The Influence of Electro-Deposition Time to the Distribution of Silicon in Ferrosilicon Alloy

Jing Long Liang; Hui Li; Yun Gang Li

doi:10.4028/www.scientific.net/AMR.734-737.1536

Paper Titles

Balance of Raw Input and Energy of Titanium Slag Smelting in Closed High Power Direct Current Electric Arc Furnace
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Effect of Na₂SO₄ on the Decomposition Rate and Product Size in Seed Precipitation Process
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Effect of Na₂SO₄ on the Salt Discharge from Sodium Aluminate Liquor
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Effects of Ce or Nb Addition on Nucleation of Pearlite in High Carbon Steel
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The Influence of Electro-Deposition Time to the Distribution of Silicon in Ferrosilicon Alloy
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Characterization of Preparing Cold Bonded Carbon Bearing Pellets of Metallurgical Dust for Direct Reduction
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Particles Movement Simulation of Screw Transporting in Rotary Kiln
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Preparation of Alumina from Fly Ash by Sulfuric Acid
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Study on Nickel Nanopowders Prepared by Arc Plasma
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The Influence of Electro-Deposition Time to the Distribution of Silicon in Ferrosilicon Alloy

Abstract:

As soft magnetic alloy, Si steel has been brought to the attention of the people. When the content of Si is about 6.5%, the magnetic induction intensity is highest, and the wastage of the iron is lowest, with good magnetic energy. Due to the brittleness and poor process-ability of the 6.5% Si silicon, the traditional production process is very difficult to be used for the production. With traditional production process, the content of Si in silicon steel is commonly 0.1% ~ 4.0%, which makes the property of the silicon steel limited. Use molten salt electro-position method to product silicon steel on the basis of silicon steel surface, to lay the foundation for producing 6.5% Si silicon steel. The influence of the process parameters of molten salt electro-position method to the deposit surface morphology and the silicon content distribution from surface to inside shows that along with the increase of the electro-position time, the size of sediment particle on the deposit surface gradually increases. The sedimentary thickness is proportional to the electro-deposition time.