Development of Chemical Processes for the Recycling of Carbon Fiber/Epoxy Composites PDF Download
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Author: Douglas Chen Publisher: ISBN: Category : Languages : en Pages : 118
Book Description
Carbon fiber/epoxy composites are a vital and heavily used component in a variety of industries, ranging from aerospace to sports. However, major difficulties may soon arise in regard to environmental considerations for their disposal. These composites are designed to be strong and resilient, and thus are difficult to break down or decompose. The only current option for carbon fiber/epoxy composite wastes is to leave them in landfills or plane graveyards. The high price of carbon fiber also makes finding ways to recover and reuse carbon fiber very attractive. The purpose of this dissertation is to investigate an inexpensive method to break down the epoxy in carbon fiber/epoxy composites and recover fibers while maintaining their mechanical strength. A new chemical solvolysis process was utilized to oxidize and decompose the epoxy in carbon fiber-reinforced epoxy composites, allowing for carbon fiber recovery and recycling. This process involved heating the composite in a mixture of ethanol and hydrogen peroxide at elevated temperatures for 4 hours. This process results in significant epoxy removal with minimal fiber strength loss. Epoxy removal was confirmed with visual and mass analysis, scanning electron microscopy and electron dispersive spectroscopy, and thermogravimetric analysis. The liquid byproduct solution remaining was chemically analyzed using gas chromatography/mass spectroscopy and found to contain organic compounds that could be attributed to the degradation of epoxy by the solution. A kinetic model was developed for the purpose of identifying optimal parameters for the reaction. Parameters considered included time, temperature, concentrations of the reactants, and the amount of surface area exposed to the oxidizing solution. Mass loss over time was studied for each reaction variable while keeping the other parameters static, creating a mass loss rate that could be plotted against each parameter. The fittings for these plots were used to identify the constants to be used in the model. The model was compared to experimental data and found to correlate well, with an average error below 8%. The new chemical solvolysis process in this study was compared to using 98% pure sulfuric acid to dissolve the epoxy. The solvolysis process was found to remove epoxy at a higher rate, while keeping similar fiber strength when comparing samples processed for similar fiber recovery performance. These comparisons resulted in the conclusion that the solvolysis process performs better than dissolution by sulfuric acid. A further modification to the solvolysis process involves the same mixture of ethanol and hydrogen peroxide with the addition of ferrous ions in an acidic environment. This process could potentially be done at lower temperatures and lower concentrations of hydrogen peroxide, and thus could allow for a reduction in costs when recovering fibers using this process. Initial experiments did confirm the ability to remove significant amounts of epoxy at much lower temperatures and lower concentrations of hydrogen peroxide.
Author: Douglas Chen Publisher: ISBN: Category : Languages : en Pages : 118
Book Description
Carbon fiber/epoxy composites are a vital and heavily used component in a variety of industries, ranging from aerospace to sports. However, major difficulties may soon arise in regard to environmental considerations for their disposal. These composites are designed to be strong and resilient, and thus are difficult to break down or decompose. The only current option for carbon fiber/epoxy composite wastes is to leave them in landfills or plane graveyards. The high price of carbon fiber also makes finding ways to recover and reuse carbon fiber very attractive. The purpose of this dissertation is to investigate an inexpensive method to break down the epoxy in carbon fiber/epoxy composites and recover fibers while maintaining their mechanical strength. A new chemical solvolysis process was utilized to oxidize and decompose the epoxy in carbon fiber-reinforced epoxy composites, allowing for carbon fiber recovery and recycling. This process involved heating the composite in a mixture of ethanol and hydrogen peroxide at elevated temperatures for 4 hours. This process results in significant epoxy removal with minimal fiber strength loss. Epoxy removal was confirmed with visual and mass analysis, scanning electron microscopy and electron dispersive spectroscopy, and thermogravimetric analysis. The liquid byproduct solution remaining was chemically analyzed using gas chromatography/mass spectroscopy and found to contain organic compounds that could be attributed to the degradation of epoxy by the solution. A kinetic model was developed for the purpose of identifying optimal parameters for the reaction. Parameters considered included time, temperature, concentrations of the reactants, and the amount of surface area exposed to the oxidizing solution. Mass loss over time was studied for each reaction variable while keeping the other parameters static, creating a mass loss rate that could be plotted against each parameter. The fittings for these plots were used to identify the constants to be used in the model. The model was compared to experimental data and found to correlate well, with an average error below 8%. The new chemical solvolysis process in this study was compared to using 98% pure sulfuric acid to dissolve the epoxy. The solvolysis process was found to remove epoxy at a higher rate, while keeping similar fiber strength when comparing samples processed for similar fiber recovery performance. These comparisons resulted in the conclusion that the solvolysis process performs better than dissolution by sulfuric acid. A further modification to the solvolysis process involves the same mixture of ethanol and hydrogen peroxide with the addition of ferrous ions in an acidic environment. This process could potentially be done at lower temperatures and lower concentrations of hydrogen peroxide, and thus could allow for a reduction in costs when recovering fibers using this process. Initial experiments did confirm the ability to remove significant amounts of epoxy at much lower temperatures and lower concentrations of hydrogen peroxide.
Author: Adisa Azapagic Publisher: John Wiley and Sons ISBN: 047030927X Category : Science Languages : en Pages : 235
Book Description
Recycling von Kunststoffen, Gummi und anderen Polymeren: Wie beeinflussen solche Prozesse unsere Umwelt? Dieser Frage geht der vorliegende Band nach, wobei sich der Autor auf die neue Gesetzgebung in den USA, Japan und der EU bezieht, die Polymerhersteller zum Recycling zwingt. Vor- und Nachteile der Recyclingkreisläufe werden einander gegenübergestellt. Alle Kapitel enthalten Beispielfragen und -antworten.
Author: Bhupendra Prakash Sharma Publisher: Springer Nature ISBN: 9813360291 Category : Technology & Engineering Languages : en Pages : 672
Book Description
This book presents select proceedings of the International Conference on Future Learning Aspects of Mechanical Engineering (FLAME 2020). This book, in particular, focuses on characterizing materials using novel techniques. It covers a variety of advanced materials, viz. composites, coatings, nanomaterials, materials for fuel cells, biomaterials among others. The book also discusses advanced characterization techniques like X-ray photoelectron, UV spectroscopy, scanning electron, atomic power, transmission electron and laser confocal scanning fluorescence microscopy, and gel electrophoresis chromatography. This book gives the readers an insight into advanced material processes and characterizations with special emphasis on nanotechnology.
Author: Japan The Society of Fiber Science and Techno Publisher: Springer ISBN: 4431552030 Category : Technology & Engineering Languages : en Pages : 441
Book Description
This book reviews the key technologies and characteristics of the modern man-made specialty fibers mainly developed in Japan. Since the production of many low-cost man-made fibers shifted to China and other Asian countries, Japanese companies have focused on production of high-quality, high-performance super fibers as well as highly functionalized fibers so-called ‘Shin-gosen’. ZylonTM and DyneemaTM manufactured by Toyobo, TechnoraTM produced by Teijin, and VectranTM developed by Kuraray are those examples of super fibers. Carbon fibers ToraycaTM from Toray have occupied the most advanced high-performance application area. Various types of polyester fibers having design-shaped cross-sections and special fiber morphologies and those showing specific physico-chemical properties have also been developed to acquire a high-value textile market of the world. This book describes how these high-tech fibers have been developed and what aspects are the most important in each fiber based on its structure-property relationship. Famous specialists both in industry and academia are responsible for the contents, explaining the design concepts and the special technologies for the production of these special fibers. For university teachers and students, this volume is an excellent textbook that elucidates the basic concepts of modern fibers. At the same time, researchers, both in academia and industry, will find a comprehensive overview of recent man-made fibers. This publication, presenting the most easily understandable general survey of specialty man-made fibers to date, is dedicated to the 70th-anniversary of the Society of Fiber Science and Technology, Japan.
Author: Povl Brondsted Publisher: Elsevier ISBN: 0857097288 Category : Technology & Engineering Languages : en Pages : 485
Book Description
Wind energy is gaining critical ground in the area of renewable energy, with wind energy being predicted to provide up to 8% of the world’s consumption of electricity by 2021. Advances in wind turbine blade design and materials reviews the design and functionality of wind turbine rotor blades as well as the requirements and challenges for composite materials used in both current and future designs of wind turbine blades. Part one outlines the challenges and developments in wind turbine blade design, including aerodynamic and aeroelastic design features, fatigue loads on wind turbine blades, and characteristics of wind turbine blade airfoils. Part two discusses the fatigue behavior of composite wind turbine blades, including the micromechanical modelling and fatigue life prediction of wind turbine blade composite materials, and the effects of resin and reinforcement variations on the fatigue resistance of wind turbine blades. The final part of the book describes advances in wind turbine blade materials, development and testing, including biobased composites, surface protection and coatings, structural performance testing and the design, manufacture and testing of small wind turbine blades. Advances in wind turbine blade design and materials offers a comprehensive review of the recent advances and challenges encountered in wind turbine blade materials and design, and will provide an invaluable reference for researchers and innovators in the field of wind energy production, including materials scientists and engineers, wind turbine blade manufacturers and maintenance technicians, scientists, researchers and academics. Reviews the design and functionality of wind turbine rotor blades Examines the requirements and challenges for composite materials used in both current and future designs of wind turbine blades Provides an invaluable reference for researchers and innovators in the field of wind energy production
Author: Adisa Azapagic Publisher: John Wiley & Sons ISBN: 9780470856093 Category : Business & Economics Languages : en Pages : 468
Book Description
This groundbreaking text provides background theory on the concept of sustainable development (environmental, social and economic aspects) and presents a series of practical case studies on such topics as waste water management, air quality, solid waste management and renewable energy.
Author: Vijay Kumar Thakur Publisher: John Wiley & Sons ISBN: 1119224276 Category : Technology & Engineering Languages : en Pages : 750
Book Description
This unique multidisciplinary 8-volume set focuses on the emerging issues concerning synthesis, characterization, design, manufacturing and various other aspects of composite materials from renewable materials and provides a shared platform for both researcher and industry. The Handbook of Composites from Renewable Materials comprises a set of 8 individual volumes that brings an interdisciplinary perspective to accomplish a more detailed understanding of the interplay between the synthesis, structure, characterization, processing, applications and performance of these advanced materials. The Handbook comprises 169 chapters from world renowned experts covering a multitude of natural polymers/ reinforcement/ fillers and biodegradable materials. Volume 2 is solely focused on the Design and Manufacturing of renewable materials. Some of the important topics include but not limited to: Design and manufacturing of high performance green composites; manufacturing of high performance biomass-based polyesters by rheological approach; components design of fibrous composite materials; design and manufacturing of bio-based sandwich structures; design and manufacture of biodegradable products from renewable resources; manufacturing and characterization of quicklime filled metal alloy composites for single row deep groove ball bearing; manufacturing of composites from chicken feathers and poly (vinyl chloride); production of porous carbons from resorcinol-formaldehyde gels: applications; composites using agricultural wastes; manufacturing of rice wastes-based natural fiber polymer composites from thermosetting vs. thermoplastic matrices; thermoplastic polymeric composites; natural fiber reinforced PLA composites; rigid closed-cell PUR foams containing polyols derived from renewable resources; preparation and application of the composite from alginate; recent developments in biocomposites of bombyx mori silk fibroin; design and manufacturing of natural fiber/ synthetic fiber reinforced polymer hybrid composites; natural fiber composite strengthening solution for structural beam component for enhanced flexural strength; high pressure resin transfer molding of epoxy resins from renewable sources; cork based structural composites; the use of wheat straw as an agricultural waste in composites for semi-structural applications and design/ manufacturing of sustainable composites.
Author: Jyotishkumar Parameswaranpillai Publisher: John Wiley & Sons ISBN: 3527346783 Category : Technology & Engineering Languages : en Pages : 450
Book Description
Discover a one-stop resource for in-depth knowledge on epoxy composites from leading voices in the field Used in a wide variety of materials engineering applications, epoxy composites are highly relevant to the work of engineers and scientists in many fields. Recent developments have allowed for significant advancements in their preparation, processing and characterization that are highly relevant to the aerospace and automobile industry, among others. In Epoxy Composites: Fabrication, Characterization and Applications, a distinguished team of authors and editors deliver a comprehensive and straightforward summary of the most recent developments in the area of epoxy composites. The book emphasizes their preparation, characterization and applications, providing a complete understanding of the correlation of rheology, cure reaction, morphology, and thermo-mechanical properties with filler dispersion. Readers will learn about a variety of topics on the cutting-edge of epoxy composite fabrication and characterization, including smart epoxy composites, theoretical modeling, recycling and environmental issues, safety issues, and future prospects for these highly practical materials. Readers will also benefit from the inclusion of: A thorough introduction to epoxy composites, their synthesis and manufacturing, and micro- and nano-scale structure formation in epoxy and clay nanocomposites An exploration of long fiber reinforced epoxy composites and eco-friendly epoxy-based composites Practical discussions of the processing of epoxy composites based on carbon nanomaterials and the thermal stability and flame retardancy of epoxy composites An analysis of the spectroscopy and X-ray scattering studies of epoxy composites Perfect for materials scientists, polymer chemists, and mechanical engineers, Epoxy Composites: Fabrication, Characterization and Applications will also earn a place in the libraries of engineering scientists working in industry and process engineers seeking a comprehensive and exhaustive resource on epoxy composites.
Author: Rita Khanna Publisher: BoD – Books on Demand ISBN: 1789235189 Category : Technology & Engineering Languages : en Pages : 148
Book Description
Carbon fibres are lightweight, chemically stable materials with high mechanical strength, and have state-of-the-art applications in aerospace, marine, construction and automotive sectors. The demand for carbon fibre?based components is expected to grow dramatically with expanding opportunities for lightweight metals and composites. Although this field has achieved a high level of maturity, nanoscale developments in carbon fibres have seen dramatic improvements in the functions of conventional biomaterials and composites. This book reveals several new developments in the field to enhance characteristics of carbon fibres and their composites, novel applications for tissue engineering, biological scaffoldings and implants, recycling and reuse of end-of-life CFRP and manufacturing waste and other issues of concern in the field of carbon fibres.
Author: R.A. Ilyas Publisher: CRC Press ISBN: 1000521400 Category : Science Languages : en Pages : 541
Book Description
Having a solid understanding of materials recycling is of high importance, especially due to the growing use of composites in many industries and increasingly strict legislation and concerns about the disposal of composites in landfills or by incineration. Recycling of Plastics, Metals, and Their Composites provides a comprehensive review of the recycling of waste polymers and metal composites. It provides the latest advances and covers the fundamentals of recycled polymers and metal composites, such as preparation, morphology, and physical, mechanical, thermal, and flame-retardancy properties. FEATURES Offers a state-of-the-art review of the recycling of polymer composites and metal composites for sustainability Describes a life-cycle analysis to help readers understand the true potential value and market for these recycled materials Details potential applications of recycled polymer and metal composites Includes the performance of natural fiber–reinforced recycled thermoplastic polymer composites under aging conditions and the recycling of multi-material plastics Covers recycling technologies, opportunities, and challenges for polymer-matrix composites This book targets technical professionals in the metal and polymer industries as well as researchers, scientists, and advanced students. It is also of interest to decision makers at material suppliers, recycled metal and polymer product manufacturers, and governmental agencies working with recycled metal and polymer composites.
Author: Douglas Chen
Author: Douglas Chen
Author: Adisa Azapagic
Author: Bhupendra Prakash Sharma
Author: Japan The Society of Fiber Science and Techno
Author: Povl Brondsted
Author: Adisa Azapagic
Author: Vijay Kumar Thakur
Author: Jyotishkumar Parameswaranpillai
Author: Rita Khanna
Author: R.A. Ilyas