
High Quality
Built In-House
CetaTech is a CAE technology-based company specializing in the development and production of metal and ceramic parts using powder injection molding and powder metallurgy technology.
Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP).

Powder Metallurgy(P/M)
CAD Design & Preparation
The CAD model is designed to reflect the part’s geometry, dimensions, and mechanical requirements.
Optimal build orientation and layering strategies are established to maximize quality and efficiency.
Powder Deposition
Metal powder is evenly spread onto the build platform in thin, uniform layers,
forming the foundation for high-precision additive manufacturing.
Selective Laser Melting
A laser beam selectively melts and solidifies the metal powder,
layer by layer, to build complex three-dimensional geometries.
This process produces components with high dimensional accuracy.
Post-Processing
Depending on requirements, the printed part undergoes support removal, heat treatment, and other post-processing steps
to finalize its mechanical properties and overall quality.
Inspection & Quality Assurance
The completed part is subjected to a rigorous quality control process,
including dimensional inspection, surface roughness measurement, and non-destructive testing, ensuring full reliability.
Powder Metallurgy(P/M)
Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP).

Powder metallurgy is the conventional forming technique of powder through compaction & sintering, Cold Isostatic Pressing(CIP), and Hot Isostatic Pressing(HIP).
Powder Metallurgy(P/M)
Powder Metallurgy(P/M)
Free form , unlimited design
Completed without internal channels and complex structures and support
Struggling with internal channels and complex geometries that are difficult to support?
With CetaTech’s proprietary design technology and expertise in print parameter optimization, we ensure both geometric freedom and mechanical precision—even in complex structures—without the need for internal supports.

(Right) General output process
⌀0.4mm cylinderwith horizontal output without support
Shape collapse occurs
[Left] ThetaTech output process
Perfect ⌀0.4mm horizontal cylinder without support
Excellent shape freedom