Akademik Veri Yönetim Sistemi
International Journal of Advanced Manufacturing Technology, cilt.139, sa.7-8, ss.4199-4210, 2025 (SCI-Expanded)
Uncontrolled static electricity produced by the friction, contact, and separation of materials continues to pose persistent challenges across the printing and packaging industries. From misfeeds and print defects to serious hazards like operator shocks and fire risks, static buildup can disrupt nearly every stage of production. As modern presses and converting lines push toward higher speeds and automation, the need for reliable static control has become more urgent than ever. The presence of electrostatic charges not only threatens product quality and process consistency but also leads to costly downtime and compromised safety. This comprehensive review explores the science behind static electricity generation, highlighting how materials, environmental conditions, and production variables can amplify its effects. It examines the range of problems caused by static accumulation during printing, converting, bindery, and finishing operations, with a focus on both conventional and digital production environments. Beyond identifying the causes and consequences, the article presents a detailed overview of industry-relevant static mitigation strategies, including ionization technologies, grounding methods, material selection, and humidity control. By integrating current research, practical applications, and real-world industrial practices, this review provides actionable insights for manufacturers, engineers, and quality professionals aiming to reduce defects, boost throughput, and improve workplace safety. Effective control of static electricity has become an operational imperative for maintaining high-throughput, high-quality, and safe printing and packaging processes in an increasingly competitive industrial environment.