Fuente: Polymers Polymers, Vol. 18, Pages 919: A Process Systems Engineering Approach to Model and Optimize Cr6+-Free and Pd-Free Plating on Plastics Technologies
Polymers doi: 10.3390/polym18080919
Authors:
Konstantinos A. Pyrgakis
Eleni Poupaki
Michalis Kartsinis
Melina Psycha
Alexios Grigoropoulos
Dimitrios Zoikis-Karathanasis
Alexandros Zoikis-Karathanasis

Plating on Plastics (PoP) requires specific surface pre-treatment steps to enable metallization. The conventional PoP industry utilizes hexavalent chromium (toxic, carcinogenic) and palladium (critical raw material) for surface etching and activation, respectively, raising significant health, environmental, and economic concerns. This work is based on a new Cr6+-free and Pd-free PoP technology that uses piranha (H2O2-H2SO4) solutions for surface etching, nickel salts for activation, and NaBH4 for reduction, ultimately forming metallic nucleation sites for downstream electroless plating and electroplating. A comprehensive modeling approach was developed to simulate and predict unit operation performance (reaction kinetics and yields) and material properties (contact angle and adhesion) across processing stages of the new technology. State-of-the-art and data-driven modeling revealed the combinatorial relationships among process performance, the achieved properties and the different settings of process operating conditions. The results also highlighted capabilities for tuning all processes over a range of conditions, reaching desired product specifications (adhesion and thickness). The models were constructed as a Decision Support Tool (DST) serving economic, environmental, safety and Safe and Sustainable by Design (SSbD) objectives. The DST can be used through a user-friendly interface that enables the insertion of user-defined inputs and monitoring of optimization results.