Characterization of Commercial Carbon Fiber from Standard PAN Precursors and Low-cost Carbon Fiber from Textile PAN Based Precursors PDF Download
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Author: Joshua David Crabtree
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
There is tremendous need to integrate carbon fiber composites for light-weighting in the transportation sector, especially for automotive composites and in energy generation space associated with wind turbine manufacturing. Tensile properties of carbon fibers are fundamental to designing fiber reinforced polymers and carbon/carbon composites. Carbon fiber suppliers typically follow general guidelines prescribed in the relevant standards (ASTM D4018) to prepare resin reinforced carbon fiber tows for determining the tensile properties. In this study, the effect of manufacturing process associated with carbon fiber tows was evaluated using two methods involving manual tensioned strands or using automated spool method. Important effects associated with fiber spacing, cross-sectional morphology of the infused tows are reported in this study. Single fiber mechanical properties are determined to obtain relationship from multiple length scales and the role of interfacial behavior between the carbon fiber and resin system using single fiber fragmentation. These results, for the first time, revealed important relationships between single fiber, interface, and infused tow based mechanical properties. A new concept for deformation response of infused tows, limit stress, demonstrated a connection in the nonlinearity nature of tensile modulus seen for carbon fibers in single fiber state and in tow format. Limit stress showed good representation of the relative role of relationships (interfacial behavior, crack propagation, and stress transfer) from limit stress to failure stress. Three low-cost precursors, oxidized PAN, and carbon fiber, from the Carbon Fiber Technology Facility with differences in spin finish and/or tenacity are studied in detail through various stages of oxidative stabilization and carbonization to develop improved understanding of the precursor properties and final textile PAN based carbon fiber properties. A systematic approach consisting of DSC, TGA, FT-IR, XRD, single fiber testing, and infused tow testing were considered in evaluating the process-structure-tensile property relationship for the three precursors. The results identified the role of spin finish and tenacity on the performance of low-cost carbon fiber. This part of the research provides an important conclusion that the carbon fiber manufacturing process using textile PAN precursors is industrially robust and is not strongly dependent on precursor tenacity or surface finish.
Author: Joshua David Crabtree
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
There is tremendous need to integrate carbon fiber composites for light-weighting in the transportation sector, especially for automotive composites and in energy generation space associated with wind turbine manufacturing. Tensile properties of carbon fibers are fundamental to designing fiber reinforced polymers and carbon/carbon composites. Carbon fiber suppliers typically follow general guidelines prescribed in the relevant standards (ASTM D4018) to prepare resin reinforced carbon fiber tows for determining the tensile properties. In this study, the effect of manufacturing process associated with carbon fiber tows was evaluated using two methods involving manual tensioned strands or using automated spool method. Important effects associated with fiber spacing, cross-sectional morphology of the infused tows are reported in this study. Single fiber mechanical properties are determined to obtain relationship from multiple length scales and the role of interfacial behavior between the carbon fiber and resin system using single fiber fragmentation. These results, for the first time, revealed important relationships between single fiber, interface, and infused tow based mechanical properties. A new concept for deformation response of infused tows, limit stress, demonstrated a connection in the nonlinearity nature of tensile modulus seen for carbon fibers in single fiber state and in tow format. Limit stress showed good representation of the relative role of relationships (interfacial behavior, crack propagation, and stress transfer) from limit stress to failure stress. Three low-cost precursors, oxidized PAN, and carbon fiber, from the Carbon Fiber Technology Facility with differences in spin finish and/or tenacity are studied in detail through various stages of oxidative stabilization and carbonization to develop improved understanding of the precursor properties and final textile PAN based carbon fiber properties. A systematic approach consisting of DSC, TGA, FT-IR, XRD, single fiber testing, and infused tow testing were considered in evaluating the process-structure-tensile property relationship for the three precursors. The results identified the role of spin finish and tenacity on the performance of low-cost carbon fiber. This part of the research provides an important conclusion that the carbon fiber manufacturing process using textile PAN precursors is industrially robust and is not strongly dependent on precursor tenacity or surface finish.
Author: Leighton H. Peebles
Publisher: CRC Press
ISBN: 1351087320
Category : Technology & Engineering
Languages : en
Pages : 260
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Book Description
Carbon Fibers presents an up-to-date review of the progress pertaining to the formation of carbon fibers from rayon, acrylic, and pitch precursors. The book emphasizes the preparation, characterization, and properties of commercial materials. It also considers the compressive properties of carbon fibers, the lack of correlation between surface characterization and fiber-matrix interactions, and the discrepancy between surface composition as determined by XPS and the reaction of surface groups with chemical reagents. Other topics discussed include:
Author: Viren Jayantibhai Patel
Publisher:
ISBN:
Category : Carbon fiber-reinforced plastics
Languages : en
Pages : 54
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Book Description
The purpose of this study was to manufacture and mechanically characterize low-cost carbon fiber derived from pitch-based precursor that meets or exceeds the general-purpose carbon fiber. For this study, isotropic coal-tar pitch precursor was used due to its ease in manufacturing carbon fiber and low-cost starting material. Various analyses such as elemental composition, softening point, TGA, FT-IR, NMR, single carbon fiber testing, and SEM were performed to fully characterize the precursor and carbon fiber. Using melt spinning method, the precursor was melt spun at 235 °C, a pressure of 1.5 MPa and a winding speed of 400 rpm to achieve continuous small diameter fibers known as spun/green fibers. The winding speed of the drum collector and the spinneret diameter controlled the overall diameter of the carbon fibers. The green fibers then underwent the thermal treatment processes of stabilization and carbonization. The green fibers were oxidized at 300 °C with a heating rate of 0.25 °C/min in air. Later, they were carbonized at 1100 °C with a heating rate of 1 °C/min in an inert environment. Experimentally it was determined that smaller diameter carbon fibers were easy to fully oxidize with a smaller heating rate. This also resulted in higher mechanical properties due to less defects in their structures. The isotropic pitch-based carbon fiber manufactured in this study have the maximum tensile strength and elastic modulus of 927 MPa and 86 GPa, respectively.
Author: A. R. Bunsell
Publisher: Elsevier
ISBN: 1845696808
Category : Technology & Engineering
Languages : en
Pages : 689
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Book Description
Fibres usually experience tensile loads whether they are used for apparel or technical structures. Their form, which is long and fine, makes them some of the strongest materials available as well as very flexible. This book provides a concise and authoritative overview of tensile behaviour of a wide range of both natural and synthetic fibres used both in textiles and high performance materials. After preliminary chapters that introduce the reader to tensile properties, failure and testing of fibres, the book is split into two parts. Part one examines tensile properties and failure of natural fibres, such as cotton, hemp, wool and silk. Part two discusses the tensile properties and failure of synthetic fibres ranging from polyamide, polyester and polyethylene fibres to carbon fibres. Many chapters also provide a general background to the fibre, including the manufacture, microstructure, factors that affect tensile properties as well as methods to improve tensile failure. With its distinguished editor and array of international contributors, Handbook of tensile properties of textile and technical fibres is an important reference for fibre scientists, textile technologists and engineers, as well as those in academia. Provides an overview of tensile behaviour of a wide range of both natural and synthetic fibres Examines tensile characterisitics, tensile failure of textiles fibres and factors that affect tensile properties Discusses mircostructures and each type of fibre from manufacture to finished product
Author: National Aeronautics and Space Administration (NASA)
Publisher: Createspace Independent Publishing Platform
ISBN: 9781722965990
Category :
Languages : en
Pages : 144
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Book Description
The microstructure and surface chemistry of eight low thermal conductivity (LTC) PAN-based carbon fibers were determined and compared with PAN-based fibers heat treated to higher temperatures. Based on wide-angle x ray diffraction, the LTC PAN fibers all appear to have a similar turbostratic structure with large 002 d-spacings, small crystallite sizes, and moderate preferred orientation. Limited small-angle x ray scattering (SAXS) results indicate that, with the exception of LTC fibers made by BASF, the LTC fibers do not have well developed pores. Transmission electron microscopy shows that the texture of the two LTC PAN-based fibers studied (Amoco T350/23X and /25X) consists of multiple sets of parallel, wavy, bent layers that interweave with each other forming a complex three dimensional network oriented randomly around the fiber axis. X ray photoelectron spectroscopy (XPS) analysis finds correlations between heat treated temperatures and the surface composition chemistry of the carbon fiber samples. Katzman, Howard A. and Adams, P. M. and Le, T. D. and Hemminger, Carl S. Unspecified Center CARBON FIBERS; HEAT TREATMENT; HIGH TEMPERATURE; LOW CONDUCTIVITY; MATERIALS TESTS; MICROSTRUCTURE; POLYACRYLONITRILE; SURFACE PROPERTIES; THERMAL CONDUCTIVITY; CRYSTALLITES; ELECTRON MICROSCOPY; PHOTOELECTRON SPECTROSCOPY; POROSITY; TRANSMISSION ELECTRON MICROSCOPY; X RAY DIFFRACTION; X RAY SCATTERING; X RAY SPECTROSCOPY...
Author: Vincent Kelly
Publisher:
ISBN: 9781856174305
Category : Carbon fibers
Languages : en
Pages : 512
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Book Description
Provides an account of the manufacturing processes for PAN, pitch and carbonized viscose rayon carbon fibres. This book includes a section on carbon fiber testing and characterization, followed by a section on textile conversion of carbon fibers and techniques for mixing carbon fiber and composite substrates.
Author: National Research Council
Publisher: National Academies Press
ISBN: 0309181836
Category : Technology & Engineering
Languages : en
Pages : 70
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Book Description
Military use of advanced polymer matrix composites (PMC)â€"consisting of a resin matrix reinforced by high-performance carbon or organic fibersâ€"while extensive, accounts for less that 10 percent of the domestic market. Nevertheless, advanced composites are expected to play an even greater role in future military systems, and DOD will continue to require access to reliable sources of affordable, high-performance fibers including commercial materials and manufacturing processes. As a result of these forecasts, DOD requested the NRC to assess the challenges and opportunities associated with advanced PMCs with emphasis on high-performance fibers. This report provides an assessment of fiber technology and industries, a discussion of R&D opportunities for DOD, and recommendations about accelerating technology transition, reducing costs, and improving understanding of design methodology and promising technologies.
Author: Jean-Baptiste Donnet
Publisher: CRC Press
ISBN: 1482285398
Category : Technology & Engineering
Languages : en
Pages : 584
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Book Description
"Third Edition offers the latest information on the structural, surface, mechanical, electronic, thermal, and magnetic properties of carbon fibers as well as their manufacture and industrial applications from many of the world's most distinguished specialists in the field. "
Author: Pratima Bajpai
Publisher:
ISBN: 9789811042300
Category : Polymers
Languages : en
Pages : 77
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Book Description
Author: Nitilaksha Phalaxayya Hiremath
Publisher:
ISBN:
Category : Calorimetry
Languages : en
Pages : 140
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Book Description
There is continuing effort to enhance the strength and modulus of carbon fibers by various combinations of materials and processing. Carbon fibers are produced from various precursors, and the strength of the CFs are directly related to the type of precursor used to make them. Carbon Nanotubes (CNTs) have received a great deal of attention due to their unique structure and properties. Major focus of this research is on the evaluation of processing, structure and properties of CNT based yarns and composite fibers. High strength and low cost carbon fibers (CFs) are needed for today's applications. A low cost and low molecular weight textile grade PAN is studied as the precursor polymer with CNT/ carbon nanofibers (CNFs) as the filler material to enhance the strength of the carbon fibers. Efforts by several researchers have shown that incorporation of CNTs into carbon fibers is a challenging task and only a small percent could be introduced successfully. Various concentrations of modified CNTs or CNFs are used as reinforcement and an effort to increase the percentage of CNTs or CNFs in PAN precursor is attempted. The tensile strength of the precursor fibers is 150 MPa for 3.2 wt% CNFs in 12 wt% PAN and 430 MPa for carbonized fibers of the same precursor. Compared to pristine PAN, the reinforcement resulted in 187% increase in strength and 74% increase in modulus. Commercially available CNT yarns have shown that their tensile properties are much lower than the calculated values. Various characterization techniques such as scanning electron microscopy (SEM), focused ion beam (FIB), transmission electron microscopy (TEM), tensile testing, and X-ray diffraction (XRD) are used to investigate the morphology of the fibers/yarns. Structural analysis indicated relatively poor packing/orientation of nanotubes compared to density of CNT and yarn axis, respectively. Possible approaches to further enhance the properties of CNT yarns are investigated. Some of these techniques demonstrated the increase in strength by more than 330 % and modulus by more than 360 %. These observed increases are due to enhanced packing and interaction between the nanotube bundles in the CNT yarn.
