Metal Alloy High Density Tungsten Alloy Rod Grind Surface Tungsten Alloy Bar

About High Density Tungsten Aloy Rod Grinding Surface:   

High density

One of the biggest features of tungsten alloy rods is their high density. Under normal circumstances, the density of tungsten alloy rods is between 15-18.5g/cm³, which is much higher than the density of pure tungsten. This high density allows tungsten alloy rods to have a higher quality in the same volume and, therefore, can provide better performance in many applications.

High strength and hardness

In the tungsten alloy rod, there are solid solution strengthening and aging strengthening effects between these elements and tungsten, which makes the tungsten alloy rod have high strength and hardness. Tungsten alloy rods are higher than that of pure tungsten, and their hardness is also significantly improved. These high strength and hardness properties enable tungsten alloy rods to withstand high loads and impact loads.

Good plasticity and toughness

Although tungsten alloy rod has high strength and hardness, its plasticity and toughness still maintain a good level. At room temperature, tungsten alloy rods can withstand a certain degree of bending and twisting and can withstand fatigue loads under low stresses. This good plasticity and toughness make tungsten alloy rods better adapt to environmental changes in some applications.

Excellent high-temperature resistance

The melting point of tungsten alloy rods is usually higher than that of pure tungsten, and its high-temperature resistance is also significantly improved. This high-temperature resistance makes tungsten alloy rods widely used in aerospace, metallurgy, and other fields.

Good corrosion resistance

Tungsten alloy rods have high corrosion resistance to most chemicals. At normal temperatures, it is not easily affected by environmental factors such as the atmosphere, seawater, and soil. In addition, after special treatment, tungsten alloy rods can also have better corrosion resistance.

Good electrical conductivity

Tungsten alloy rod has a good electrical conductivity similar to that of pure tungsten. In the field of electronics and electrical, tungsten alloy rods are widely used in the production of various electronic components and electrical components.

Application of High Density Tungsten Aloy Rod Grinding Surface:   

Aerospace field

In the aerospace industry, tungsten alloy rods are used in the manufacture of various parts and structures. For example, it can be used to manufacture nozzles, blades, shafts, and other components. It can also be used to manufacture important structural parts of spacecraft, such as rocket nozzles and satellite supports. The high density, high strength, and excellent high-temperature resistance of tungsten alloy rods give it the advantages that other materials cannot replace in the aerospace field.

National defense and military industry

In the field of national defense and military industry, tungsten alloy rods are also widely used in the manufacture of various weapons and equipment parts. For example, it can be used to make the core of armor-piercing bullets armor plates for tanks and armored vehicles. The high density, high strength, and corrosion resistance of tungsten alloy rods make them effective in improving the performance and life of weapons in these applications.

Metallurgy

In the field of metallurgy, tungsten alloy rods are used in the manufacture of various tools and equipment. For example, it can be used to manufacture tools such as drills, milling cutters, and rolls, and can also be used to manufacture components and structural parts of smelting furnaces. Tungsten alloy rod's high strength, high hardness, and excellent corrosion resistance make it effective in improving the performance and life of tools and equipment in these applications.

The electronic field

In the field of electronics, tungsten alloy rods are widely used in the manufacture of various electronic components and electrical components. For example, it can be used to manufacture components such as relays, contactors, and electromagnets. The excellent electrical conductivity of tungsten alloy rods makes them effective in improving the performance and reliability of electronic devices in these applications.

Sports

In the field of sports, tungsten alloy rods are also widely used in the manufacture of various sports equipment and equipment. For example, it can be used to manufacture sports equipment such as golf clubs, bows, and arrows, and it can also be used to manufacture parts for various sports equipment. The tungsten alloy rod's high density, high strength, and excellent plasticity and toughness make it effective in these applications to improve the performance and life of sports equipment and equipment.

Production Method of High Density Tungsten Aloy Rod Grinding Surface:   

Preparation of tungsten alloy powder

Preparation of tungsten alloy powder is the first step in producing tungsten alloy rods. The powder metallurgy method is usually used, which includes mixing various metal element powders in a certain proportion and then pressing, sintering, and melting processes to obtain tungsten alloy powder.

Pressing molding

The prepared tungsten alloy powder is put into the mold, and a certain pressure is applied to make it formed. Press forming needs to be carried out under certain temperature and pressure conditions to ensure that the tungsten alloy powder can be fully combined and the desired shape and size of the blank is obtained.

Sintering

Sintering is one of the key steps in the production of tungsten alloy rods. In the sintering process, the various groups in the tungsten alloy blank will diffuse and penetrate each other so as to form a tungsten alloy material with excellent properties. Sintering needs to be carried out under specific temperature and time conditions to ensure that the individual components can fully diffuse and permeate.

Processing and forming

The sintered tungsten alloy rod needs to be processed and formed. Machining includes turning, milling, drilling, cutting, and sizing of the tungsten alloy rod. Processing molding needs to be carried out under specific equipment and tool conditions to ensure processing quality and precision.

Heat Treatment

Heat treatment is one of the important steps in tungsten alloy rod production. Heat treatment can change the internal structure and phase composition of tungsten alloy rods so as to improve their mechanical and physical properties. Heat treatment needs to be carried out under specific temperature and time conditions to ensure optimal mechanical and physical properties.

Quality inspection and packaging

In the production process, it is necessary to carry out quality testing of tungsten alloy rods, including composition testing, mechanical property testing, physical property testing, etc. Qualified tungsten alloy rods need to be packaged to protect surface quality and prevent damage during transportation.

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