Spectro Alloys and Pigments is a leading manufacturer of pure lead. Customers can also avail 99.97%++ pure lead from Spectro Alloys which have min. impurities. In the manufacturing of Pure Lead, then we try to maintain 99.97% purity level, which is used in manufacturing 99% of pure lead products. We use refined lead ingots for manufacturing, where we maintain the quality of the product. These refined lead ingots are tested with Optical Emission Photo Spectrophotometer which shows accuracy levels of elements up to 5 decimal of accuracy. We are a whole hearted pure lead manufacturer which supplies pure lead products manufactured from remelted lead ingots or lead scraps which are accessed from the process of Pyro-metallurgy.
1518 Anodes Of 88 Kg Each With A Total Of 121.5 Tons. Approx. Value Usd917.05 Ex Work Mine. Skills Requirement Anodes: Technical Description: 1. The Surface Of The Anode Plate Is A Lead-based Alloy Rolled Plate, And The Composition Of The Lead Alloy Plate: Sn: 0.8â?¡0.02%, Ca: 0.08-0.1%; 2. Lead Raw Materials Used In Lead Alloys Are Pb 99.99 Lead Ingots Specified In Gb/t 469: The Chemical Composition Of Copper Conductive Beams Is T2 Red Copper Specified In Gb5231; 3. The Quality Of Lead Alloy Plate Refers To Ys/t 498-2006, The Surface Is Smooth, Clean And Flat, No Cracks, Layers And Slag Inclusions Are Allowed; 4. The Thickness Of The Lead-coated Layer Is Uniform And Tightly Bonded With The Copper Rod, The Surface Is Smooth Without Flash, Burr, Pores And Inclusions, And The Surface Has No Deep Scratches; 5. The Welding Seam Is Welded By The Reverse Button Method (the Plate And The Beam Have Dovetail Grooves) To Ensure The Welding Seam Of The Beam And The Plate Is Firm.
Lead, aluminum alloy.
Lead metal, lead ingots (purity 99.97% min), refined lead ingots (purity 99.97% min), lead alloy e, lead alloy with antimony and tin, lead antimony alloy, zinc oxide (purity 99.50% min), red lead, litharge yellow powder.
Lead ingots.
Lead alloys, selenium alloy, antimony alloy, pure lead and battery alloy.
Remelted lead ingots, pure lead ingots, lead alloys, lead oxides, lead wire, lead sheets.
Lead powder, lead alloys, lead alloy-e, lead bullions, red lead, grey oxide, lead sheets, lead bricks, lead wires, lead wool, lead pipes, lead foils, polypropylene chips, polypropylene granules, litharge, lead monoxide, lead sheath, lead anode, lead for radiation shielding.
Copper cathode, lead chip, pewter ingot, lead ingot, lead alloy & pure tin ingot.Transport & shipping
About Lead Refining Lead recycled from used lead acid batteries or other sources (Secondary Smelting) via the Mini Blast Furnace or Rotary Furnace route, contains lot of contamination and undesired components. On the other hand, Lead required for battery manufacturing is either soft Lead with 99.97% purity or hard Lead of varying Antimony compositions. In order to make quality of lead suitable for its different uses, different variations of pot melting processes are employed. These include Re-Melting for removal of slag, Refining” for attaining required purity levels and Alloying for producing various alloys of lead. The equipments used are the same, the consumables and the processes, however, differ. Description of Melting Pot The Melting Pot (or Refining Pot or Alloying Pot, as it is variously called), is a mechanical mixing device with a pot and a heating arrangement. The inner pot is made of heavy MS plate with dish end bottom. It is placed within a jacket of refractory bricks, which in turn, are protected by an outer cover of MS plate with reinforcements. The pot is covered at the top with opening for feeding lead ingots and is provided with an electro-mechanical mixer. At the bottom, a heating source, usually an oil fired burner, is provided to heat the pot and to melt the lead. Once lead melts, impurities are skimmed and removed and any consumables required are added. Lead is then drained from the pot through an outlet pipe and valve. Capacity of such pots depends upon the requirements of particular units. Standard pot capacities made are from 4.0 TpB to 20.0 TpB. Higher capacity pots are also manufactured as required by any particular establishment. A typical 10.0 TpB Refining Pot has the following standard sizes and specifications: Diameter (ID) 1150mm Height 1250mm (Dish Depth of 200mm) Flange Width 350mm Outer Shell Diameter 1900mm Stirrer MoC & Dia SS-304 & 75mm Stirrer Motor 5.0 HP x 960 RPM Outlet Valve Size 40mm Burner Diesel Fired Fuel Consumption Range 8-18kg ltr Melting pots are installed both with and without accessories which may include Ingot Casting Machine, Ball Making Machine (where Ball Mills are installed down the line), Air Pollution Control Systems, Jib Cranes etc. Production Process Melting Processes have been grouped as Re-Melting Process Refining Process Alloying Process Re-Melting Process This process is undertaken for value addition to the recycled lead from furnaces. Lead is melted in the pot and major impurities are skimmed from it to make it saleable in the market. Refining Process Lead is melted in the pot, additives such as Sulphur, Wooden Powder and Coke Breeze are added and mixed gently followed by dross removal. Thereafter, Tin is added to remove Copper and temperature is increased to 550-6000C. Further, additives such as Sodium Nitrate & Caustic Soda are added to remove Antimony. This process is repeated to get the desired purity of lead. Alloying Process Lead is melted in the pot, additives such as Sulphur, Wooden Powder & Coke Breeze are added and mixed gently followed by dross removal. Thereafter, Tin & Antimony are added to the liquid metal to get the desired grade of Lead. Air Pollution Control Device for Refining Pot Melting processes lead to generation of air pollution at the following stages Initial heating and melting generates fumes Drossing with sulphur, wooden powder and coke breeze generates lot of smoke and dust particles Further heating for Refining and Alloying with different chemicals generates fumes and dust particles. Hence, to meet various goals of maintaining employees' health, factory environments as well as regulatory requirements, it becomes imperative to get high end Air Pollution Control Systems to be installed with the Melting Pots. Air Pollution Control Device for Refining Pot Dust : 500-600 mg/Nm Temperature : 60-80C G Gases : Fumes and Dust Discharge Characteristics required as per Norms Dust : Less than 50 mg/Nm Lead ( Pb) : Less than 10 mg/Nm Temperature : 50-60 C Gases : Not Detectable Selection of Technology for Air Pollution Control Based on the Parameters and the Standards mentioned, the following technology is adopted for Air Pollution Control System in Melting Pot: Pulse Jet based Bag House Filtration System Details of Air Pollution Control Device with functions Aerodynamically designed suction hoods are provided to capture flue gases generated at source itself. Duct & Bends Ducts and bends are required to convey flue gases from point of suction to final top of the chimney and connect various equipments like suction hood, bag house, ID fan and chimney. All bends and reducers are aerodynamically designed and have provision of manhole cleaning mechanism. Bag Filtration System: It is used for final filtration of flue gases to remove fine dust particulate matter using Pulse Jet Technology. Treated gases from all the bags are collected at top of bag house and passed through ID Fan to exhaust the same to chimney. The dust is collected at bottom of hopper and is discharged through Rotary Air Lock Valve. Bag Filtration System It is used for final filtration of flue gases to remove fine dust particulate matter using Pulse Jet Technology. Treated gases from all the bags are collected at top of bag house and passed through the ID Fan to exhaust the same through chimney. The dust is collected at bottom of hopper and is discharged through Rotary Air Lock Valve. ID Fan ID Fan provides necessary driving force to convey flue gases from top of furnace to top of the chimney. The volume sucked overcome the total resistance offered by equipment and duct with the help of fluid horse power provided by ID Fan driven by suitable motor. Stack (Chimney) The generated gases are passed to atmosphere after treatment through chimney of suitable height and diameter. At the time of Delivery
Pb 40-60%
Industrially, its most important compounds are lead oxides and lead tetraethyl. Lead forms alloys with many metals and is generally used in this form in most applications. All alloys formed with tin, copper, arsenic, antimony, bismuth, cadmium and sodium have industrial importance. Our ingots guarantee maximum quality and durability. 12- 18- 24KG
Pure lead, refined lead 99.97%, remelted lead, soft lead, lead oxide, lead sub-oxide, grey oxide, litharge, red lead, lead alloy, antimonial lead, lead sheets, lead coil, lead wire, lead bricks, lead pipe, lead wool, lead powder, lead cames, lead ore, lead concentrate, lead dust, battery scrap.Turnkey project & consultation
Lead, lead alloys & lead products, aluminium alloys & plastic granules.Manufacturer, turnkey solutions for recycling industry and consultancy
Tin alloy, lead and zinc alloy ingots.
Tin and lead alloys, solder, pewter, bearing alloys..
Price: -17%LME Origin: United States Delivery: FOB Payment terms:15% down payment through bank transfer followed by an irrevocable & confirmed documentary letter of credit payable against documents at the seller's bank.
Lead ingots, alloy, lead oxides.
Copper rod, aluminum rod and lead alloy plate continuous casting and rolling line.
Lead sheets, lead wire, lead bricks, lead powder, lead anode, lead sub-oxide, lead pipe, litharge, red lead, pure lead, lead alloys..Deliver a complete range of services and reliable turnkey solutions for the used lead-acid battery recycling and pollution control for battery manufacturing industry.