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Ionizing Radiation and Its Effects on Thermoplastic Polymers: An Overview

Ary Machado de Azevedo, Pedro Henrique Poubel Mendonça da Silveira, Thomaz Jacintho Lopes, Odilon Leite Barbosa da Costa, Sérgio Neves Monteiro, Valdir Florêncio da Veiga, Paulo Silveira, Domingos D’Oliveira Cardoso, André Ben‐Hur da Silva Figueiredo

2025Polymers45 citationsDOIOpen Access PDF

Abstract

This article explores the foundational principles of ionizing radiation and provides a comprehensive overview of its impact on thermoplastic polymers. Ionizing radiation, encompassing gamma rays, X-rays, and electron beams, has been extensively studied due to its capacity to alter the molecular structure of polymers. These changes enable advancements in various applications by promoting molecular crosslinking, controlled degradation, molecular grafting, and crystallinity adjustments. The article delves into the fundamental mechanisms of radiation thermoplastic polymer interactions, including ionization, electronic excitation, and free radical formation. It highlights how these processes lead to structural transformations that enhance the physical, thermal, and mechanical properties of thermoplastic polymers. Factors such as radiation type, absorbed doses, temperature, and environmental conditions are discussed in the context of their role in controlling these modifications. Key practical applications are identified across fields such as medicine, food packaging, aerospace, and industry. Examples include the production of sterilizable medical devices, enhanced food packaging for longer shelf life, and radiation-resistant materials for the aerospace and nuclear sectors. Despite its many advantages, the article also emphasizes challenges such as process variability, polymer sensitivity to radiation, and standardization difficulties. The review underscores emerging research directions, including optimizing irradiation parameters and integrating advanced characterization techniques like Fourier Transform Infrared Spectroscopy (FT-IR) and X-ray diffraction (XRD). The development of new polymer blends and composites, designed for irradiation-induced property enhancement, represents a promising area of innovation.

Topics & Concepts

Materials scienceThermoplasticPolymerContext (archaeology)CrystallinityIonizing radiationFourier transform infrared spectroscopyNanotechnologyComposite materialIrradiationChemical engineeringPhysicsBiologyPaleontologyNuclear physicsEngineeringPolymer Nanocomposite Synthesis and IrradiationPhotopolymerization techniques and applicationsSilicone and Siloxane Chemistry
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