How does it work?
SSAIL is a two-step process:
1. Surface of the part is activated by laser
2. Chemical activation
2.1. Electrochemical plating
2.2. Standard chemical electroplating process
Flexibility of shapes
SSAIL technology enables forming conductive traces on different form factors:
– 3D surfaces
– Thin films
– Flexible materials
– Transparent materials
– From 1μm width traces to large conductive areas.
SSAIL technology works on standard dielectric materials: various polymers, glass, silicon, ceramics.
No metal additives are needed.
|PMMA||PC/ ABS for 3D printing||RO3003TM Laminates|
|PPA||PA4||Glass (soda lime)|
High adhesion strength
Conductive traces formed with SSAIL technology has a high adhesion strength and environmental resistance.
This allows using it on flexible materials as well as in real-world environments.
|4||Sital ceramic||730 N/cm2|