Pellets

Density

1 g/cm³ - 8 g/cm³

Mechanical properties

Thermal properties

Processing temperature

160 ºC - 230 ºC

Highlighted features

Sinterable

Manufacture filaments or directly extrude sinterable parts to obtain fully metallic or ceramic components for the aerospace, automotive, and healthcare sectors.

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Sinterable pellets represent a versatile category of materials that result in fully metallic or ceramic parts after a debinding and sintering process. Sinterable pellets are composed of polymer binders and metal/ceramic powders designed to fuse under controlled heat and pressure conditions, forming three-dimensional solid objects with intricate geometries and high mechanical strength.

Within the realm of sinterable pellets, there are various interesting variants tailored to specific applications and performance requirements. For example, ferromagnetic PLA pellets offer the unique ability to produce magnetic components through the sintering process, enabling the manufacturing of magnetic structures and devices for various applications such as sensors, actuators, and magnetic assemblies. Similarly, ceramic pellets containing alumina or zirconia particles provide the opportunity to create ceramic pieces with exceptional hardness, abrasion resistance, and thermal stability, making them suitable for applications in aerospace, automotive, and biomedical industries.

The sintering process enables the production of complex and functional parts with precise dimensions and superior mechanical properties, making sinterable pellets a valuable resource for industries seeking high-performance materials for additive manufacturing applications. Whether creating magnetically sensitive components or manufacturing ceramic parts with exceptional durability and heat resistance, sinterable pellets offer a versatile and effective solution for pushing the boundaries of what is possible in additive manufacturing.