We are engaged in making Lead available in several forms including
LME registered and non registered 99.97% and 99.99% as well as
secondary ingots, foil, granules, powder, rod, shot, sheet, and wire.
Lead is a bluish-white lustrous metal. It is very soft, highly malleable, ductile, and a
relatively poor conductor of electricity. It is very resistant to corrosion but tarnishes
upon exposure to air. Alloys include pewter and solder.
Lead powder and lead concentrate are different forms of lead that serve various industrial purposes. Here's an overview of each:
Lead Powder: Form: Lead powder refers to finely ground particles of lead metal, typically in powder or granular form.
Uses:
Battery Manufacturing: Lead powder is often used in the production of lead-acid batteries.
Radiation Shielding: Lead is known for its ability to absorb and shield against radiation, and lead powder can be used in various applications where radiation protection is required.
Ammunition: Lead powder is a component in the production of ammunition and bullets.
Metal Coatings: It may be used in the manufacturing of certain types of paints and coatings.
Lead Concentrate:
Form: Lead concentrate is a raw material derived from the mining and processing of lead ores. It is not a pure form of lead but rather a mixture containing lead and other minerals.
Composition: Lead concentrate typically contains lead sulfide (galena) as the primary mineral, along with other sulfide minerals.
Processing: The lead concentrate is further processed through smelting to extract pure lead metal.
Uses: Lead concentrate is a crucial intermediate product in the production of refined lead.
It is an essential raw material for lead smelters, where the lead is separated from impurities and processed into the desired forms.
Lead concentrate may also contain valuable by-products such as silver and zinc.
Chemical properties: A soft metal (face-centered cubic) with a blue-grey color and metallic luster. Melting point: 327.5â??. Boiling point: 1740â??. Relative density: d1811.3437. Soluble in nitric acid and hot concentrated sulfuric acid, insoluble in water. Uses: Used in compound semiconductors, refrigeration elements, infrared photoelectric conversion devices, high-efficiency temperature difference elements, and solders, etc. Uses: Used as analytical reagents and reducing agents Uses: Used as high-purity analytical reagents and reducing agents Uses: Used in the manufacture of cable sheaths, storage batteries, lead alloys, pigments, ammunition, sulfuric acid production equipment, and can also be used as X-ray protection screens, nuclear reactor equipment, etc. Uses: Used in storage batteries, cables, solders, etc. Uses: Used in cables, storage batteries, babbitt alloys, type alloys, and materials for X-ray protection, etc. Uses: Reducing agent for determining tin; reducing high iron to ferrous iron; used for the separation of iridium from platinum and rubidium; alloy manufacturing Uses: Mainly used in cables, storage batteries, lead smelting, scrap copper smelting, printing, solder, etc.
Can be cater made to suit requirement at Constructions ( Plumbing and Roofing), Foundation ( Shock observer), Copper Recovery Refineries, Ferrous Tank Linings and for Radiation protection ( Hospitals and Nuclear plants)
Remelted Lead Ingots are being produced from Raw Lead / Battery Scraps / Lead Scraps and other scraps of Lead in the specially designed Blast Furnace. The Scrap is obtained and is mixed with other reducing agents in the Furnace.
Leads
Composition structure
1. There must be no molten slag, particulate oxygen, inclusions and external pollution on the surface of lead ingots.
2. Lead ingots must not have cold partitions, and must not have flash burrs larger than 10mm (repairing is allowed).
Sign
1. Each lead ingot will be cast or printed with the trademark and batch number.
2. Use paint that is not easy to fall off to mark the brand mark on the lead ingot. The color and position of the mark should meet the requirements.
3. Each bundle of lead ingots should have a striking and difficult to fall off mark, indicating the manufacturer's name, product name, brand number, batch number and net weight.
Single weight of small ingot
48kg�±3kg,42kg�±2kg,40kg�±2kg,24kg�±1kg;
Single weight of large ingot
950 kg�±50kg,500 kg�±25kg
Package
The small ingots are bundled and packed with non-corrosive packaging tape. Large ingots are supplied as bare ingots
Raw melting material - aluminum scraps, cans, engine waste etc.
Output capacity - 5-30 tons/h, customized
Automation - Full automatic/ half automatic (based on output requirement and investment budget
Ingot type - ADC12 (7.5kg/ 10kg / customized)
1. After cleaning the oil and grease of waste aluminum, manually put it into the furnace with a forklift;
2. Ignition for melting furnace .Heat up to 680C, and input appropriate proportion of alloy elements. Heat up to 800C, melt and stir evenly, then fetch samples to the spectrometer for testing.
Every lot of production need to do testing .
3. Put A tool that attracts iron into the furnace by forklift, to suck away the iron in the aluminum water.
4. Put the slag agent into Alu liquid to remove the slag. After slag removed , put the slags into Aluminum ash separation machine , and let the aluminum water and ash separate. The proportion of slag agent and aluminum liquid is 1:500
5.Open the drain valve and the aluminum water flows automatically to the ingot production line After the ingot casting is completed, the ingot stacking robot will stack the ingots, which means the production is completed.
