Silicon steel, medium and high carbon, hot rolled, cold rolled, rlectro-galvanized..
Carbon.
Carbon Silicon Manganese .
Brucite powder, magnesium hydroxide.
Metals & minerals, ferro alloys, carbon rasier - C82, C85, C95,C 98.5.Agent & manufacturing
Product Property: Molecular formula: Zn Molecular Weight: 65.38 Physical Property: light grey metal fine powder. Density: 7.14g/cm3 Melting Point: 419.4¡ãC Boiling Point: 908% Chemical property: insoluble in water, soluble in acid and alkali, slowly soluble in acetic acid, ammonia water, it has strong reducing performance and give out hydrogen. Lumps when being wet, keeps stable in dry air and generates white basic carbonate covering in its surface in wet air. When combusting in the air, it can generate blue green flame and generate zinc oxide. High pure zinc act slowly with sulfuric acid and nitric acid, while act fast when it contains few of other metals such as steel, tin and lead.
Commodity/Product: Electrolytic Copper Cathode Plates Fineness: 99.99% Cu; but not lower than 99.97% (inferior quality to be rejected) Quality: Non LME registered but in compliance with LME Grade A specifications Origin: Democratic Republic of Congo LME: London Metals Exchange (www.lme.com) Physical Dimensions Length 914 mm (LME standards) Width 914 mm (LME standards) Thickness 12 mm (LME standards) Net weight per sheet 125 Kg (Approx.) (+-2%) Net weight per pallet 2 Mtons (Approx.) (+-2%) Net weight per container 20 Mtons (Approx.) (+-2%) Gross weight per container 22,2 Mtons (Approx.) (+-2%) Packing palletized banded by aluminum bands Chemical Composition Elements Value Copper Cu 99.97% Min. Cobalt Co 0.2 ppm Max. Lead Pb 0.2 ppm Max. Iron Fe 2 ppm Max. Aluminum Al 0.5 ppm Max. Manganese Mn 0.1 ppm Max. Nickel Ni 0.2 ppm Max. Antimony Sb 0.1 ppm Max. Arsenic AS 0.1 ppm Max. Silica Si 0.3 ppm Max. Bismuth Bi 0.1 ppm Max. Teleurium Te 0.05 ppm Max. Silver Ag 10 ppm Max. Selenium Se 0.3 ppm Max. Sulphur S 4 ppm Max. Magnesium Mg 0.4 ppm Max. Argent Ag 10 ppm Max. Zinc Zn 0.4 ppm Max. Oxygen O2 0