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Sustainable Composites: A Review with Critical Questions to Guide Future Initiatives

Martin A. Hubbe

2023Sustainability24 citationsDOIOpen Access PDF

Abstract

Composites, which have become very common in mass-produced items, have the potential to outperform similar materials made from any one of their individual components. This tutorial review article considers published studies that shine a light on what is required for such structures to earn the name “sustainable”. The focus is on a series of questions that deal with such issues as the carbon footprint, other life-cycle impacts, durability, recyclability without major loss of value, reusability of major parts, and the practical likelihood of various end-of-life options. To achieve the needed broader impacts of limited research dollars, it is important that researchers choose their research topics carefully. Among a great many possible options for preparing truly eco-friendly composite materials, it will be important to focus attention on the much smaller subset of technologies that have a high probability of commercial success and large-scale implementation.

Topics & Concepts

Carbon footprintReusabilityEcological footprintFocus (optics)Life-cycle assessmentRisk analysis (engineering)Scale (ratio)Computer scienceDurabilityFootprintSustainabilityConstruction engineeringEngineeringManagement scienceArchitectural engineeringEnvironmental economicsSustainable developmentBusinessGreenhouse gasPolitical scienceEconomicsProduction (economics)SoftwareProgramming languageDatabaseQuantum mechanicsEcologyPaleontologyOpticsPhysicsLawBiologyMacroeconomicsbiodegradable polymer synthesis and propertiesAdditive Manufacturing and 3D Printing TechnologiesSustainable Design and Development