PPG Installs Advanced Testing Line for Radiation-Curable Coatings At Marly France
PPG
Published on 04/20/2026 at 11:51 am EDT
PPG announced the installation of an advanced testing line for radiation-curable coatings at its R&D Center of Excellence in Marly, France. The line can test multiple curing technologies, including infrared (IR), ultraviolet (LED, excimer and arc lamps), and electron beam (EB). This investment allows the company to accurately replicate customer production conditions, helping accelerate development cycles and reduce the number of customer trials.
Unlike conventional thermal curing, radiation curing requires less energy because it operates at or near ambient temperature. This reduction in energy demand can significantly lower carbon emissions by 65%, with further gains possible when powered by renewable energy sources. In addition, UV- and EB-curable systems typically use 100% solids formulations with no solvents, reducing or eliminating volatile organic compound emissions.
Beyond sustainability advantages, UV- and EB-based technologies deliver significant productivity gains, curing in seconds and allowing parts to be handled immediately for storage, packing and shipping. Marly is a key R&D development hub within PPG?s global network, driving product innovation and technical support for customers in the automotive, general industrial, coil, extrusion and specialty product sectors. The company also carries out research on radiation-curable technologies at its Coatings Innovation Center (CIC) near Pittsburgh, and at several regional labs across the U.S., Europe, Australia and China.
These facilities feature stand-alone UV and EB curing units or fully integrated UV/EB lines to help customers develop, test and validate energy curable coatings to reduce energy use and improve production efficiency. Further demonstrating a commitment to the advancement of alternative curing technologies, PPG recently installed a laser-curing pilot finishing line at its powder manufacturing and technical facility in Strongsville, Ohio, along with a laboratory-scale system for feasibility research at the CIC. This investment is intended to accelerate the large-scale commercialization of laser curing for powder coating technologies.