenance costs. Chemical Composition of SS 310 – Austenitic Stainless Steel • Carbon (C): ≤ 0.25% • 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 – Shields boiler tubes from direct exposure to high-temperature flue gases, reducing metal loss due to oxidation and abrasive ash erosion in thermal power plants. • Heat Exchanger Tube Shielding – Provides a protective layer against high-temperature corrosion and flow-induced wear, preserving efficiency and reducing failure risks. • Furnace Tube Safeguarding – Resists flame impingement and scale buildup in industrial furnaces, extending the life of radiant and convection section tubes. • Petrochemical Process Protection – Used in reactors and reformers where exposure to hot process gases and thermal cycling can severely damage unprotected tubes. • Steam Superheater and Reheater Systems – Guards tubes from surface deterioration in high-pressure steam circuits, improving operational longevity and safety. Features : • High-Temperature Resistance – SS 310 maintains structural integrity at temperatures up to 1100°C, ideal for high-heat zones in boilers and furnaces. • Corrosion and Oxidation Resistance – Superior chromium and nickel content ensures excellent resistance to oxidation, scaling, and carburization even under continuous thermal exposure. • Precision Half-Round Design – Ensures a tight, secure fit on existing tube surfaces, enabling quick installation and easy replacement without interrupting system performance. • Custom Fabrication – Available in various thicknesses, lengths, and diameters to suit different tube sizes and geometries, with optional welding or clamping attachments. • Surface Finishing Options – Offered in bright annealed, pickled, or passivated finishes for enhanced appearance and additional surface protection. Applications : • Thermal Power Plants – Protects superheater and economizer tubes from soot erosion, slagging, and thermal stress caused by high-velocity flue gases. • Oil Refineries and Petrochemical Plants – Installed on high-temperature piping and reformer tubes exposed to corrosive gases, thermal cycling, and process variability. • Heat Recovery Steam Generators (HRSGs) – Enhances tube durability in combined-cycle plants where steam tubes face aggressive exhaust gas flow. • Chemical Processing Equipment – Applied in heat exchanger and reactor tubes that handle chemically reactive or acidic compounds at elevated temperatures. • Industrial Steam Boilers – Used in high-pressure steam systems across food, textile, pulp & paper, and marine industries to extend tube life and ensure safe operation. Conclusion The SS 310 Half Round Tube Shield by Ladhani Metal Corporation is a premium solution engineered for the most demanding high-temperature and corrosive environments. Its exceptional resistance to oxidation, scaling, and thermal fatigue makes it ideal for use in power plants, refineries, and process industries where tube protection is critical for safety and efficiency. By extending the life of boiler and heat exchanger tubes, reducing downtime, and minimizing repair costs, these shields offer long-term value and dependable performance. With custom sizing, precision fabrication, and strict quality control, Ladhani Metal Corporation delivers reliable shielding solutions tailored to meet the toughest industrial challenges. For technical inquiries, customization options, or to request a quote, please contact Ladhani Metal Corporation.

Product name:Titanium Dished Head Standard: ASME VIII-I, DIN28013 Material: Titanium GR1, GR2 Size: Customized Titanium Dished Head The most common dish heads are the Ellipsoidal head the Hemispherical head. Heads are widely used in heat exchanger/pressure vessel equipment such as power generation, seawater desalination, water treatment, chemical processing and oil and gas exploration industries. Product name: Titanium dished head Standard: According to DIN28013 Grade: GR1, GR2 Quality Inspection: 100% Ultrasonic Test and PT test after forming. Process: Cold forming and Hot forming Fabrication: According to ASME VIII-I standard. Application:Used for Pressure Vessel Equipment Classification of the head Ellipsoid head, hemispherical head and hyperboloid head are three types of ASME pressure vessel disc head. Ellipsoidal head This is also known as a 2:1 oval head. This head shape is more economical because the height of the head is only a quarter of its diameter. Its radius varies between the major axis and the minor axis. Hemispherical head A sphere is the ideal shape for the head because the pressure in the container is evenly distributed over the surface of the head. The head radius (R) is equal to the radius of the cylindrical part of the container. Spherical head of complex surface These have a disc head with a fixed radius (CR), the size of which depends on the type of spherical head. The transition between the cylinder and the plate is called the knuckle. The steering knuckle is circular. Chemical composition (Wt%) ASTM No. Fe max O max N max C max H max Pd Al Bal Grade 1 0.2 0.18 0.03 0.1 0.015 - - Ti Grade 2 0.3 0.25 0.03 0.1 0.015 - - Ti Physical Properties (Min) ASTM Grade Alloy Composition Tensile Strength Yield Strength Elongation min % ksi Mpa ksi Mpa Grade 1 Unalloyed Ti ("Pure") 35A -CP1 35 240 25 170 30 Grade 2 Unalloyed Ti ("Pure") 50A -CP2 58 400 40 275 25

Ladhani Metal Corporation offers SS Insulated Pipe Shoe Clamps designed to support and secure pipelines while maintaining thermal insulation integrity. These clamps are specially engineered with insulation material between the pipe and the shoe, ensuring minimal heat transfer and preventing energy loss in high-temperature or cryogenic applications. Manufactured from high-quality stainless steel, our insulated pipe shoe clamps combine durability, corrosion resistance, and reliable performance in demanding process environments. Function of SS Insulated Pipe Shoe Clamps • Provide stable pipe support while maintaining insulation continuity • Prevent thermal bridges and reduce energy loss in piping systems • Isolate pipes from supporting structures to minimize heat transfer • Distribute loads evenly, reducing stress on pipelines and insulation • Enhance operational efficiency and protect pipeline coatings Ladhani Metal Corporation manufactures, supplies, and exports SS Insulated Pipe Shoe Clamps in different sizes and designs to meet diverse project requirements across domestic and international markets. Available Grades • SS 304 • SS 304L • SS 316 • SS 316L Applications Commonly used in industries where maintaining insulation and preventing heat loss or gain is critical. • Refineries and petrochemical plants • Cryogenic and LNG facilities • Fertilizer and chemical processing units • Power generation plants and boilers • Marine and offshore engineering projects Uses • Provides insulated support for process pipelines in hot and cold service • Prevents damage to insulation during thermal expansion and movement • Improves efficiency by maintaining process temperature control • Protects against corrosion under insulation (CUI) • Suitable for heavy-duty and high-temperature pipeline systems Features • Integrated insulation design to reduce heat transfer • High load-bearing capacity and durable construction • Resistance to corrosion and oxidation in aggressive environments • Long service life with minimal maintenance requirements • Manufactured in SS 304, 304L, 316, and 316L grades Conclusion The SS Insulated Pipe Shoe Clamp from Ladhani Metal Corporation is a reliable solution for maintaining insulation performance and structural integrity in pipeline systems. Manufactured in SS 304, SS 304L, SS 316, and SS 316L grades, these clamps provide dependable service in industries requiring thermal efficiency, durability, and corrosion resistance. For inquiries or project requirements, contact Ladhani Metal Corporation #Mumbai #Delhi #Bangalore #Hyderabad #Chennai #Kolkata #Pune #Ahmedabad #Surat #Vadodara #Rajkot #Nagpur #Indore #Bhopal #Jaipur #Lucknow #Kanpur #Patna #Ranchi #Jamshedpur #Bhubaneswar #Raipur #Visakhapatnam #Vijayawada #Coimbatore #Madurai #Kochi #Trivandrum #Tiruchirappalli #Mangalore #Mysore #Noida #Gurgaon #Faridabad #Ghaziabad #Ludhiana #Amritsar #Chandigarh #Jalandhar #Agra #Varanasi #Meerut #Aurangabad #Nashik #Solapur #Gwalior #Allahabad #Guwahati #Shillong #PipeShoeClamp #StainlessSteelPipeShoeClamp #SSPipeShoeClamp #PipeShoeClampManufacturer #PipeShoeClampSupplier #PipeShoeClampExporter #PipeShoeClampIndia #IndustrialPipeShoeClamp #HeavyDutyPipeShoeClamp #CustomPipeShoeClamp #HighQualityPipeShoeClamp #304PipeShoeClamp #316PipeShoeClamp #304LPipeShoeClamp #316LPipeShoeClamp #PipeShoeClampFittings #PipeShoeClampSupport #SS304PipeShoeClamp #SS316PipeShoeClamp #SS316LPipeShoeClamp #SS304LPipeShoeClamp #PipeShoeClampDesign #PipeShoeClampApplication #PipeShoeClampForBoilers #PipeShoeClampForRefinery #PipeShoeClampForPetrochemical #PipeShoeClampForPowerPlant #PipeShoeClampForOilAndGas #PipeShoeClampForChemicalPlant #PipeShoeClampSolutions #PipeShoeClampProducts #PipeShoeClampFabrication #PipeShoeClampInstallation #PipeShoeClampSupportSystem #PipeShoeClampAssembly #PipeShoeClampHardware #PipeShoeClampTechnology #DurablePipeShoeClamp #ReliablePipeShoeClamp #PipeShoeClampStockist #PipeShoeClampWholesale #PipeShoeClampTrading #PipeShoeClampDistribution #PipeShoeClampExports #PipeShoeClampWorldwide #PipeShoeClampIndustry #PipeShoeClampMarket #PipeShoeClampOnline #PipeShoeClampComponents #PipeShoeClampSystems