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Product Name: Titanium Gr 2 flanges
Standard: ASME B16.5
Material: Gr2
Unit Price: $25usd/pc-$85usd/pc
Sealing Surface: RF, FF, TG, RJ etc.
Size: NPS 1/2 - NPS 24(DN 10 - 2000)
Pressure: 150#-2500#
Grade 2 titanium is the most commonly requested in the pipeline valve and fittings industry, with high strength and corrosion resistance. Titanium is generally used in applications that require high temperature and high pressure service but are lighter in weight. Some good examples are components in the aerospace industry (airframe frames) and state-of-the-art equipment in the military. Given its excellent corrosion resistance in marine and chloride applications, titanium flanges are also popular as offshore drilling components and heat exchanger components.
When you need a metal with good overall formability and workability, please choose titanium. It has the capability of hot or cold forming while maintaining its excellent mechanical properties. For transportation to your work site, it is good to know that titanium is much lighter than regular steel (about 40-45% lighter). Although not as light as aluminum, our titanium flanges and fittings are easier to handle during welding and installation.
Chemical composition (Wt%)
ASTM No.
Fe max
O max
N max
C max
H max
Pd
Al
Bal
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 2
Unalloyed Ti ("Pure") 50A -CP2
64
440
46
320
18
DIN 2527 SS 321 Blind Flanges are specialized components used in industrial piping systems to close off the ends of pipes or equipment where no further connection is necessary. A blind flange is a solid, flat disc without a central bore, specifically designed to seal the open end of a pipe or a vessel. The DIN 2527 standard, developed by the German Institute for Standardization, defines the specifications for these flanges, ensuring that they meet high standards for dimensional accuracy, pressure tolerance, and mechanical strength.
The SS 321 material, used for the production of these blind flanges, is an austenitic stainless steel known for its excellent resistance to high-temperature oxidation, corrosion, and scaling. The addition of titanium to this steel stabilizes its structure, making it suitable for environments where temperatures fluctuate or are consistently high. As a result, SS 321 blind flanges are frequently used in industries where both strength and resistance to harsh environmental conditions are paramount, including the chemical, petrochemical, aerospace, and power generation industries.
By utilizing DIN 2527 SS 321 Blind Flanges, companies can ensure secure, long-lasting, and efficient closures for piping systems under challenging operational conditions. These flanges are essential in maintaining the integrity of systems exposed to elevated pressures and corrosive substances, ensuring the safe containment of fluids and gases.
key Features of DIN 2527 SS 321 Blind Flanges:
Material Composition of SS 321:
Carbon (C): ≤ 0.08%
Chromium (Cr): 17.0 - 19.0%
Nickel (Ni): 9.0 - 12.0%
Titanium (Ti): 5 times the carbon content, generally around 0.60% minimum, to prevent carbide precipitation.
Manganese (Mn): 2.00% max
Silicon (Si): 1.00% max
Phosphorus (P): 0.045% max
Sulfur (S): 0.030% max
Pressure and Temperature Resistance:
Operating Temperature: SS 321 can perform well in high-temperature environments, up to 900°C (1650°F) intermittently and up to around 700°C (1292°F) for continuous service.
Design and Dimensions of DIN 2527 Blind Flanges:
Pressure Ratings: The design of a DIN 2527 blind flange is primarily based on pressure class ratings (such as PN6, PN10, PN16, etc.), which denote the maximum pressure the flange can safely withstand.
Bolt Holes: The number and size of bolt holes for DIN 2527 blind flanges are specified according to the flange's pressure class and size. The bolt pattern is designed to ensure a tight seal and accommodate appropriate bolt sizes for a given pressure class.
Thickness: The thickness of a blind flange can vary depending on the pressure rating and size, with thicker flanges being required for higher pressure applications.
Nominal Diameter: Blind flanges are available in various nominal pipe diameters (DN) ranging from DN10 (1/2 inch) up to DN600 (24 inches) or more.
Types of DIN 2527 SS 321 Blind Flanges:
Standard Blind Flange (Type A): A solid, circular flange used to seal the end of a pipe or vessel. Common for general applications.
Flat-Faced Blind Flange: Has a flat sealing surface, ideal for low-pressure systems and tight sealing.
Raised Face Blind Flange: Features a raised surface around the center for better sealing in higher pressure systems.
Ring-Type Joint (RTJ) Blind Flange: Has a groove for an RTJ gasket, designed for high-pressure applications, often used in the oil and gas industry.
Long Weld Neck Blind Flange: Has an extended neck for welding, providing additional strength and used in high-pressure or stressed systems.
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 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.
Tungsten-Copper Alloy Bars/Rods are composite materials consisting of a blend of tungsten (W) and copper (Cu), offering a unique combination of the distinct properties of both metals. These alloys are typically used in applications that require both high density, heat resistance, and good electrical or thermal conductivity. The tungsten-copper composite is particularly valued in industries where high performance is required under extreme conditions, such as aerospace, electronics, and manufacturing.
Characteristics:
· High Density: Tungsten copper alloys have a density that lies between pure tungsten and pure copper, making them dense and stable for applications requiring mass and weight.
· Thermal Conductivity: These alloys offer superior thermal conductivity compared to pure tungsten, thanks to the copper content. This makes them ideal for heat dissipation in high-temperature environments.
· Electrical Conductivity: Copper provides high electrical conductivity, so tungsten-copper alloys are often used in electrical and electronic applications where heat resistance and electrical performance are both crucial.
· Strength and Hardness: Tungsten copper alloys retain much of the high-strength and heat-resistant properties of tungsten, but with improved machinability and ductility due to the copper content. The specific hardness and strength depend on the proportion of tungsten, with higher tungsten content leading to greater hardness and heat resistance.
· Thermal Expansion: The addition of copper modifies the alloy's coefficient of thermal expansion, giving it better dimensional stability compared to pure tungsten, which is important in applications where precision and tight tolerances are required.
Applications:
· Electrical and Electronic Components: Tungsten copper alloys are widely used in the electronics industry for electrical contacts, electrical conductors, commutators, and electrode materials for arc welding. They are also used in heat sinks and power transmission components where efficient heat dissipation is essential.
· Aerospace and Defense: Due to their high-density and heat-resistance properties, these alloys are used in aerospace components, including rocket nozzles, heat shields, and circuit breakers in extreme conditions. The thermal stability makes them effective in environments with significant temperature fluctuations.
· Manufacturing: Tungsten copper alloy rods are used in the production of high-performance tooling, such as die-casting dies, molds, and cutting tools, where both strength and heat management are critical.
· Welding and Soldering: In high-current electrical applications, these alloys are also used for welding electrodes and soldering tips, where both electrical conductivity and heat resistance are required.
Product name:Titanium sheet for knife making
Grades: Gr5(Ti6Al4V)
Standard: ASTM B265/ASME B265
Dimension: Thickness*Width:200-3000mm*Length:500-6000mm
Supply status: Annealed(M)
Package: Carton or plywood case
Usually, the titanium alloy plate used for knife is Grade 5 (Ti6Al4V). This grade titanium material is one of the most widely used materials in titanium alloys. It has the same advantages as pure titanium: corrosion resistance, non-toxic, light weight, etc. There are also many of other advantages over pure titanium: higher hardness, tensile strength, yield strength and elongation. Can meet the needs of making knife.
Titanium is a good material for knives if your main concern is light weight and corrosion resistance. Titanium knives are ideal for anyone who spends a lot of time around water or performs jobs that require frequent blade cleaning.
Product name:Titanium sheet for knife making
Grades: Gr5(Ti6Al4V)
Standard: ASTM B265/ASME B265
Dimension: Thickness1-150mm*Width:200-3000mm*Length:500-6000mm
Supply status: Annealed(M)
Package: Carton or plywood case.
MTC: EN10204.3.1 certificate
MOQ : 10kgs
Titanium plate applications
EN 10088 SS X6CrMo17-1 is a ferritic stainless steel grade containing approximately 17% chromium and 1% molybdenum. The addition of molybdenum significantly enhances its resistance to pitting, crevice corrosion, and chloride-induced attack, making it suitable for moderately aggressive environments. This steel combines excellent corrosion resistance, oxidation stability, and good formability, making it a preferred material for components exposed to moisture, salt, and heat.
Ladhani Metal Corporation is a leading manufacturer, supplier, and exporter of EN 10088 SS X6CrMo17-1 Coil, as well as Sheet, Plate, and Strip. Our coils are available in various dimensions, tempers, and finishes such as 2B, BA, and No.4 polish, ensuring suitability for both industrial and decorative applications. All products are manufactured in compliance with international quality standards to deliver superior durability and performance.
Forms Available: coil, sheet, plate, strip
Chemical Composition (%):
• Carbon (C): ≤ 0.08
• Silicon (Si): ≤ 1.00
• Manganese (Mn): ≤ 1.00
• Phosphorus (P): ≤ 0.040
• Sulphur (S): ≤ 0.015
• Chromium (Cr): 16.0 – 18.0
• Molybdenum (Mo): 0.80 – 1.20
Mechanical Properties:
• Tensile Strength: 430 – 650 MPa
• Yield Strength (0.2% Proof): ≥ 250 MPa
• Elongation: ≥ 20%
• Hardness (HB): ≤ 200
Key Features:
• Excellent resistance to pitting and crevice corrosion due to molybdenum addition
• Superior oxidation and scaling resistance up to 800°C
• Good weldability and forming properties
• Magnetic structure with high mechanical strength
• Enhanced corrosion resistance in chloride-containing environments
Material Characteristics:
EN 10088 SS X6CrMo17-1 Coil exhibits improved corrosion resistance compared to standard ferritic grades such as X6Cr17, particularly in chloride and acidic environments. The molybdenum addition increases resistance to localized corrosion, while the ferritic structure provides dimensional stability and low thermal expansion. It performs exceptionally well under heat exposure and retains its mechanical properties after repeated thermal cycles. The coil form allows easy processing into strips, panels, and fabricated components for industrial and consumer applications.
Applications:
• Heat exchangers and condenser tubes
• Automotive exhaust components
• Food processing and kitchen equipment
• Chemical processing and marine equipment
• Building facades and decorative panels
Conclusion:
Ladhani Metal Corporation supplies high-quality EN 10088 SS X6CrMo17-1 Coil, Sheet, Plate, and Strip designed for superior corrosion resistance and long-term reliability. Our products ensure consistent performance across diverse industrial environments. For technical details, specific dimensions, or custom manufacturing inquiries, please contact Ladhani Metal Corporation – your trusted partner for stainless steel solutions.
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