1. What is the composition of the Tungsten Heavy Alloy Rod Bar 95WNiFe?
The Tungsten Heavy Alloy Rod Bar 95WNiFe is primarily composed of:
95%
3-4%
1-2%
This specific composition, known as 95WNiFe, provides high density and excellent radiation shielding properties, while still offering good machinability compared to pure tungsten. The combination of tungsten with nickel and iron gives the alloy its heavy weight, making it suitable for applications that require high mass in a small volume.
2. What are the key benefits of using Tungsten Heavy Alloy (95WNiFe) in manufacturing?
The Tungsten Heavy Alloy 95WNiFe offers several benefits, including:
It retains excellent strength even at elevated temperatures, which is useful in aerospace and other high-performance applications.
3. What are the typical applications of 95WNiFe Tungsten Heavy Alloy Rod Bar?
The 95WNiFe Tungsten Heavy Alloy Rod Bar is used in various applications that require high density and strength, including:
In medical and industrial radiation shielding, such as in X-ray and gamma-ray protection.
For use in armor-piercing projectiles or as components in defense equipment.
In industries that require high wear resistance, such as in molding, die-casting, and other manufacturing processes.
4.
While pure tungsten is very hard and difficult to machine due to its brittleness and high melting point, the addition of nickel and iron in the 95WNiFe alloy makes it significantly easier to machine. The alloy retains much of the strength and density of pure tungsten but is less prone to cracking and chipping during machining.
5.
Tungsten Heavy Alloy Rod Bars, like the 95WNiFe alloy, are typically available in various sizes, with diameters ranging from small (a few millimeters) to large (several inches), and lengths varying depending on the application requirements. Some common sizes include:
5 mm to 100 mm (or larger, depending on the specific product).
From a few inches to several feet, depending on the intended application. These bars can be machined into parts of various shapes, such as rods, discs, or custom geometries, used in manufacturing components like counterweights, radiation shields, and high-performance aerospace or military parts. They can also be cut, ground, or polished to precise dimensions for more specialized applications.
