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Mn Flakes – Manganese Products
Electrolytic manganese flakes are pure metal element manganese, with a content of 99.7%-99.9%. It is mainly used as an additive in steel manufacturing.
Electrolytic manganese flakes are silver-gray in appearance and have good metallic luster. They use manganate solution as electrolyte. Under the action of current, metallic manganese is precipitated on the anode in the electrolytic cell to form irregular flakes. It is hard and brittle. One side is bright and the other side is rough. The color is usually gray-silver white and brown.
Black silicon carbide is a non-metallic ceramic material composed of carbon and silicon elements. Black silicon carbide has very high hardness, belonging to Mohs hardness level 9.5, second only to diamond and cubic boron nitride.
Boron-chromium alloy is an alloy mainly composed of two elements: boron and chromium. It is obtained by mixing boron and chromium in a certain proportion and performing smelting, sintering or other processing methods.
Copper-zirconium alloy is an alloy material composed of two elements: copper and zirconium. It is usually based on copper, with appropriate amounts of zirconium added to form an alloy.
Copper-zirconium alloys are used in a wide range of applications, including the electronics industry, aerospace, chemical industry, manufacturing, etc.
Electrolytic manganese flakes are pure metal element manganese, with a content of 99.7%-99.9%. It is mainly used as an additive in steel manufacturing.
Electrolytic manganese flakes are silver-gray in appearance and have good metallic luster. They use manganate solution as electrolyte. Under the action of current, metallic manganese is precipitated on the anode in the electrolytic cell to form irregular flakes. It is hard and brittle. One side is bright and the other side is rough. The color is usually gray-silver white and brown.
Ferrotitanium, an intermediate alloy of titanium and iron, is used as a purifier for steel. Production process: Ferrotitanium is an alloy composed of titanium and iron. The process of producing ferrotitanium usually involves mixing titanium and iron raw materials and reacting them at high temperatures.
Nickel aluminum alloy, also known as Raney nickel, is an alloy product mainly composed of two elements: nickel and aluminum. It usually exists in the form of blocks, which can be cast blanks, forged blanks or parts processed into various shapes.
Ferrotitanium, an intermediate alloy of titanium and iron, is used as a purifier for steel. Production process: Ferrotitanium is an alloy composed of titanium and iron. The process of producing ferrotitanium usually involves mixing titanium and iron raw materials and reacting them at high temperatures.
Ferrotitanium, an intermediate alloy of titanium and iron, is used as a purifier for steel. Production process: Ferrotitanium is an alloy composed of titanium and iron. The process of producing ferrotitanium usually involves mixing titanium and iron raw materials and reacting them at high temperatures.
Silicon nitride is a compound of silicon(59.4%) and nitrogen(38.2%). Si3N4 is the most thermodynamically stable of the silicon nitrides. It is a white, high melting solid that is relatively chemically inert. It has a melting point of approximately 2830°C and a density of 3.16 g/cm3. Silicon nitride’s high temperature properties are superior to most metals, combining high strength, creep resistance, and oxidation resistance.
Silicon nitride is a is an important ceramic material composed of silicon(59.4%) and nitrogen(38.2%). Si3N4 is the most thermodynamically stable of the silicon nitrides. It is a white, high melting solid that is relatively chemically inert. It has a melting point of approximately 2830°C and a density of 3.16 g/cm3. Silicon nitride’s high temperature properties are superior to most metals, combining high strength, creep resistance, and oxidation resistance.
Ferro silicon nitride is a ferroalloy material, a mixture of silicon nitride and iron, usually containing 75% to 80% (w) Si 3 N4, 12% to 17% (w) Fe and no more than 1% (w) free Si and a small amount of other components.
Due to the presence of Si3N4, ferro silicon nitride has excellent properties such as high refractoriness, good erosion resistance, high mechanical strength, good thermal shock resistance, low thermal expansion rate and high oxidation resistance.
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