Metal tin is mainly used in the manufacture of alloys. Tin and sulfur compounds - tin sulfide, which is similar in color to gold, is commonly used as a gold pigment. Tin's modern application is as a solder for the electronics industry. Used in various purities and alloys (often with lead or indium), tin solders have a low melting point, which makes them suitable for bonding materials. Standard ASTM B29-03, BS EN 12659:1999, GB/T 469 -2005 , Content Pb â?¥ 99.99 % Density 11.34 g / cm 2 Color Bluish Weight 35 kgs / lump, 55 kgs / lump Dimension 21" x 4" x 2.5" Package Standard Sea-worthy package, fixed by belt per ton Shape Rectangular Lump Application lead-acid storage batteries Ammunition, cable sheathing, and building construction materials counterweights, battery clamps cast products such as: bearings, ballast, gaskets, type metal, terne plate, and foil Container Size 20Gp - 2.352(width) *2.385 ( Height ) * 5.90 ( Inside length ) Meter 40Gp - 2.352(width) *2.385 ( Height ) * 11.8 ( Inside length ) Meter 40HQ - 2.352(width) *2.69 ( Width ) * 5.90 ( Inside length ) Meter
430 Annealed Stainless Steel Strip Extra Bright Annealed Soft Temper 430 Stainless Strip Steel is the most popular of all the straight chrome stainless steels Its principal use is for decorative purposes Because of its excellent heat and corrosion resistant properties its ductility and because it costs less than the chromenickel grades this Type 430 Stainless Steel Strip is used in countless applications These uses are primarily for stainless and decorative purposes including household appliances metal molding metal trim cabinet hardware hinges drawn and formed parts and stampings Type 430 Ferritic Stainless Steel Strip Characterisings Corrosion and heat resistant Ductility at about 75 of low carbon strip Similar to chromium grades with stretcher strains Roping can result from excessive stretching Able to weld for nonrigorous service Magnetic in all conditions Tensile strength annealed condition minimum of 65000 PSI yield of 30000 PSI elongation at 22
The magnets are composed of neodymium, iron, boron and a few transition metals. Sintered ndfeb magnets are the most powerful permanent magnets available today. It has a combination of very high remanence and coercivity, and comes with a wide range of grades, sizes and shapes such as rings, blocks, discs and segments. With its excellent magnetic characteristics and abundant raw material, ndfeb magnet offers more flexibility in designing of new or replace the traditional magnet materials such as ferrite, alnico and sm-co to achieve high efficiency, low cost and more compact devices. Ndfeb magnet is highly susceptible to corrosion and coating is always necessary. Frequently they are plated in nickel, zinc, tin and epoxy resin.
Sintered ndfeb Standard cartoon
Sintered ndfeb
Customized Super Strong Sintered NdFeB Block Square Permanent Neodymium Magnet Model Number:N35 Type:Permanent Composite:NdFeB Magnet Application:Industrial Magnet Tolerance:�±1% Processing Service:Punching Grade:NdFeB Magnet Delivery Time:15 days Coercivity:876(KA/m) remanence:1.17(T) Intrinsic coercivity:260(KA/m) Maximum magnetic energy product:3.41(KJ/m3) density:7.8(g/cm3) Operating temperature:80 (â??) Product Informati0n: Model Number N35 Type Permanent Composite NdFeB Magnet Application Industrial Magnet Tolerance �±1% Processing Service Punching Grade NdFeB Magnet Delivery Time 15 days Coercivity 876(KA/m) Remanence 1.17T Maximum magnetic energy product 3.41(KJ/m3) Density 7.8 (g/cm3) Operating temperature 80 () Curie temperature 200 ()
Sintered ferrite We are the supplier of sintered ferrite with more than 20 years experience. We can provide ferrite magnets to our customer with the best quality and the lowest price.
Iron ores are the raw material used to make iron and steel. Iron ore production has significantly expanded in recent years, owing to increasing steel demands in developing countries, such as China. As the content of iron ore in deposits has deteriorated, low-grade iron ore has been processed. Iron ore concentrate is an output product from processed iron ores that have been milled (crush, grind, magnetic separation, flotation) to separate deleterious elements and produce a high-quality product. Sintering and pelletizing are economic and widely used agglomeration processes to prepare iron ore fines/iron concentrate for ironmaking use. The quality requirements of sinter and pellet, such as physical, chemical, and metallurgical specifications, depend on each ironmaking furnace, and those requirements influence the operation of the iron ore sintering and pelletizing plant. Researchers have usually focused on the effect of the chemical, physical, and mineralogical characteristics of iron ore on these steps and the consequences for sinter/pellet quality and sintering/pelletizing performance. The present Special Issue on Iron Concentrate Particles will summarize the progress achieved in the last five years.
Our iron ore pellets and fines are made from magnetite and have high iron ore content pellets at around 67 percent concentration and fines over 70 percent. This means they have lower impact on the environment than competing pellets and products such as sintered hematite fines. Using pellets instead of sinter (slightly larger pieces of iron ore) in customers pig iron processes saves emissions at steel plants. The high concentration of iron combined with the carefully tested and balanced additives in our pellets also result in lower emissions in customers ironmaking processes.
