Calcium Silicon (CaSi) Specs1: Ca: 30% min Si: 58% min Al: 1.5% max. C: 1.0% max. P: 0.04% max. S: 0.05% max. Specs2: Ca: 30% min Si: 60% min Al: 1.5% max. C: 1.0% max. P: 0.04% max. S: 0.05% max. Size: 0 - 1.6mm/0 - 2mm/10 - 50mm 90% min or the size as per customer's requirement
??(specification): Type chemical composition(%) Ca si c al p s = = Ca31si60 31 55-651.0 2.4 0.04 0.05 Ca28si60 28 55-651.0 2.4 0.04 0.05 Ca24si60 24 55-651.0 2.5 0.04 0.04 Ca20si50 2050-601.0 2.5 0.04 0.04 Ca16si55 1650-601.0 2.5 0.04 0.04 Ca28si50 2850-551.0 2.5 0.04 0.04 Ca30si50 3050-551.0 2.5 0.04 0.04 Ca10si40 1040-450.5 2.0 0.05 0.05 Also can execute the production according to customer's special requirement Size: 1-3mm, 10-30mm, or as per customer detail required Packing : 1mt bag, 25kg one bag in 1mt big bag Payment terms: t/t or irrevocable letter of credit at sight. -
Calcium silicon alloy is the compound alloy.It is an ideal compound deoxidizer and desulfurizer which can be widely used in the production os steelssuch as high-quality steel,low-carbon steel,stainless steel and special alloys such as nickle base alloy,titanium base alloy.CaSi alloy can also be applied as the heat-raiser for converter steelmaking,the inoculant for for cast iron production and addictive for nodular cast iron production. 1. Product granules: 0-3mm 90%, 10-80mm 90%, 0-220 mesh or customized 2. Packaging: 1MT big bag 3. Samples: can be sent for free 4. MOQ: 5MT 5. Application: steel making, iron casting 6. Advantages: Low impurities with high performance Stable reaction and easy operation Customized specifications are accepted 7. Factory history: More than 13-year experience Welcome to visit our factory 8.Certifications: ISO 9001:2008, SGS, CIQ & COA
Calcium silicon alloy 1mt plastic woven bag
Si: 40-50 % Ca: 10-20 % Mn: 10-20 % C: 1.0 % max. P: 0.05% max. S: 0.04% max. Fe: 15 % max. Al: 1.5% max.
Silicon calcium is composed of the elements of silicon, calcium and iron, is an ideal compound deoxidizer, desulfurization agent. It is widely used in high quality steel, low carbon steel, stainless steel production and nickel base alloy, titanium alloy and other special alloy production. In cast iron production,the calcium silicon alloy have inoculation effect.helped to form fine grained or spheroidal graphite; in the grey cast iron Graphite distribution uniformity,reduce chilling tendency,and can increase silicon,desulfurization,improve the quality of cast iron.
Designation É·Ö% Chemical Compositions% Ca Si Al C P S Fe Ca30Si60 31-32 60-63 0.9 0.6 0.04 0.05 Ca28Si60 28 60-63 0.9 0.6 0.04 0.05 Ca24Si60 24 60-63 0.9 0.6 0.04 0.04 In one big bag.
I'm on a strong position for offer calcium silicon on best quality and price, the detail is as following: Casi : Ca:28% min/30% min si:55%-65% min al:2% max Size:0-2mm or as buyer requirements Packing:1mt big bag 1mt big bag
I'm on a strong position for offer calcium silicon on best quality and price, the detail is as following: Casi : Ca:28% min/30% min si:55%-65% min al:2% max Size:0-2mm or as buyer requirements Packing:1mt big bag 1mt big bag
C: 1% max Ca: 30-32% Si: 55-60% Al: 1 % & 1.5 % Max S: 0 . 04% Max P: 0 . 04% Max
We are supplier and exporter of Ferro Silicon. Ferro silicon Specs: Si:75%min. and Si:72%min. C:0.2%max. S:0.02%max. P:0.04%max. Al:2.0%max.1.5%max.and 1.0%max .Commodity: Ferro Silicon Low Al Specs: Si:75%min. C:0.2%max. S:0.02%max. P:0.04%max.Al:0.1%max.0.3%max.and0.5%max. In 1mt plastic woven bags. Ferro Silicon Ferro Silicon has a melting point of 1200�¯�¿�½?�?�°C to 1250�¯�¿�½?�?�°C with a boiling point of 2355�¯�¿�½?�?�°C and Ferro Silicon contains about 2% of calcium and alluminium. Ferro Silicon, as an additive to the production process of ferrous metals, will impart several desirable properties upon the resultant alloy. Some of the primary benefits of adding Ferro Silicon to an alloy is to improve the corrosion resistant properties of the new compound, as well as to add to the high temperature heat- resistance properties of the new alloy, for example, in the production of silicon steel for use in transformer cores.
Origin - India and China For price, specification and other details please contact us
Origin - India and China For price, specification and other details please contact us.
Characteristics 1.Calcium Silicon Barium Inoculant ( CaSiBa ) increase the graphitization core, refinement of graphite, promote get A type graphite from the Grey iron castings, increase the intensity, for ductile iron parts, it can make the graphite in ductile iron ball small, round, improve the nodulizing grade. 2.Calcium Silicon Barium Inoculant ( CaSiBa ) effectively reduce molten iron super-cooling degree, promote the precipitation of graphite, significantly reduce chilling tendency, reduce the relative hardness, improve casting machinability. 3.Calcium Silicon Barium Inoculant ( CaSiBa ) easy to dissolve and absorb than the average inoculant. can reduce the gascontent in the molten iron. 4.Calcium Silicon Barium Inoculant ( CaSiBa ) hight ability to recession-proof. at the same time it prevent relevant nodulizing decline, wall thickness sensitivity is small, well-closed formation. Standard GradeChemical Element (%) SiCaBaAlPS â?¥(Min)â?¤(Max) Ca10Si50Ba1350.010.013.03.00.050.05 Ca13Si45Ba1045.013.010.0 Ca11Si45Ba1345.011.010.0 Ca9Si45Ba1345.09.010.0 Ca7Si45Ba1545.07.015.0 Ca5Si45Ba1545.05.015.0 The specification,packaging and granular size can be produce according to customer demand.
CA31SI60, CA28SI60, CA24SI60, CA20SI55, CA16SI55, CA28SI55 Nw:1000 kg Gw:1002 kg
Ca30si50, ca28si55, ca30si60, ca10si50, ca20si50 Size and weight can be adjust according to your demand.
Specs1: Ca:30% min Si:58% min Al:1.5% max. C:1.0% max. P:0.04% max. S:0.05% max. Specs2: Ca:30% min Si:60% min Al:1.5% max. C:1.0% max. P:0.04% max. S:0.05% max. Size:0-1.6mm/0-2mm/10-50mm 90% min or the size as per customer's requirement Packing:1mt big bag
All kind of Calcium Silicon Barium Aluminum we all can supply, please contact us
Calcium-Silicon Alloys are used as deoxidizer and desulfurizer in the manufacturing of high grade steel. Indeed, Calcium and Silicon both have a strong chemical affinity for oxygen. Especially calcium, have a strong chemical affinity not only for oxygen, but also for sulphur and nitrogen. The steel industry accounts for around 90 % of global CaSi consumption. The alloy is also used for the modification of non-metallic inclusions. Calcium Silicon is used to control the shape, size and distribution of oxide and sulfide inclusions improving fluidity, machinability, ductility, and impact properties of the steel product. The calcium liquefies the suspended solid inclusions of aluminium oxide), a principal source of fatigue failure in highly stressed alloy steels, that are always present in aluminum-killed steels (Al203 is transformed by Ca into CaO:Al2O3). Furthermore, the material properties of steel are improved: the calcium aluminates formed are largely undeformable in the solidified steel and allow high isotropy of the material properties to be maintained after working of the steel. Calcium Silicon can be obtained in lump, crushed or powder form. The most widely used method for intergrated steel applications is in the form of cored wire. This is mainly because calcium has a low density and high reactivity in the ladle making it difficult to introduce and retain in the melt. Cored wire eliminates these variables: CaSi powder is blown deep into the steel melt through immersion of steel tubes.
Alloy cored wire plays an important role in the smelting process. The specifications and sizes of cored wire are customized based on specific smelting processes and application requirements. The selection of appropriate materials and diameter is based on the operating environment and engineering specifications. Cored wire can provide different tensile strengths and load-bearing capacities to meet the demands of the smelting process. Cored wire is used in the manufacturing of refractory materials and as electrodes in electric arc furnaces, among other applications. Its high strength, corrosion resistance, and stability make it an indispensable material in the metallurgical industry.
