One of the notable characteristics of Plastic Powder Compacts is their high density. The compaction process ensures that the plastic powders are compressed to near theoretical density, resulting in compacts that are significantly denser than those produced through other methods. This high density contributes to the compacts' good mechanical properties, including increased strength and rigidity, making them suitable for applications that demand robust structural components.

The uniformity of Plastic Powder Compacts is another key attribute. The compaction process allows for the production of parts with consistent material properties throughout, eliminating the variability often associated with other manufacturing techniques. This uniformity is crucial for applications where precision and repeatability are paramount, such as in the aerospace and automotive industries.

Plastic Powder Compacts also exhibit good dimensional stability. The compaction process reduces the potential for warping or distortion, ensuring that the final product maintains its intended shape and size. This characteristic is precious in industries where tight tolerances are required, such as in the production of electronic components and precision machinery.