Metal Alloy 17g/cm3 Tungsten Nickel Iron Bar Tungsten Alloy Bar

Description of Tungsten Nickel Iron Bar：

High density

Tungsten nickel iron rod has a high density. Its density is usually higher than pure tungsten rod, so in the same volume, tungsten nickel iron rod is heavier than pure tungsten rod. This high density makes the tungsten-nickel rod stable under the action of gravity and not easy to deform or bend.

High strength and hardness

Tungsten nickel iron rod has high strength and hardness, higher than pure tungsten rod strength and hardness. These high strength and hardness characteristics make tungsten-nickel iron bars able to withstand greater loads and impact forces and have better mechanical properties.

Excellent electrical conductivity

A tungsten nickel iron rod has good electrical conductivity, and its electrical conductivity is better than a pure tungsten rod. This conductivity allows tungsten nickel iron rods to transmit more current when energized, which is suitable for manufacturing parts of various electrical and electronic products.

Excellent corrosion resistance

Tungsten nickel iron rod has good corrosion resistance, more corrosion resistance than pure tungsten rod. This corrosion resistance enables tungsten nickel iron rods to maintain stable chemical properties in various corrosive environments. It is suitable for the manufacture of various corrosion-resistant parts and structural parts.

Good processing performance

Tungsten nickel iron bar has good processing properties and can be carried out in a variety of machining operations, such as turning, milling, drilling, cutting, and so on. This good processing property makes tungsten nickel iron rod has a wide range of application value in the field of mechanical manufacturing.

Good fatigue resistance

Tungsten nickel iron rod has good fatigue resistance, more fatigue resistance than pure tungsten rod. This fatigue resistance enables tungsten nickel iron rods to maintain stable performance when subjected to periodically changing loads. It is suitable for the manufacture of various parts and structural parts that require fatigue resistance.

Good antioxidant properties

Tungsten nickel iron rod has good oxidation resistance, more oxidation resistance than pure tungsten rod. This oxidation resistance enables tungsten nickel iron rods to maintain stable chemical properties in high-temperature environments. It is suitable for the manufacture of various high-temperature components and structural parts.

Good magnetic properties

Tungsten nickel iron bar has good magnetic properties, can be magnetized under the action of the external magnetic field, and has a high permeability and magnetic induction strength. This magnetic property makes tungsten nickel iron rods in electromagnetic equipment, electronic instruments, and other fields have a wide range of application values.

Applications of Tungsten Nickel Iron Bar：   

Electronic industry field

Tungsten nickel iron rod is widely used in the field of electronics industry. Tungsten nickel iron rods have versatile applications in the manufacturing of electronic equipment parts and structural components like integrated circuit shells and transistor electrodes. They can also be used to make various wire and cable conductor cores.

Machinery manufacturing field

Tungsten nickel iron rod is widely used in the field of mechanical manufacturing. Because of its high strength, high hardness, excellent processing performance, and fatigue resistance, it can be used to manufacture various parts and structural parts, such as guide rails, spindles, pistons, and other parts of machine tools. In addition, tungsten nickel iron rods can also be used to manufacture a variety of gears, bearings, and other transmission components.

Aerospace field

Tungsten nickel iron rod is widely used in the aerospace field. Because of its high strength and oxidation resistance, it can be used to manufacture components and structural parts of aircraft engines, such as turbine blades and compressor blades. In addition, tungsten nickel iron rods can also be used to manufacture spacecraft main engines and boosters.

Tungsten nickel iron rod has a wide range of applications in the field of energy. Because of its high density and high strength, it can be used to manufacture electrode materials for various batteries, such as positive electrode materials for alkaline batteries and negative electrode materials for nickel-metal hydride batteries. In addition, tungsten nickel iron rods can also be used to manufacture various fuel cell electrode materials.

Sports field

Tungsten nickel iron rod is widely used in sports fields. Because of its high strength high hardness, it can be used in the manufacture of golf clubs, bows and arrows, and other sports equipment. In addition, tungsten nickel iron rods can also be used to manufacture parts such as the barrel of various shooting equipment.

Architectural field

Tungsten nickel iron rod is widely used in the construction field. Because of its high strength high hardness, it can be used to manufacture glass curtain wall brackets, high-rise building railings, and other components. In addition, tungsten nickel iron rods can also be used to manufacture a variety of decorative doors and Windows.

Nuclear industry

Tungsten-nickel iron rods are widely used in the nuclear industry. Because of its high strength, high hardness, and oxidation resistance, it can be used to manufacture the control rod drive mechanism of nuclear reactors, the cladding of nuclear fuel elements, and other components. In addition, tungsten nickel iron rods can also be used to manufacture structural parts of nuclear waste disposal devices.

Environmental protection field

Tungsten nickel iron rod is widely used in the field of environmental protection. Because of its high strength high hardness, it can be used to manufacture parts and structural parts of various environmental protection equipment, such as absorption towers of flue gas desulfurization devices. In addition, tungsten nickel iron rods can also be used to manufacture various chemical equipment parts and structural parts.

 
Production Method of Tungsten Nickel Iron Bar：

Powder metallurgy process

Powder metallurgy is a method to prepare tungsten-nickel-iron alloy materials by mixing tungsten, nickel, and iron powder and then sintering and densification. The method has the advantages of low production cost and high material utilization. It is suitable for the production of tungsten nickel-iron alloy products with complex shapes and high precision requirements. The basic process of powder metallurgy includes powder preparation, mixing, pressing, sintering, and densification. In the production process, it is necessary to control the particle size, composition, pressing pressure, and sintering temperature of the powder to ensure the density, strength, and magnetic properties of the product.

Electric spark melting method

The electrospark melting method is a method to prepare tungsten-nickel-iron alloy material by melting tungsten, nickel, and iron together by using an electric spark. The method has the advantages of high melting temperature and uniform alloy composition. It is suitable for producing high melting points, high purity, and high-performance tungsten-nickel-iron alloy materials. The basic flow of the EDM process includes electrode preparation, melting, pouring, and cooling steps. In the production process, it is necessary to control factors such as melting temperature, electrode composition, and cooling speed to ensure the melting quality and performance of the product.

Vacuum melting process

Vacuum smelting is a method to prepare tungsten-nickel-iron alloy materials by melting tungsten, nickel, and iron together in a vacuum state. The method has the advantages of a clean melting environment, uniform alloy composition, etc., and is suitable for producing high-purity and high-performance tungsten-nickel-iron alloy materials. The basic process of vacuum smelting includes the steps of batching, furnace loading, vacuum pumping, heating, melting, pouring, and cooling. In the production process, it is necessary to control the ingredients, melting temperature, cooling speed, and other factors to ensure the melting quality and performance of the product.

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