Powder thermal and other static pressure
Powder thermal and other static pressures are mechanical energy methods used to change the shape and size of materials. This technique is used for a wide range of applications, such as bonding of two or more materials together, mixing of paints, curing of polymers, forging, and forming of polymers. This effective, low-cost and safe method can also be used to compact and compactify powders.
Powder thermal and other static pressures can generate high pressures to consolidate the powder materials. The required characteristic of the plasticating pressure depends on the type of material being consolidated and the application. Air-Blasting and mechanical compression devices are used to apply the necessary pressure. These devices are easy to use, low-cost and provide good sintering or high-pressure effects.
Powder thermal and other static pressures are pressure waves (or pulses) generated by heat. The effects of pressure waves on material can be controlled by the pressure and duration of the pulse. During the process, the pressure waves are generated by the application of thermal energy and can be used to force a material to redistribute its structure.
Air-Blasting and other mechanical compression devices use the application of a large pressure over a short period of time to compress particles. This technique is also used to bond two surfaces together and to generally strengthen a structural material. If a material is thermally plastically deformed during the process, the impact of the pressure waves can create new mechanical properties in the material.
In addition, the formation of flash powder by compressing dangerous materials into a single form requires the application of static pressures. In different manufacturing environments, static pressures can be used to consolidate a material, reduce its overall size, or make it more rigid.
The application of static pressures is also useful in processes such as powder metallurgy, where a material is compacted into a shape or object. The process involves the application of static pressure to bond the particles of powder together in a solid form. With the application of static pressure, materials can be formed into a range of shapes, sizes, and finishes.
Air-Blasting is generally used to apply static pressure. Air-Blasting is an effective, low-cost and safe method for applying static pressure. Air-Blasting is also non-disruptive, and it can be used safely in industries such as the automotive and aerospace industries. With the application of static pressures, powder materials can be heated, compacted, and bonded together in a variety of ways.
Powder thermal and other static pressures are mechanical energy composites used to change the shape and size of materials. This technique is used for a wide range of applications, such as bonding of two or more materials together, mixing of paints, curing of polymers, forging, and forming of polymers. Air-Blasting and other mechanical compression devices use the application of a large pressure over a short period of time to compress particles. This technique is also used to bond two surfaces together and to generally strengthen a structural material. The application of static pressures is also useful in processes such as powder metallurgy, where a material is compacted into a shape or object. Static pressures can be applied to effectively compact, bond, and reduce the size of powder materials.
