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vahabi h analysis flame retardancy polymer science 2022

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Textbook in PDF format Analysis of Flame Retardancy in Polymer Science is a scientific/practical book that is conceptualized, designed, and written for students, early-career researchers, and junior engineers to explain the basic principles of fire analysis/characterization methods/methodologies, from flammability, ignition, and fire spread to forced convection and related analyses and to elucidate the mechanisms underlying flame retardancy in both gas and condensed phases followed by correlation between laboratory- and real-scale fire analyses as well as fire analysis from an industrial standpoint. This book is also an indispensable resource for identifying and mounting the latest achievements in fire analysis/characterization methods to frame the effects of fire evaluation strategies to be utilized for research and development. The book also gives a broad description of fire analysis related to different standards and regulations for different applications in different geographic zones. Fundamentals: Flammability, ignition, and fire spread in polymers Introduction Thermal transitions, thermoplasticity, and geometric effects Fuel-forming reactions: Polymer pyrolysis and ignition Oxidative degradation Combustion and fire spread: Effect of incident heat flux Flame retardance: Effect of flame retardants on ignition, combustion, and smoke generation General appraisal of pyrolysis/ignition/burn versus reaction-to-fire test methodologies Conclusions and future perspectives Forced combustion: Cone calorimetry Introduction The forced-combustion environment Additional instrumentation Using the data Conclusions Microscale forced combustion: Pyrolysis-combustion flow calorimetry (PCFC) Introduction PCFC description Study of pyrolysis Combustion Prediction of flammability data Concluding remarks and future perspectives Evaluation of gas phase: Mechanisms and analyses Introduction Types of gas-phase mechanism Common analytical tools for gas-phase mechanism evaluation Concluding remarks and future perspectives Evaluation of gas phase: Smoke and toxicity analysis Introduction Smoke contents Analysis of smoke Impacts of smoke Conclusions and perspectives Evaluation of condensed phase: Char/residue analysis Introduction Fundamentals of char and residue formation Chemical characterization: Chemical composition Microscopy: Morphology of the residue Dynamics of char/residue formation Conclusions and future trends Analysis of fire resistance of materials Introduction Definitions and application of fire resistance Material applications of fire resistance Conventional approach of fire resistance Performance approach Conclusions and perspectives Characterization of high-temperature polymers for extreme environments Introduction High-temperature polymers Aerothermal ablation testing for high-temperature applications Concluding remarks Correlation between laboratory- and real-scale fire analyses Introduction Case study no. 1: Fire behavior of PMMA Case study no. 2: Electric cable tray fires Case study no. 3: Wildfires Fire analysis tests from industrial point of view Fundamental principles Scenario-based approach Building products Cables Electrotechnical products Others Transportation Conclusions and perspectives

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vahabi h analysis flame retardancy polymer science 2022