The advantages of silicon carbon alloy

Using silicon carbon alloy to solve the raw molten steel of gray cast iron can significantly change the crystal characteristics of molten steel, reduce the trend of ash mouth and remove the anti-ash mouth. The tendency of the ash gate to reverse ash gate is related to the nuclear generation capacity of high purity graphite. It can be felt that the silicon carbon alloy has a creative use for the original molten steel solution. The weakened use of the silicon carbon alloy after the post-creation solution is probably due to the coincidence of the graphitization effect of the post-creation and the use of the silicon carbon alloy. Even so, it is expected that the silicon-carbon alloy solution may weaken the interdependence of the condensation mechanism and the post-creation solution, which may improve the reliability of the mechanism characteristics. Silicon-carbon alloy is different from ferrosilicon, silicon-carbon alloy has a very high solubility point, and then molten iron is not melting but gradually melting, in the whole process of melting to show the surrounding silicon atoms and oxygen atoms. When Si-C alloy is melted in molten iron, full-layer fine high-purity graphite particles are generated around it. Although such high-purity graphite particles can be remelted, full-layer oxygen atom group companies are generated. This oxygen atom group company is the basic supercooling of high-purity graphite components later.

Silicon carbon alloy can optimize the crystal, improve the compressive strength, improve the ductility, water leakage prevention, so that the waste rate is reduced, the return rate is reduced, in addition to silicon carbon alloy is convenient to use, bag packaging, easy storage. It is very easy to grasp the application amount and then more waste steel can be added to obtain ideal casting parts. Silicon carbon alloy can also replace 75 ferrosilicon, reduce the use of carburizing agent and reduce the forging cost.