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Nickel 405 (UNS N04405): Nickel 405 is a variation of Monel 400 with slightly modified chemical composition, featuring higher sulfur content. The increased sulfur content improves machinability but may slightly reduce the alloy's corrosion resistance compared to Monel 400. Despite the slight compromise in corrosion resistance, Nickel 405 still offers excellent resistance to marine environments, alkaline solutions, and acidic conditions. It is often used in applications where improved machinability is desired, such as screw machine parts, fasteners, and valve stems. Nickel 200 (UNS N02200) and Nickel 201 (UNS N02201) are commercially pure wrought nickel grades with low carbon content. They offer excellent resistance to corrosive environments, particularly alkaline solutions.
Titanium tubes come in various grades, each with specific properties suited to different applications. Titanium alloys are known for their excellent strength-to-weight ratio, corrosion resistance, and biocompatibility, making them ideal for a wide range of industries, including aerospace, medical, chemical processing, and marine. Here are some common grades of titanium tubes: Grade 1 (UNS R50250): Commercially pure titanium with excellent corrosion resistance, high ductility, and good weldability. Grade 1 titanium tubes are often used in applications where corrosion resistance and formability are essential, such as chemical processing equipment, heat exchangers, and marine components. Grade 2 (UNS R50400): Commercially pure titanium with slightly higher oxygen content than Grade 1, resulting in improved formability and moderate strength. Grade 2 titanium tubes are widely used in aerospace, marine, and medical applications, as well as in heat exchangers, piping systems, and condensers. Grade 5 (Ti-6Al-4V, UNS R56400): An alpha-beta titanium alloy containing 6% aluminum and 4% vanadium, offering excellent strength, toughness, and corrosion resistance. Grade 5 titanium tubes are commonly used in aerospace, automotive, and biomedical applications, as well as in high-performance sports equipment and marine components. Grade 9 (Ti-3Al-2.5V, UNS R56320): An alpha-beta titanium alloy containing 3% aluminum and 2.5% vanadium, providing a good balance of strength, weldability, and corrosion resistance. Grade 9 titanium tubes are often used in aerospace structures, bicycle frames, and marine components where high strength and corrosion resistance are required. Grade 12 (Ti-0.3-Mo-0.8Ni, UNS R53400): An alpha-beta titanium alloy containing 0.3% molybdenum and 0.8% nickel, offering excellent corrosion resistance in oxidizing and reducing environments. Grade 12 titanium tubes are commonly used in chemical processing, desalination plants, and marine applications where resistance to chlorides and seawater is critical. Grade 23 (Ti-6Al-4V ELI, UNS R56401): An extra-low interstitial version of Grade 5 titanium with enhanced fracture toughness and biocompatibility, suitable for medical implants and surgical instruments. These are some of the commonly used grades of titanium tubes. The selection of the appropriate grade depends on factors such as mechanical properties, corrosion resistance, temperature requirements, and cost considerations. It's important to consult with suppliers or engineers to choose the right grade for your specific application needs.
Aluminum is a versatile material used in various industries due to its lightweight, corrosion resistance, and excellent thermal and electrical conductivity. Aluminum sheets, pipes, and coils come in different grades, each suited to specific applications. Here are some common grades: Aluminum Sheets: 1000 Series: Commercially pure aluminum with excellent corrosion resistance, high thermal and electrical conductivity. Common alloys include 1050, 1060, and 1100. 3000 Series: Aluminum-manganese alloys with moderate strength and good formability. Alloy 3003 is widely used in general fabrication, cooking utensils, and chemical equipment. 5000 Series: Aluminum-magnesium alloys with good weldability and corrosion resistance. Alloy 5052 is commonly used in marine applications, vehicle bodies, and electronic enclosures. 6000 Series: Aluminum-magnesium-silicon alloys with good formability and strength. Alloy 6061 is widely used in structural components, aircraft fittings, and automotive parts. 7000 Series: Aluminum-zinc-magnesium alloys with high strength. Alloy 7075 is one of the strongest aluminum alloys and is used in aerospace, military applications, and high-stress structural components. Aluminum Pipes: 6061-T6: A commonly used alloy in structural applications due to its high strength, corrosion resistance, and excellent weldability. 6063-T6: Known for its good formability, surface finish, and moderate strength, making it suitable for architectural applications and extruded shapes. 5086: A marine-grade alloy with excellent corrosion resistance, often used in boat hulls, pressure vessels, and cryogenic applications. Aluminum Coils: 1100: A commercially pure aluminum grade with excellent corrosion resistance and high electrical conductivity, used in applications requiring high thermal conductivity. 3003: A general-purpose alloy with good formability and weldability, commonly used in packaging, signage, and building facades. 5052: A high-strength alloy with good formability and corrosion resistance, used in marine, automotive, and electronic applications. 6061: A versatile alloy with excellent machinability and weldability, used in aerospace, marine, and automotive components. Each grade of aluminum offers specific properties suited to different applications. The selection of the appropriate grade depends on factors such as mechanical properties, corrosion resistance, formability, and cost considerations. It's important to consult with material suppliers or engineers to choose the right grade for your specific application requirements.
Carbon steel pipes come in various grades, each with specific properties and applications. The choice of grade depends on factors such as the intended use, operating conditions, and required mechanical properties. Here are some common grades of carbon steel pipes: ASTM A53/A53M: Grade A: This grade is typically used for non-pressure applications and is suitable for welding and forming operations. Grade B: Grade B is the most commonly used grade and is suitable for conveying fluids and gases under high pressure and temperature conditions. ASTM A106/A106M: Grade A: This grade is suitable for low-temperature applications and is commonly used in refineries and plants where corrosion resistance is not a concern. Grade B: Grade B is the most commonly used grade and is suitable for high-temperature and high-pressure applications such as steam, water, and oil transportation in refineries and plants. Grade C: This grade is commonly used for low-temperature applications and offers better impact properties than Grades A and B. ASTM A333/A333M: Grade 1: This grade is suitable for low-temperature applications down to -50�°F (-45�°C) and is commonly used in refineries, chemical plants, and power plants. Grade 3: Grade 3 offers good impact properties and is suitable for low-temperature applications down to -150�°F (-101�°C). Grade 6: Grade 6 is the most commonly used grade and offers excellent impact properties at low temperatures down to -50�°F (-45�°C). API 5L: Grade A: This grade is suitable for conveying low-pressure fluids and is commonly used in the transportation of natural gas and petroleum products. Grade B: Grade B is the most commonly used grade and is suitable for conveying fluids under high pressure and temperature conditions. X42, X52, X60, X65, X70, X80: These grades offer higher strength and are suitable for conveying fluids in demanding environments such as offshore drilling rigs and pipelines. ASTM A672/A672M: Grades A45, A50, A55, A60, A65, A70: These grades are electric-fusion-welded steel pipes suitable for high-pressure service at moderate temperatures. ASTM A691/A691M: Grades CM-65, CM-70, CM-75: These grades are electric-fusion-welded steel pipes suitable for high-pressure service at high temperatures. These are some of the commonly used grades of carbon steel pipes. Each grade has specific chemical composition and mechanical properties designed to meet various industry standards and applications. It's essential to consult relevant standards and specifications to select the appropriate grade for specific project requirements.
Duplex stainless steel comes in several grades, each with its own specific composition and properties. The most common duplex stainless steel grades are: Duplex 2205 (UNS S32205/S31803): This grade contains approximately 22% chromium, 5-6% nickel, 3% molybdenum, and a small amount of nitrogen. Duplex 2205 offers excellent corrosion resistance in a wide range of corrosive environments, including chloride-containing media such as seawater and brine solutions. It has high strength and good weldability, making it suitable for various applications in industries such as oil and gas, chemical processing, and marine engineering. Duplex 2507 (UNS S32750): Duplex 2507 contains higher chromium (24-26%), molybdenum (3-5%), and nitrogen compared to Duplex 2205. This grade offers superior corrosion resistance and higher strength than Duplex 2205, particularly in highly corrosive environments with high chloride content. Duplex 2507 is often used in aggressive environments such as offshore oil and gas production, chemical processing, and desalination plants. Duplex 2304 (UNS S32304): Duplex 2304 contains lower chromium (21-23%), nickel (3.5-5.5%), and molybdenum (0.05-0.6%) compared to Duplex 2205 and 2507. It offers good corrosion resistance in mild to moderately corrosive environments and higher strength than austenitic stainless steels. Duplex 2304 is commonly used in structural and architectural applications, as well as in chemical processing equipment and transportation vessels. Duplex LDX2101 (UNS S32101): Duplex LDX2101 contains lower chromium (21.5-22.5%), nickel (1.5-2.5%), and molybdenum (0.1-0.8%) compared to other duplex grades. It offers good corrosion resistance, high strength, and low thermal expansion, making it suitable for structural and industrial applications. Duplex LDX2101 is often used in structural components, storage tanks, and transportation equipment. These are some of the most commonly used grades of duplex stainless steel. Each grade offers a unique balance of corrosion resistance, mechanical properties, and cost-effectiveness, allowing engineers and designers to select the most suitable grade for specific applications based on performance requirements and environmental conditions.
Stainless steel sheets/plates are commonly used in industries such as construction, automotive, aerospace, food processing, pharmaceuticals, and many others. They come in various grades and finishes, each suited to different applications and environments. Some common grades of stainless steel include: Austenitic stainless steel (e.g., 304, 316): Known for their excellent corrosion resistance, good formability, and weldability. Ferritic stainless steel (e.g., 430): Generally less corrosion-resistant than austenitic grades but offers good resistance to stress corrosion cracking and higher strength. Martensitic stainless steel (e.g., 410, 420): Known for their high strength and hardness but with lower corrosion resistance compared to austenitic and ferritic grades. Stainless steel sheets/plates come in various sizes, thicknesses, and surface finishes. They can be cold rolled, hot rolled, or even fabricated to custom specifications. The choice of grade, thickness, and finish depends on the specific requirements of the application, such as structural integrity, aesthetic appeal, and environmental conditions. Common surface finishes for stainless steel sheets/plates include: #1 (HRAP) - Hot Rolled Annealed and Pickled #2D - Dull Cold Rolled Finish #2B - Bright Cold Rolled Finish #3 - Coarse Abrasive Finish #4 - Brushed or Satin Finish #8 - Mirror Finish Stainless steel sheets/plates can be further processed through cutting, bending, welding, and other fabrication methods to meet the exact needs of a project. They offer versatility, durability, and a sleek appearance, making them a popular choice in various industries.
Raymond Tube Industries proudly offers a comprehensive selection of stainless steel coils in all grades to fulfill diverse industrial needs. Our coils are meticulously crafted to exhibit exceptional quality, durability, and reliability across various applications. Whether you require coils in AISI 304, 304L, 310, 316, 316L, 321, 410, 420, or any other grade, we provide a wide range of options to suit your specific requirements. From standard sizes to custom specifications, our stainless steel coils are manufactured to meet stringent quality standards and exceed your expectations. Contact Raymond Tube Industries today to explore our extensive range of stainless steel coils in all grades.
Raymond Tube Industries offers a comprehensive range of stainless steel seamless pipes in all grades to cater to diverse industrial requirements. Crafted with precision and expertise, our seamless pipes are renowned for their exceptional quality, durability, and reliability. Whether you need pipes in grade AISI 304, 304L, 310, 316, 316L, 321, 410, 420, or any other grade, we have you covered. From standard sizes to custom specifications, we ensure that our stainless steel seamless pipes meet the highest standards and exceed your expectations. Contact Raymond Tube Industries today to explore our complete range of stainless steel seamless pipes in all grades.
Iron ore pellets ready stock on port for loading 100000 MT (another 200000 MT on port in 50 days) Specs per SGS Report Fe 64%, SIO2 3.44%, AL203 2.73%, CaO 1.92%, MgO 0.10%, P 0.044%, S 0.005% Tumbler (%+6.3mm) 95.20, Abrasion (%-0.5mm) 3.55, Compression Strength (Kg/Pellet) 241kg/Pellet. Porosity 22.60%, Bulk Density T/M3 2.18 T/m3. Sizes +8-18mm 91.62%, +18mm 0.85%, 5mm 4.50% Moisture (Fair Weather Season) 2.01%. Origin India. Payment by TT/ LC at Sight, Shipment FOB.
Place of Origin -Hebei, China Model Number -KPGC Usage -Eletric Distribution Power Product name -JBT COPPER PG CLAMP Material -Copper,Aluminum, Aluminum Alloy Standard -IEC 61238-1 Type -JBT Conductor Range -16-150mm2 16-150mm2 -ACSR, AAAC
Minor Metals Non-ferrous metals are divided into basic metals and minor metals. Minor metals are called minor metals because they are relatively small units. Metal minor types are: Magnesium ingot antimony ingot; Electrolytic manganese. Cadmium ingots and bars; Electrolytic cobalt; Pure bismuth; pure chromium metal; Titanium sponge; Zirconium sponge; Silicon metal; Indium; Calcium; Tungsten bars; Selenium ingot; Potassium; Sodium; Niobium; Vanadium; Hafnium; Gallium. Beryllium. Molybdenum; Metal lithium; Tellurium; Germanium ingots. Rhenium. Metal arsenic. Different Kinds of Minor Metals From HSG 01 Chromium Metal Chromium metal is mainly used in nickel base, cobalt base superalloy, aluminum alloy, titanium alloy, resistance alloy, corrosion resistant alloy, iron base heat resistant alloy and stainless steel production. Industrial production of chromium metal has two kinds, one is thermite chromium, block, silver bright color, metallic luster, containing Cr> 98%, according to the use of impurities have different requirements; The other is electrolytic chromium, sheet, dark brown surface, after hydrogen refining surface bright, containing Cr> 99%. How is Minor Metals Produced and Manufactured? During the minor metals manufacturing from refractory metal suppliers, the main downstream products of rare earths, the main products in the small metal industry, are catalysts, permanent magnets and glass, which account for 21%, 18% and 16% of the demand for rare earths, respectively. The downstream products of tungsten are mainly hard alloy, alloy steel and tungsten, whose demand for tungsten accounts for 52%, 30% and 13% respectively. Molybdenum is mainly used in construction steel, stainless steel, catalyst and chemical industry and tool steel and other fields, among which the former two demand for molybdenum accounted for more than 60% of the total market demand for molybdenum. In addition, antimony is mainly used in flame retardant, tin is mainly used in solder, indium is mainly used in indium tin, and germanium is mainly used in PET, optical fiber and infrared optics, not mainly used in aluminum alloy, casting and steel making desulfurization and other fields.
Typical Analysis Range Element (%) Zn 45% - 60% Fe 0.01% - 1.0% Cu 0.01% - 0.09% S 20.0% - 22.0% Pb 0.01% - 0.5% Cd 0.01% As
It is thus anticipated that ASTM B168 UNS N06600 will not oxidize. As a result, logical linkages and applications tend toward oxidation. Applications and associations that are accustomed to high temperatures or stress have a direct bearing on this. 2,4816 When heated, foil migrates toward a thick layer of stable, passivated oxide. This layer protects the metal from further attacks that break it down. Customers refer to Inconel Alloy 600 Bend for high-temperature applications due of its exceptional temperature adaptability. This is because normal steel and aluminum will typically be bombed against creep by the thermally actuated gem opening. Because UNS N06600 Hot Rolled Plate is treated with a plan fortification cycle and precipitation setting process, it has a high degree of flexibility. The amazing content of base part nickel in Inconel 600 Contamination Rolled Plate results in an aftereffect of protection against crumbling, while the high security from oxidation is an instant consequence of the substance of chromium in it. These plates have been passed back and forth among us for a very long time. Our goods are produced in compliance with standard procedure. This helps us to provide Alloy 600 Shim Sheet to our regular customers and to thoughtfully handle large orders.
(1) Manganese and manganese alloy is one of the indispensable raw materials in the iron and steel industry, aluminum alloy industry, magnetic material industry and chemical industry. (2) Manganese Metal is an indispensable additive in smelting industry. Electrolytic metal manganese processing into powder is the main raw material for the production of manganese tetroxide. (3) Electrolytic manganese metal due to its high purity, low impurity characteristics, has been successfully and widely used in iron and steel smelting, non-ferrous metallurgy, electronic technology, chemical industry, environmental protection, food hygiene, electrode industry, aerospace industry and other fields. (4) The purity of electrolytic manganese is very high, its role is to increase the hardness of metal materials, the most widely used in manganese copper alloy, manganese aluminum alloy, 200 series stainless steel. Manganese in these alloys can improve the strength, toughness, wear resistance and corrosion resistance of the alloy.
(1) Manganese and manganese alloy is one of the indispensable raw materials in the iron and steel industry, aluminium alloy industry, magnetic material industry and chemical industry. (2) Manganese Metal is an indispensable additive in smelting industry. Electrolytic metal manganese processing into powder is the main raw material for the production of manganese tetroxide. (3) Electrolytic manganese metal due to its high purity, low impurity characteristics, has been successfully and widely used in iron and steel smelting, non-ferrous metallurgy, electronic technology, chemical industry, environmental protection, food hygiene, electrode industry, aerospace industry and other fields. (4) The purity of electrolytic manganese is very high, its role is to increase the hardness of metal materials, the most widely used in manganese copper alloy, manganese aluminium alloy, 200 series stainless steel. Manganese in these alloys can improve the strength, toughness, wear resistance and corrosion resistance of the alloy.
Incoloy 825 flanges are integral components in piping systems, crafted from the robust nickel-iron-chromium alloy Incoloy 825. Renowned for its exceptional corrosion resistance, these flanges are particularly well-suited for applications involving aggressive chemical environments and challenging conditions. The alloy's composition, which includes molybdenum, copper, and titanium, ensures not only resistance to corrosive agents but also imparts high-temperature strength.
Magnesium ingot Features: 1.Corrosion resistance and light weight. 2.The density of magnesium is 1.74g/cm3 which is even lighter than aluminum 2.7g/cm3, but mechanical strength and chemical stability are much better than aluminum. 3.Magnesium can be directly related to nitrogen, sulfur and halogen such as chemical combination, including hydrocarbons, aldehydes, alcohols, phenols, amines, grease and most of the oil pharmaceutical . Chemical composition : Mg Ingot Brand Chemical composition Mg Fe Si Ni Cu Al Cl Mn others Mg99.98 99.98 0.002 0.003 0.002 0.0005 0.004 -- 0.002 0.02 Mg99.96 99.96 0.004 0.004 0.0002 0.002 0.006 0.003 0.003 0.04 Mg99.95 99.95 0.004 0.005 0.0007 0.003 0.006 0.003 0.01 0.05 Mg99.9 99.9 0.04 0.01 0.001 0.004 0.02 0.005 0.03 0.1 Mg99.8 99.8 0.05 0.03 0.002 0.02 0.05 0.005 0.06 0.2 Application : 1.Magnesium alloys can be used to manufacture aircraft fuselages,engine parts, etc. 2.As strong reducing agent for titanium, zirconium, beryllium, uranium and hafnium production. 3. Magnesium metal is the main alloying element in aluminum alloy 4.Magnesium powder can be used as desulfurizer for steel making. 5. Magnesium also used to make photography and optical instruments, etc. 6.Can be used to produce magnesium fertilizer, promote the absorption and utilization of phosphorus by plants. 7.As an additive agent in conventional propellants and the production of nodular graphite in cast iron.
Webster Hardness Tester Webster hardness tester is the first choice for testing the properties of aluminum alloy materials. The webster tester is easy to use, just need to clamp the work piece, and the hardness value can be read directly, with high efficiency and good reliability. Webster hardness tester can be used to quickly detect the hardness of aluminum alloy profiles, pipes, plates, aluminum alloy parts and soft metals such as copper, brass and mild steel. The webster hardness tester is especially suitable for rapid and non-destructive piece-by-piece qualification inspection of batch products at production site, sales site or construction site. Types of Webster Hardness Tester Webster Hardness Tester for Aluminum Webster Hardenss Tester for Brass & Copper Webster Hardenss Tester for Stainless Steel As a hardness tester factory, we will do our best to meet all the needs of customers.
The phase conductor is concentrically stranded, compressed soft copper or 1350-H16/26 aluminum alloy Cable is composed of the conductor with moisture block in the strands, covered by a semi-conducting cross-linked polyethylene strand shield, a tree-retardant cross-linked polyethylene primary insulation, and a semi-conducting cross-linked polyethylene insulation shield Conductors are available with either 100% or 133% insulation levels Concentric neutral of bare copper wires and an insulating polyethylene jacket is applied over the insulation shield Cable identified by surface print on the jacket and with the lightning bolt symbol for supply cables indented in the jacket
