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Author: Angel Cugini Publisher: ISBN: Category : Languages : en Pages :
Book Description
This thesis focuses on unconventional methods to improve the mechanical properties of glassy polymers such as PMMA, TritanTM Copolyester, and epoxy-based thermosets by influencing the intrinsic mechanical behavior through solid-state processing. The solid-state processing includes pre-stress, mechanical rejuvenation, and mechanical work hardening that cause changes in microscopic conformation structure and dynamics of glassy polymers and enhance properties such as non-linear deformation behavior and low and high velocity fracture. To utilize such unconventional techniques, one needs to understand fundamental origins of dynamics in polymeric glasses where the chain segments are not completely frozen and the segmental diffusion displays high degree of intermolecular cooperativity. We demonstrate how fundamental principles of polymer physics can be applied to improve fracture toughness of polymeric glasses. Emphasis is placed on structure-process-property relationships of these systems. In Chapter 2 long-term effects of physical aging and solid state processing are monitored through dynamic mechanical properties of an amorphous glassy polymer. These phenomena are investigated through dynamic mechanical testing that evaluates in-situ the evolution of the storage modulus with time during annealing and physical aging. Comparisons are made on samples with different thermal histories and mechanical treatment. The results are discussed in context to an aging rate obtained from the various thermal and mechanical treatments. We demonstrate that there is apparent work hardening of glassy polymers. The effect of strain rate, dwell time and material are compared and the permanence of the processing is investigated. In Chapter 3, we investigate the effect mechanical rejuvenation on the fracture toughness of epoxy-based thermosets and correlate the kinetics of the recovery of fracture toughness to compression based ductility parameters and dynamic mechanical analysis (DMA)-based aging rates. We also investigate the effect of molecular additives, antiplasticizers, on the structural recovery rate of the epoxy after mechanical rejuvenation. Chapter 4 studies the optimization of prestressed poly (methyl methacrylate) (PMMA), through equibiaxial compression with increasing amounts of shear and simple shear. To suppress inherent large radial crack growth associated with simple shear prestress, orientation is superimposed to minimize crack growth. These prestressed states are compared at both low velocity and ballistic rates. To investigate the low velocity impact dependence on rate, a strain energy density term is used to remove the dependence of geometry. Lastly, to reduce scatter in ballistic date, a master curve is developed to collapse all data regardless of boundary conditions, rate of impact and materials. In Chapter 5 we examine the correlation between ductility parameters based on dynamic mechanical data and fracture toughness and other non-linear mechanical properties. This chapter focuses on the model system poly (methyl methacrylate) and the relationship of these ductility parameters to other engineering properties for a range of temperatures and strain rates.
Author: Angel Cugini Publisher: ISBN: Category : Languages : en Pages :
Book Description
This thesis focuses on unconventional methods to improve the mechanical properties of glassy polymers such as PMMA, TritanTM Copolyester, and epoxy-based thermosets by influencing the intrinsic mechanical behavior through solid-state processing. The solid-state processing includes pre-stress, mechanical rejuvenation, and mechanical work hardening that cause changes in microscopic conformation structure and dynamics of glassy polymers and enhance properties such as non-linear deformation behavior and low and high velocity fracture. To utilize such unconventional techniques, one needs to understand fundamental origins of dynamics in polymeric glasses where the chain segments are not completely frozen and the segmental diffusion displays high degree of intermolecular cooperativity. We demonstrate how fundamental principles of polymer physics can be applied to improve fracture toughness of polymeric glasses. Emphasis is placed on structure-process-property relationships of these systems. In Chapter 2 long-term effects of physical aging and solid state processing are monitored through dynamic mechanical properties of an amorphous glassy polymer. These phenomena are investigated through dynamic mechanical testing that evaluates in-situ the evolution of the storage modulus with time during annealing and physical aging. Comparisons are made on samples with different thermal histories and mechanical treatment. The results are discussed in context to an aging rate obtained from the various thermal and mechanical treatments. We demonstrate that there is apparent work hardening of glassy polymers. The effect of strain rate, dwell time and material are compared and the permanence of the processing is investigated. In Chapter 3, we investigate the effect mechanical rejuvenation on the fracture toughness of epoxy-based thermosets and correlate the kinetics of the recovery of fracture toughness to compression based ductility parameters and dynamic mechanical analysis (DMA)-based aging rates. We also investigate the effect of molecular additives, antiplasticizers, on the structural recovery rate of the epoxy after mechanical rejuvenation. Chapter 4 studies the optimization of prestressed poly (methyl methacrylate) (PMMA), through equibiaxial compression with increasing amounts of shear and simple shear. To suppress inherent large radial crack growth associated with simple shear prestress, orientation is superimposed to minimize crack growth. These prestressed states are compared at both low velocity and ballistic rates. To investigate the low velocity impact dependence on rate, a strain energy density term is used to remove the dependence of geometry. Lastly, to reduce scatter in ballistic date, a master curve is developed to collapse all data regardless of boundary conditions, rate of impact and materials. In Chapter 5 we examine the correlation between ductility parameters based on dynamic mechanical data and fracture toughness and other non-linear mechanical properties. This chapter focuses on the model system poly (methyl methacrylate) and the relationship of these ductility parameters to other engineering properties for a range of temperatures and strain rates.
Author: S.V. Nemilov Publisher: CRC Press ISBN: 1351085735 Category : Science Languages : en Pages : 222
Book Description
This is the first book to logically present the major problems of the vitreous state within the framework of irreversible thermodynamics. Filled with elementary explanations for difficult problems, this easily understood text/reference treats in detail the criteria of glass transition, the peculiarities of relaxing structural parameters, and the Prigogine-Defay ratio. Based on the author's rigorous generalization of the Second Law for non-equilibrium, the book systematizes all known thermodynamic data for glasses and melts. The thermodynamic essence of structural relaxation and memory effects are considered. The viscous flow theories are treated as a constituent of the kinetic description. All theoretical questions are illustrated by comparison of calculations with the experiments for glasses of inorganic and organic nature, with special attention to structural classification. An informative review of modern structural investigations is included. The bibliography follows the history of the main problems from the nineteenth century.
Author: J. D. McGervey Publisher: ISBN: Category : Languages : en Pages : 3
Book Description
We have used the positron as a microscopic probe to clarify the connection between the microscopic properties (e.g., free volume distributions) and macroscopic properties (pressure, volume, and temperature relations) of polymers in the glassy state. Measurements of the positron lifetime distribution in the polymer as a function of temperature, aging, and applied strain have shown that positrons are sensitive to the distribution of free volume elements. However, we have also found that refinements in data analysis are necessary, and that we are far from obtaining an unambiguous free-volume distribution from the current results. Theoretical models are being tested to see if they are consistent with the results. We have also generated simulated positron lifetime distributions to test the validity of our curve-fitting methods, and we have discovered that these methods break down when the instrumental resolution curve exceeds approximately 250 nanoseconds, in width.
Author: R.N. Haward Publisher: Springer Science & Business Media ISBN: 9401158509 Category : Technology & Engineering Languages : en Pages : 513
Book Description
Since the publication of the first edition of The Physics of Glassy Polymers there have been substantial developments in both the theory and application of polymer physics, and many new materials have been introduced. Furthermore, in this large and growing field of knowledge, glassy polymers are of particular interest because of their homogeneous structure, which is fundamentally simpler than that of crystalline or reinforced materials. This new edition covers all these developments, including the emergence of the polymer molecule with its multiplicity of structure and conformations as the major factor controlling the properties of glassy polymers, using the combined knowledge of a distinguished team of contributors. With an introductory chapter covering the established science in the subject are and summarising concepts assumed in the later chapters, this fully revised and updated second edition is an essential work of reference for those involved in the field.
Author: Connie B. Roth Publisher: CRC Press ISBN: 1315305135 Category : Science Languages : en Pages : 587
Book Description
"the present book will be of great value for both newcomers to the field and mature active researchers by serving as a coherent and timely introduction to some of the modern approaches, ideas, results, emerging understanding, and many open questions in this fascinating field of polymer glasses, supercooled liquids, and thin films" –Kenneth S. Schweizer, Morris Professor of Materials Science & Engineering, University of Illinois at Urbana-Champaign (from the Foreword) This book provides a timely and comprehensive overview of molecular level insights into polymer glasses in confined geometries and under deformation. Polymer glasses have become ubiquitous to our daily life, from the polycarbonate eyeglass lenses on the end of our nose to large acrylic glass panes holding water in aquarium tanks, with advantages over glass in that they are lightweight and easy to manufacture, while remaining transparent and rigid. The contents include an introduction to the field, as well as state of the art investigations. Chapters delve into studies of commonalities across different types of glass formers (polymers, small molecules, colloids, and granular materials), which have enabled microscopic and molecular level frameworks to be developed. The authors show how glass formers are modeled across different systems, thereby leading to treatments for polymer glasses with first-principle based approaches and molecular level detail. Readers across disciplines will benefit from this topical overview summarizing the key areas of polymer glasses, alongside an introduction to the main principles and approaches.
Author: Connie B. Roth Publisher: CRC Press ISBN: 1315305143 Category : Science Languages : en Pages : 573
Book Description
"the present book will be of great value for both newcomers to the field and mature active researchers by serving as a coherent and timely introduction to some of the modern approaches, ideas, results, emerging understanding, and many open questions in this fascinating field of polymer glasses, supercooled liquids, and thin films" –Kenneth S. Schweizer, Morris Professor of Materials Science & Engineering, University of Illinois at Urbana-Champaign (from the Foreword) This book provides a timely and comprehensive overview of molecular level insights into polymer glasses in confined geometries and under deformation. Polymer glasses have become ubiquitous to our daily life, from the polycarbonate eyeglass lenses on the end of our nose to large acrylic glass panes holding water in aquarium tanks, with advantages over glass in that they are lightweight and easy to manufacture, while remaining transparent and rigid. The contents include an introduction to the field, as well as state of the art investigations. Chapters delve into studies of commonalities across different types of glass formers (polymers, small molecules, colloids, and granular materials), which have enabled microscopic and molecular level frameworks to be developed. The authors show how glass formers are modeled across different systems, thereby leading to treatments for polymer glasses with first-principle based approaches and molecular level detail. Readers across disciplines will benefit from this topical overview summarizing the key areas of polymer glasses, alongside an introduction to the main principles and approaches.
Author: Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
Our research effort on this project investigated the capability of positron annihilation lifetime (PAL) spectroscopy to characterize quantitatively the molecular-level structural disorder in the amorphous phase of polymer materials and to enhance our understanding of the relationships between molecular disorder and the functional properties of such materials. A particular interest was to characterize the change in free volume during isothermal annealing, which is the origin of the well-known physical aging effect in mechanical properties of polymeric glasses such as embrittlement.
Author: ES-W Kong Publisher: ISBN: Category : Glasses Languages : en Pages : 4
Book Description
A polymer does not, in general, reach thermodynamic equilibrium when quenched through its glass-transition temperature Tg because the motion of the polymer chains is impaired owing to the increase in viscosity. Thus, the polymer cannot reach its equilibrium conformation or degree of packing. One characteristic of the quenched glassy state is an excess of trapped free volume, and a consequence is a lowering of the bulk polymer density. This change in free volume also alters the molecular mobility and hence influences the segmental relaxation times.
Author: Martin R. Tant Publisher: ISBN: Category : Medical Languages : en Pages : 486
Book Description
In twenty-nine chapters by leading authorities, Structure and Properties of Glassy Polymers provides readers with comprehensive coverage of basic and applied research on glass polymers as well as a wealth of information on current topics such as molecular modeling, characterization, polymer glasses in confined spaces, and conducting glass polymers. The characterization techniques presented include temperature-modulated differential scanning calorimetry, dielectric loss spectroscopy, photochemical hole burning, positron annihilation lifetime spectroscopy, and transient current generation.
Author: Angel Cugini
Author: Angel Cugini
Author: S.V. Nemilov
Author: J. D. McGervey
Author: R.N. Haward
Author: Connie B. Roth
Author: Connie B. Roth
Author: Spe
Author: 
Author: ES-W Kong
Author: Martin R. Tant