▎ 摘　　要

NOVELTY - Processing continuous flow process involves passing quantity of starting nanoparticles and coupling agent through first microchannel has first microchannel length, where coupling agent bonds with starting nanoparticles to form activated nanoparticles with first microchannel length, and passing activated nanoparticles and quantity of monomer through second microchannel has second microchannel length, where monomer polymerizes with second microchannel length to form polymer-grafted nanoparticles, where polymer-grafted nanoparticles comprises polymeric chains bonded to coupling agent. USE - Method for processing continuous flow process for producing activated nanoparticles used in filler or additive in fused deposition modeling. ADVANTAGE - The continuous flow process increases mechanical properties and interfacial adhesion in printed parts, utilizes to activate the nanoparticle surfaces, avoids the issues associated with batch processes, provides a continuous flow process for modifying nanoparticle and safety concerns works at larger scales. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a continuous flow process, which involves passing quantity of starting nanoparticles and coupling agent through first microchannel having first microchannel length, where coupling agent bonds with starting nanoparticles to form activated nanoparticles with first microchannel length, and comprises an alkoxy and reactive group of vinyls, epoxies, amino, and acrylics with 10 seconds after activated nanoparticles are formed, passing activated nanoparticles, quantity of monomer, and initiator second microchannel having second microchannel length, where monomer polymerizes with second microchannel length to form polymer-grafted nanoparticles comprises polymeric chains bonded to coupling agent, forming polymer-grafted nanoparticles at 0.05 gram polymer-grafted nanoparticles/hour.