At Ladhani Metal Corporation, we rely on advanced, durable, and highly resistant Titanium Tanks and Vessels in our state-of-the-art gold and silver refining processes to meet the highest industry standards of efficiency and quality. Titanium, known for its exceptional strength, lightweight nature, and superior corrosion resistance, is the perfect material for handling the challenging and chemically aggressive processes involved in precious metal refining. Titanium Tanks and Vessels are critical components in ensuring the refined metals remain pure and free from contaminants, which is a paramount concern in the production of high-quality gold and silver. These tanks and vessels are custom-designed to withstand the demanding conditions of refining, where harsh chemicals, high temperatures, and reactive agents are frequently used. Key Features and Advantages of Titanium Tanks and Vessels: Unmatched Corrosion Resistance: Titanium's resistance to corrosion in both oxidizing and reducing environments makes it ideal for gold and silver refining operations. High Strength and Durability: Titanium exhibits extraordinary strength even at high temperatures, allowing our refining plant to maintain operational efficiency without concerns about material failure. Precision and Purity Assurance: Titanium's non-reactive nature ensures that it does not introduce any impurities into the refining solution, which is critical when producing high-purity gold and silver. As precious metals are refined, any contaminant introduced through the process can significantly reduce the quality of the final product. Titanium's inert properties prevent such risks, allowing for the highest-quality output. Optimal Design for Efficient Operations: The Titanium Tanks and Vessels are designed with precision to optimize chemical mixing, temperature regulation, and overall process control, contributing to the efficiency of the refining operations. Their advanced engineering ensures minimal energy loss and greater process consistency, which translates to better yields and faster turnaround times in the refining cycle. Applications in Gold and Silver Refining: Electrolytic Refining: Titanium vessels are used to hold the electrolyte solutions during electrorefining processes, which are crucial for separating pure gold and silver from impurities. The non-reactive properties of titanium ensure that the refining chemicals do not degrade the container or contaminate the solution. Aqua Regia Processing: When gold is dissolved in aqua regia for further separation and purification, the highly corrosive nature of this acid mixture makes titanium an ideal material for containing the solution without causing any damage to the vessel. Conclusion: The Titanium Tanks and Vessels at Ladhani Metal Corporation are integral to the efficiency, safety, and success of our precious metal refining operations. By leveraging the unique properties of titanium, we ensure that our gold and silver refining processes produce the highest purity metals while maintaining cost-effectiveness, operational longevity, and minimal maintenance requirements. Our commitment to using the best materials in the industry translates to superior results and a refined product that meets the exacting standards of our clients.

Ladhani Metal Corporation is a manufacturer and stockist of a wide range of titanium valves, including: Titanium Full Bore and Flanged Valves, Titanium Needle Valves, Titanium Check Valves, Titanium Globe Valves, Titanium Gate Valves, Titanium Y Strainers, and other titanium forged fittings. Titanium valves are available in a variety of material grades, ranging from the most commonly used Grade 2 to alloyed titanium grades such as Gr. 5, Gr. 7, and Gr. 12. Titanium alloys are also known as R50400, R50550, and R56400 in UNS. Titanium valves are designed as per ANSI B16.34. Titanium valves are primarily made from ASTM B381 Grade F2 and F5. We manufacture our ball valves entirely from titanium, including: Titanium Ball Titanium Body Titanium Handle Titanium Fasteners Titanium Flange Ladhani Metal Corporation is a manufacturer, exporter, and supplier of titanium ball valves. Our Titanium Ball Valve Products: 1000 - 6000 PSI Two-Piece Full Bore Ball Valve 1000 - 6000 PSI Three-Piece Full Bore Ball Valve ANSI Class 150 – 900 Two-Piece Flanged Ball Valve ANSI Class 150 – 900 Two-Piece Flanged Ball Valve Design Features: Full Bar Machined Construction Valve Design as per ANSI B16.34 2-Piece Body Design, Full Bore Blow-Out-Proof Stem Design Flange Face to Face: ANSI B16.10 Class 150/300 RF Flange Dimension: ANSI B16.5 Class 150/300 End Type: Screwed & Welded End NACE MR0175 is available Ladhani Metal Corporation can also manufacture titanium ball valves in grades such as Titanium Grade 1, Titanium Grade 2, Titanium Grade 5, Titanium Grade 9, Titanium Grade 6, and Titanium Grade 23. Available at the following locations: Coimbatore, Rudrapur, Bhilai, Raigarh, Navi Mumbai, Aluva, Vijayawada, Firozabad, Panna, Panipat, Channapatna, Varanasi, Moradabad, Bareilly, Jamshedpur, Tiruppur, Rajahmundry, Bokaro Steel City, Kolkata, Durgapur, Kharagpur, Hosdurg, Haldia, Indore, Pithampur, Belagavi, Dibrugarh, Palakkad, Delhi, Noida, Kannur, Salem, Sivakasi, Kanpur, Rajkot, Kochi, Peenya, Surat, Rourkela, Visakhapatnam, Angul, Ahmedabad, Gandhinagar, Jamnagar, Vadodara, Bharuch-Ankleshwar, Ludhiana, Pimpri-Chinchwad, Mumbai, Bangalore, Thiruvananthapuram, Thrissur, Gajraula, Unnao, Sri City, Margao, Kunnamkulam, Darjeeling, Nashik, Chennai, Hosur, Haridwar, Faridabad, Mathura, Gurugram, Baddi, Calicut, Pune, Aurangabad, Nagpur, Mirzapur, Perambra, Muzaffarnagar, Meerut, Saharanpur, Bulandshahr, Ichalkaranji, Muvattupuzha, Aligarh, Anjar, Bardoli, Chittaranjan, Hyderabad, Jharia, Morbi, Nepanagar, Kollam, Tiruvalla, Kottayam, Idukki, Alappuzha, Cherthala, Alwaye, Ambattur, Ambarnath, Amritsar, Avadi, Ankleshwar, Bhadravati, Cochin, Dindigul, Ennore, Guntur, Kagithapuram, Kalpakkam, Kollegal, Kolar, Lucknow, Mysore, Nandambakkam, Nangal, Neyveli, Ooty, Perambur, Pinjore, Rupnarayanpur, Renukoot, Sindri, Singhbhum, Sirpur, Udhana, Urkunta, Worli, Zaina Kot. We are an exporter to the following countries: Russia, Canada, United States, China, Brazil, Australia, Argentina, Kazakhstan, Algeria, Democratic Republic of the Congo, Denmark, Saudi Arabia, Mexico, Indonesia, Sudan, Libya, Iran, Mongolia, Peru, Chad, Niger, Angola, Mali, South Africa, Colombia, Ethiopia, Bolivia, Mauritania, Egypt, Tanzania, Nigeria, Venezuela, Namibia, Mozambique, Pakistan, Turkey, Chile, Zambia, Myanmar, Afghanistan, South Sudan, France, Somalia, Central African Republic, Ukraine, Madagascar, Botswana, Kenya, Yemen, Thailand, Spain, Turkmenistan, Cameroon, Papua New Guinea, Sweden, Uzbekistan, Morocco, Iraq, Paraguay, Zimbabwe, Norway, Japan, Germany, Republic of the Congo, Finland, Vietnam, Malaysia, Côte d'Ivoire, Poland, Oman, Italy, Philippines, Ecuador, Burkina Faso, New Zealand, Gabon, United Kingdom, Guinea, Uganda, Ghana, Romania, Laos, Guyana, Belarus, Kyrgyzstan, Senegal, Syria, Cambodia, Uruguay, and Suriname.

A Molybdenum Block is a solid, rectangular or square piece of molybdenum metal, widely used in industrial and commercial applications that require exceptional heat resistance, strength, and durability. Molybdenum is a refractory metal known for its high melting point, corrosion resistance, and mechanical properties, making molybdenum blocks an ideal choice for use in extreme environments. Key Features of Molybdenum Blocks: o High Melting Point: Molybdenum has an exceptionally high melting point of around 2,623°C (4,753°F), allowing molybdenum blocks to perform effectively in high-temperature applications, such as furnace components, aerospace, and other industries where elevated temperatures are a concern. o Excellent Mechanical Strength: Molybdenum blocks possess excellent tensile strength, ensuring they maintain their shape and structural integrity even under heavy loads and mechanical stress. This makes them suitable for demanding environments where other materials may fail. o Corrosion and Oxidation Resistance: Molybdenum is highly resistant to oxidation and corrosion, even at elevated temperatures, which makes molybdenum blocks ideal for applications in chemically aggressive environments like chemical processing, heat exchangers, and reactors. o Thermal and Electrical Conductivity: Molybdenum has good thermal and electrical conductivity, which is particularly valuable in applications requiring efficient heat transfer or electrical performance, such as in electronics, electrical contacts, and semiconductors. o Workability: Although molybdenum is a relatively hard metal at room temperature, it can be machined and fabricated into precise shapes and sizes, including blocks, to meet specific requirements for industrial applications. Molybdenum blocks can be easily cut, milled, or ground to create custom shapes and finishes. o Ductility at High Temperatures: At elevated temperatures, molybdenum becomes more ductile, allowing it to be easily processed into complex shapes and designs when necessary. Common Applications: o Aerospace and Aviation: Molybdenum blocks are used in the manufacturing of aerospace components such as heat shields, turbine blades, and rocket nozzles due to their ability to withstand extreme heat and mechanical stress. o Chemical Processing: Molybdenum blocks are used in reactors, heat exchangers, and other equipment in the chemical and petrochemical industries. Their resistance to corrosion and high-temperature stability makes them suitable for handling aggressive chemicals and high-pressure conditions. o Electronics and Electrical Engineering: Molybdenum blocks are employed in electronics, such as in the production of filaments, cathodes, and components for vacuum tubes. Their thermal and electrical conductivity makes them ideal for these applications. o Metallurgy: Molybdenum blocks are commonly used in the manufacturing of specialty steel alloys, improving the strength and heat resistance of steel products. They are also used in producing molds, dies, and other metalworking tools. o Energy Sector: Molybdenum blocks are used in the energy industry, particularly in nuclear reactors, where their resistance to radiation and high temperatures is critical.

Molybdenum plates are flat, solid sheets of molybdenum metal, renowned for their outstanding properties such as high temperature resistance, strength, and corrosion resistance. These plates are primarily used in demanding industrial applications where materials need to perform under extreme conditions. Key Features of Molybdenum Plates: o High Melting Point: Molybdenum has a very high melting point of about 2,623°C (4,753°F), which makes it ideal for use in high-temperature environments such as aerospace, metal processing, and furnace construction. o Strength and Durability: Molybdenum plates maintain excellent mechanical strength and can withstand heavy stress and pressure without deformation. This makes them suitable for structural components in industries like aerospace and manufacturing. o Corrosion and Oxidation Resistance: Molybdenum is highly resistant to corrosion, especially in high-temperature conditions, which makes molybdenum plates ideal for use in chemically aggressive environments such as chemical processing plants. o Thermal and Electrical Conductivity: Molybdenum has good thermal and electrical conductivity, making it an ideal material for specialized applications in electronics and electrical components, such as filaments, electrodes, and connectors. o Workability: Despite being a hard and brittle metal at room temperature, molybdenum can be processed into thin plates with precise dimensions and surface finishes, making it versatile for various applications. o Ductility at Elevated Temperatures: Molybdenum's ductility increases at higher temperatures, allowing it to be shaped and fabricated into complex parts for industrial use. Common Applications: o Aerospace and Aviation: Molybdenum plates are used in the production of heat shields, turbine blades, and components for jet engines due to their ability to withstand high temperatures and stress. o Chemical and Petrochemical Industries: Molybdenum plates are employed in the construction of reactors, furnace linings, and other equipment that needs to resist harsh chemical environments at high temperatures. o Electronics and Electrical Engineering: Molybdenum plates are used in applications like electrical contacts, semiconductors, and components for vacuum tubes and other high-performance electronic devices. o Metallurgical Industry: Molybdenum plates are often used in the manufacturing of steel alloys and other metals to enhance strength, durability, and resistance to high temperatures.

A Molybdenum Disc is a flat, circular-shaped piece of molybdenum metal, commonly used in various high-performance applications that require excellent thermal conductivity, high-temperature resistance, and mechanical strength. Molybdenum, a transition metal, is known for its outstanding properties, which make it suitable for demanding environments in industries such as aerospace, electronics, and metallurgy. Key Features of Molybdenum Discs: o High Melting Point: Molybdenum has a very high melting point of approximately 2,623°C (4,753°F), allowing it to perform under extreme temperatures without losing its structural integrity. This makes it ideal for high-temperature applications like aerospace and industrial furnaces. o Excellent Strength and Durability: Molybdenum discs possess superior mechanical strength, maintaining their rigidity and resilience under stress. They can withstand heavy loads and maintain their shape even in harsh working conditions. o Corrosion and Oxidation Resistance: Molybdenum discs are highly resistant to oxidation and corrosion, especially at elevated temperatures. This property makes them suitable for use in chemical processing, reactors, and other environments prone to corrosive elements. o Thermal and Electrical Conductivity: Molybdenum exhibits good thermal and electrical conductivity, which is particularly useful in applications requiring efficient heat transfer and electrical performance, such as in electronics or semiconductor manufacturing. o Workability: Molybdenum is a tough, but ductile metal at high temperatures, allowing molybdenum discs to be fabricated with high precision into specific dimensions, surface finishes, and designs tailored to particular industrial needs. o Versatility: Molybdenum discs can be customized to different diameters, thicknesses, and surface finishes, making them adaptable for a wide range of applications. Common Applications: o Aerospace Industry: Molybdenum discs are used in components such as heat shields, rocket nozzles, and turbine blades due to their ability to endure high temperatures and mechanical stress. o Electronics and Electrical Applications: Molybdenum discs are employed in the manufacture of electrical contacts, filaments, and electrodes. Their good electrical conductivity and resistance to high temperatures make them valuable for vacuum tubes, semiconductors, and other electronic devices. o Chemical Processing: Molybdenum discs are used in the construction of equipment for the chemical and petrochemical industries, including reactors, heat exchangers, and other high-temperature processing units due to their corrosion and oxidation resistance.

A Molybdenum Industrial Ring is a circular component made from molybdenum metal, designed for use in demanding industrial applications where high strength, thermal stability, and corrosion resistance are crucial. Molybdenum, known for its exceptional high-temperature properties and durability, makes these industrial rings highly suitable for environments that require reliable, long-lasting performance. Key Features of Molybdenum Industrial Rings: o High Melting Point: Molybdenum has a melting point of around 2,623°C (4,753°F), which enables it to withstand extremely high temperatures without degrading. This makes molybdenum industrial rings ideal for use in furnaces, reactors, and other high-temperature processes. o Strength and Durability: Molybdenum industrial rings are characterized by their excellent mechanical properties, including superior tensile strength and resistance to wear and deformation. This ensures that the rings maintain their shape and functionality under stress. o Corrosion and Oxidation Resistance: Molybdenum's resistance to corrosion, especially at high temperatures, makes these industrial rings suitable for use in harsh chemical environments, including petrochemical, nuclear, and other processing industries where exposure to aggressive substances is common. o Thermal and Electrical Conductivity: Molybdenum has good thermal and electrical conductivity, allowing it to be used effectively in applications where efficient heat transfer and electrical performance are required. This makes molybdenum industrial rings useful in electronics and energy industries. o Precision and Customization: Molybdenum industrial rings can be manufactured with precise dimensions, surface finishes, and tolerances to meet the specific requirements of each application. This makes them versatile and adaptable for a wide range of industrial needs. Common Applications: o Aerospace Industry: Molybdenum industrial rings are used in aerospace components such as turbine blades, rocket engine parts, and heat shields due to their ability to withstand high temperatures and mechanical stresses. o Chemical and Petrochemical Industries: Molybdenum rings are used in reactors, heat exchangers, and other chemical processing equipment where resistance to corrosion and high-temperature conditions is essential. o Electronics and Electrical Applications: Molybdenum industrial rings are employed in electronic devices, electrical contacts, and filaments, where their thermal and electrical conductivity properties are advantageous. o Steel Manufacturing and Metallurgy: Molybdenum rings are used in steel alloys to improve their strength, durability, and resistance to heat. They are also used in manufacturing molds and tools that require precision and high-temperature performance. o Energy Sector: In the nuclear and energy industries, molybdenum industrial rings are used in components that must endure high radiation and thermal conditions.

A pure tungsten bar rod is a solid, cylindrical piece of tungsten metal, typically used in various high-performance industrial and scientific applications. Tungsten is renowned for its exceptional physical properties, which make it an ideal material for extreme conditions. Here's a more detailed description: Key Characteristics of a Pure Tungsten Bar Rod: Material Composition: 99.95% Tungsten (W): A pure tungsten rod is composed entirely of tungsten, without any alloys or significant impurities. This ensures the rod has the full range of tungsten's advantageous properties. Melting Point: Tungsten's melting point is extremely high at 3,422°C (6,192°F), which makes it ideal for high-temperature applications, such as aerospace and military uses. Strength and Durability: The tungsten rod is extremely strong and wear-resistant. It has a tensile strength of around 1510 MPa, making it suitable for heavy-duty, high-stress applications. Corrosion Resistance: Pure tungsten rods exhibit strong resistance to corrosion, oxidation, and other forms of environmental degradation, even at elevated temperatures. Uses of Pure Tungsten Bar Rods: Aerospace & Defense: Tungsten rods are used in applications like rocket nozzles, spacecraft components, and military hardware. Their high density and ability to withstand extreme temperatures make them valuable in these fields. Medical Applications: Tungsten rods are employed in radiation shielding and in medical imaging devices like X-ray machines, where their high density helps to absorb harmful radiation. Machining & Manufacturing: Tungsten rods are used as tools or as part of tooling systems for machining metals, particularly in high-speed or high-precision operations. Specialty Manufacturing: Tungsten rods are often used in the production of custom components that need to operate in harsh environments, such as semiconductor manufacturing or nuclear reactors.

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

A pure tungsten industrial ring is a heavy-duty ring made from 99.95% pure tungsten metal, designed primarily for use in industrial settings or for specialized applications. These rings combine the exceptional physical properties of tungsten—such as its strength, heat resistance, and durability—with a rugged, functional design suited for demanding environments. Key Characteristics of a Pure Tungsten Industrial Ring: 99.95% Pure Tungsten (W): The industrial ring is made from pure tungsten, meaning it contains no alloys or impurities. This ensures the ring has the full range of tungsten's natural advantages, such as superior strength and resilience. High Strength and Durability: Tungsten is one of the hardest metals, with a high hardness rating on the Mohs scale (around 8.5-9). This gives the industrial ring exceptional wear resistance and helps it withstand abrasions, impacts, and stresses over extended periods, even in the toughest conditions. Heat Resistance: Tungsten has an extremely high melting point of 3,422°C (6,192°F), making it ideal for high-temperature environments. A pure tungsten industrial ring will retain its shape and integrity even under intense heat, making it useful for industries where high heat exposure is common, such as manufacturing, aerospace, and welding. Corrosion and Oxidation Resistance: Pure tungsten is highly resistant to corrosion and oxidation, which means the industrial ring will not rust or degrade even when exposed to moisture, chemicals, or harsh environmental conditions, ensuring long-term reliability in a variety of industrial settings. Density and Weight: Tungsten is a dense material (around 19.25 g/cm³), making the ring relatively heavy compared to rings made from other materials. This weight not only gives it a substantial, solid feel but also contributes to its durability, ensuring that the ring remains functional and robust even under heavy use. Applications of Pure Tungsten Industrial Rings: Manufacturing and Machinery: Tungsten industrial rings are used in machinery, equipment, and tooling systems where components need to endure extreme wear and stress. The high strength and resistance to abrasion make tungsten an excellent material for parts subjected to constant friction or high pressure. Aerospace and Defense: Due to tungsten's strength and high heat resistance, industrial rings made from pure tungsten are used in aerospace and military applications, such as rocket nozzles, defense components, and aircraft engines, where durability and high-temperature resistance are critical. Mining and Construction: In the mining and construction industries, where equipment and tools are subjected to heavy wear and rough handling, tungsten rings are used for parts that require exceptional hardness and resilience. Heavy-Duty Industrial Use: Pure tungsten industrial rings are also used in industrial applications such as drill bits, cutting tools, counterweights, and other components where the material's density and strength are crucial to performance.