Additive powders from CD Bioparticles improve mechanical and chemical properties
CD Bioparticles, headquartered in Shirley, New York, USA, has added a range of additive powders to its product portfolio. Used to enhance or modify the properties of base materials, the additive powders can improve mechanical and chemical properties, including strength, durability, conductivity, and heat resistance.
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Additive powders play a crucial role in fields such as Additive Manufacturing, Metal Injection Molding (MIM), Powder Metallurgy, coatings, composites (such as metal matrix composites and polymer composites), energy storage and batteries, and biomedical applications (such as orthopaedic and dental implants).
CD Bioparticles provides various additive powders, including alloy powder, compound powder, and elemental powder. The alloy powders primarily encompass iron-, nickel-, and cobalt-based materials used extensively in Additive Manufacturing, Powder Metallurgy and surface coating processes.
The alloy powders designed specifically for Additive Manufacturing, for example, are characterised by high purity, high sphericity and diverse particle size distributions. Additionally, custom particle sizes are available for high-entropy alloy powders for advanced manufacturing applications.
CD Bioparticles also offers boride powders, multi-element oxide powders and single-element oxide powders in various particle sizes for different applications. Nanoscale and micron-scale powders are also available upon request. Compound powders can be formulated through multiple methods and are characterised by their ability to combine the advantages of their constituent elements in order to achieve specific physical, chemical or functional properties.
Generic metallic, non-metallic and rare earth element powders are also available with customisable particle size specifications. These powders are suitable for a variety of applications, including Additive Manufacturing, Powder Metallurgy, chemical reactions, pharmaceuticals, and electronics. Elemental powders consist of a single element and are primarily used in scientific research, manufacturing, materials science, chemistry, pharmaceuticals and other specialised fields.
