Ferric silicon
Ferric silicon Basic information
- Product Name:
- Ferric silicon
- Synonyms:
-
- IRON SILICIDE
- ferric silicon
- Ferrosilicon,with not less than 30% but less than 90% silicon
- FERROSILICON
- Ferrosilicon 75
- FERRO SILICA
- NLT72%Si
- Alcoa Ferrosilicon
- CAS:
- 8049-17-0
- MF:
- FeSi2
- MW:
- 112.02
- EINECS:
- 227-712-6
- Mol File:
- 8049-17-0.mol
Ferric silicon Chemical Properties
- Melting point:
- 1,36°C
- Density
- 4,75 g/cm3
- RTECS
- LK1400000
- form
- Granules
- color
- Gray
- Specific Gravity
- 4.75
- Water Solubility
- Insoluble in water.
- Hydrolytic Sensitivity
- 2: reacts with aqueous acid
- Dielectric constant
- 10.0(Ambient)
- Stability:
- Stability
- CAS DataBase Reference
- 8049-17-0
- EPA Substance Registry System
- Ferrosilicon (8049-17-0)
MSDS
- Language:English Provider:Ferric silicon
- Language:English Provider:ALFA
Ferric silicon Usage And Synthesis
Uses
Pidgeon process for producing metallic magnesium.
Uses
Ferrosilicon (FeSi), which is widely used in the steel manufacturing process, is usually the source of silicon. The generated hydrogen is recycled and used in the burner to create the flame, so that the overall process is very environmentally friendly.
Definition
An alloy of iron and silicon used to add silicon to steel and iron, d 5.4, insoluble in water. Small quantities of silicon deoxidize the iron, and larger amounts impart special properties.
General Description
A solid alloy of iron and silicon. Used to add silicon to iron and steel. Ferric silicon is an odorless, crystalline solid metal. Ferric silicon is flammable and can react explosively with oxidizing materials. In the presence of moisture or water Ferric silicon may emit toxic and explosive fumes. Ferric silicon is used in magnesium processing.
Air & Water Reactions
Flammable. Reacts with water or moisture in the air to form flammable hydrogen gas. The heat created by the reaction may be sufficient to ignite the hydrogen generated.
Reactivity Profile
Metals, such as Ferric silicon, are reducing agents and tend to react with oxidizing agents. Their reactivity is strongly influenced by their state of subdivision: in bulk they often resist chemical combination; in powdered form they may react very rapidly. Thus, as a bulk metal Ferric silicon is somewhat unreactive, but finely divided material may be pyrophoric. The metal reacts exothermically with compounds having active hydrogen atoms (such as acids and water) to form flammable hydrogen gas and caustic products. The reactions are less vigorous than the similar reactions of alkali metals, but the released heat can still ignite the released hydrogen. Materials in this group may react with azo/diazo compounds to form explosive products. These metals and the products of their corrosion by air and water can catalyze polymerization reactions in several classes of organic compounds; these polymerizations sometimes proceed rapidly or even explosively. Some metals in this group form explosive products with halogenated hydrocarbons.
Hazard
Ferrosilicon containing from 30 to 90% silicon is flammable and evolves gases in the presence of moisture.
Health Hazard
Exposure can cause irritation of eyes, nose and throat. Toxic if inhaled or ingested.
Fire Hazard
Special Hazards of Combustion Products: Irritating vapors and toxic gases may be formed when involved in fire.
Industrial uses
This is a high-silicon master alloy used for makingsilicon steels, and for adding silicon to transformerirons and steels. It is made in the electricfurnace by fusing quartz or silica with iron turningsand carbon. Silicon is often added to steelsin combination alloys with deoxidizers or otheralloying elements. Ferrosilicon aluminum is amore effective deoxidizer for steel than aluminumalone. It is also used for adding silicon toaluminum casting alloys. The alloy serves as adeoxidizer, fluxes the slag inclusions, and alsocontrols the grain size of the steel.
Safety Profile
Moderate inhalation hazard. Low skin toxicity. Reaction with moisture releases hydrogen and acetylene gases, whch then ignite; impurities in the alloy may liberate such poisonous and reactive gases as phosphine and arsine. Dry mixtures with sodium hydroxide react incandescently when water is added. Reaction with acid, acid fumes, or oxidzing materials can emit toxic fumes. Reaction hazards increase with decreasing particle size.
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