Foundry coke Model No. FC-01 FC-02 FC-03 Fixed carbon(Min) 90% 88% 86% Ash(Max) 8% 10% 12% Volaltie matter(Max) 1.5% 1.5% 1.5% Sulfur(Max) 0.6% 0.6% 0.6% Moisture(Max) 7% 8% 8% Size 10-30mm,20-40mm,30-80mm,90-150mm,120-250mm
Foundry coke is widely used in iron making because of its special physical and chemical characteristics. It's the main cupola molten iron fuel, foundry coke plays an important role in melting furnace charge and overheat the molten iron, support stock column, maintain good air permeability. Therefore, foundry coke with large size,low reactivity, low porosity, sufficient impact resistance and crushing strength, low ash and sulfur content, it is popular in the international markets.
Calcined Bauxite Al2O3 70% to 90% available
Galvanized GL GI coil DX51D G30 G60 G90 z20-z275g/m2 0.2mm-2mm
carbon steel U channel steel UPN80, UPN100, UPN120, UPN140, UPN160, UPN180, UPN200 etc length 6meters shipment: in container or bulk carrier monthly supply quantity : more than 1000tons
ductile cast iron pipe DN80,DN100,DN150,DN200,DN250,DN300,DN350,DN400,DN500,DN600,DN700,DN800,DM900,DN1000,DN1200M,DN1600,DN1800,DN2000 cement lining, epoxy painting, zinc coating Grade: K9, C25, C30,C40 used for water pipeline
carbon steel angle bar 20x20, 25x25, 30x30, 40x40, 45x45, 50x50, 56x56, 63x63, 70x70, 75x75, 80x80, 90x90, 100x100, 125x125, 140x140, 160x160, 180x180, 200x200, 40x25, 75x50, 80x50, 100x80, 125x80, 140x90, 160x100 etc Q235B, Q355B, A572 GR50, SS400, A36 grade month supply quantity: 1000tons
steel rebar HRB400 HRB500 GR40 GR60 6mm,8mm,10mm,12mm,14mm,16mm,18mm,20mm,22mm,25mm,28mm,30mm,32mm etc length: 6m, 9m,12m supply quantity is 10000tons monthly
Anhydrous aluminium silicate / Molochite powder
Phonolite / Calcined Phonolite powder
Mn3O4 powder / Manganese tetraoxide / Trimanganese tetraoxide
Palladium Catalyst We are the leading provider of Palladium Catalyst. These products are identified amid patrons for their noticeable features such as longer life, durability and nominal cost.
Cooper Catalyst We are extremely engaged in providing Copper Catalyst for Nitrogen Deoxo. These products are recognized in the market for their top features. Copper catalyst for PSA Nitrogen Generator Copper De-Oxo Genuine deoxo copper catalyst for your nitrogen generator Guaranteed performance Irrespective of which make Nitrogen generator you have, we can supply you the correct copper catalyst What is Copper Catalyst? For production of high purity gases such as Nitrogen, requires use of high activity catalysts for the removal of impurities. Oxygen is a major impurity in inert or reactive gases and therefore reducing its concentration is a subject of continual interest. Chemisorption with subsequent catalytic reaction always offers an economical and effective way to purify gases. Copper catalysts are frequently used in the above described applications. The goal of using copper catalyst is the removal of oxygen from nitrogen, thereby delivering high quality inert gas with ppm levels of Oxygen remaining.
Nickel Catalyst Nickel-based catalysts are the most frequently used in reforming reactions due to Câ??C bond rupture capability. Nickel has been generally supported onto alumina because of its ability to withstand reaction conditions
Ceramic Balls : We are the pioneers in manufacturing high-grade Common Ceramic Balls used as a grinding medium in the ceramic industry. They are highly strong and non-reactive to acids and alkali. The products have been made with good quality ingredients. We are well equipped for handling bulk orders and are prompt with deliveries.
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.
Copper tubes come in various grades, each with specific properties suited to different applications. The most common grades of copper tubes include: ASTM B88 (Type K, L, M): Type K: This grade of copper tube has thick walls and is typically used for underground water services and distribution. Type L: Type L copper tubes have medium thickness walls and are commonly used for residential water supply lines, refrigerant lines, and heating systems. Type M: Type M copper tubes have thin walls and are suitable for general residential and commercial plumbing applications where pressures are relatively low. ASTM B280: ASTM B280 copper tubes are seamless, drawn-copper tubes used for refrigeration and air conditioning systems, as well as in heating applications. These tubes are available in various tempers, such as annealed (soft) and drawn (hard), to suit different installation requirements. ASTM B75 (Type K, L): Type K: Similar to ASTM B88 Type K, these tubes have thick walls and are commonly used for underground water services and distribution. Type L: Similar to ASTM B88 Type L, Type L tubes have medium thickness walls and are suitable for residential water supply lines and refrigerant lines. ASTM B88 (Type ACR): ACR (Air Conditioning and Refrigeration) copper tubes are specially designed for use in air conditioning and refrigeration systems. These tubes are typically annealed for ease of bending and are available in various sizes to accommodate different system requirements. ASTM B819: ASTM B819 copper tubes are seamless copper tubes specifically designed for medical gas systems. These tubes are cleaned and capped to meet stringent purity requirements for medical gas applications. Copper-Nickel Alloys: Copper-nickel tubes, such as CuNi 90/10 (90% copper, 10% nickel) and CuNi 70/30 (70% copper, 30% nickel), offer excellent corrosion resistance and are commonly used in marine and offshore applications, as well as in heat exchangers and condensers in aggressive environments. These are some of the commonly used grades of copper tubes. The selection of the appropriate grade depends on factors such as application requirements, operating conditions, and regulatory standards. 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.
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.
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.
