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Looking forward to the future it is clear that today's narrow concept of fiber as a basic element for textiles, ropes and nets will become an outmoded notion. The emphasis will instead shift to new and exciting developments in fiber technology and their applications, exploring such fields as biomimetics, nanotechnology and biodegradability.New millennium fibers describes and identifies the scope of high-tech fibers. The present status and prospects of the fiber/textile technology are discussed and the high performance fibers are reviewed from origin to future applications, including carbon fiber.The themes of the book are summarised with a discussion on health care and the environment.As the 21st century progresses fibers will enter into more novel and unexpected applications. We are approaching the age of the wearable computer and organic electroluminescence wearable displays. New potential is open in the fields of car and aerospace industry, civil engineering, separation membranes using hollow fibers for artificial organs, biodegradable fiber for ecological conservation and fibers with biological functions.New millennium fibers explores the exciting roles that fibers will play in the future and will be an essential book for all of those in the textile and fashion industry involved in fiber development or use. - Keep up to date with the advances in fiber science - Explores new and exciting developments in fiber technology - Includes applications of new millennium fibers
A popular one-semester/quarter course offered at both 2-year and 4-year schools and taught by either the Health Sciences division or the Physical Education department. This is a survey of various health-related topics, such as nutrition, exercise, sexuality, substance abuse, disease, etc., usually with an emphasis on applying the concepts to students' own lives.
The first edition of New Fibers was enthusiastically received by a worldwide audience and this second edition has provided an opportunity to revise and update its contents and examine new developments since 1990.There have been considerable changes in the nature of the fibers being produced, the production methods and in consumers' values and expectations. Since 1990, the march of high-tech fibers has continued, with an ever increasing sub-division to meet specialised applications, as in high performance, high-function and high-sense fibers.New research and development has produced fibers with high tenacity and modulus to give the super-fibers now used as industrial materials. The more aesthetic and comfortable modern lifestyle has given rise to improved Shin-gosen and it is this springboard that leads on to 'fibers for the next millennium', the subject of a new chapter. Another new chapter examines the resurgence of synthetic cellulosics since 1990, in particular the various solvent-spun fibers of the Lyocell and Tencell families.
The identification of fibers is important to the textile industry, forensic science, fashion designers and historians among others. Identifying fibers involves observing the physical and chemical properties of the fiber for which there are a wide diversity of instruments available. This book provides a comprehensive review of fiber structure, the diversity of instruments available to identify fibers and applicications for a range of industries.The first part of the book examines the main fibers, their structure and characteristics. Part two focuses on methods of fiber identification, ranging from microscopic to DNA analysis. Specific applications, including how textiles are identified in forensic investigations.Identification of textile fibers is an important text for forensic scientists, police and lawyers who may be involved with the use of textile fibers to provide evidence in criminal cases. It will also be relevant for textile designers, technologists and inspectors wishing to assess fiber quality and understand fiber damage. - Provides a comprehensive review of the main types of fibre together with their structure, characteristics and identification - Assesses methods of fibre identification from optical microscopy to DNA analysis as well as instruments available to identify fibres
Advances in Technical Nonwovens presents the latest information on the nonwovens industry, a dynamic and fast-growing industry with recent technological innovations that are leading to the development of novel end-use applications. The book reviews key developments in technical nonwoven manufacturing, specialist materials, and applications, with Part One covering important developments in materials and manufacturing technologies, including chapters devoted to fibers for technical nonwovens, the use of green recycled and biopolymer materials, and the application of nanofibres. The testing of nonwoven properties and the specialist area of composite nonwovens are also reviewed, with Part Two offering a detailed and wide-ranging overview of the many applications of technical nonwovens that includes chapters on automotive textiles, filtration, energy applications, geo- and agrotextiles, construction, furnishing, packaging and medical and hygiene products. - Provides systematic coverage of trends, developments, and new technology in the field of technical nonwovens - Focuses on the needs of the nonwovens industry with a clear emphasis on applied technology - Contains contributions from an international team of authors edited by an expert in the field - Offers a detailed and wide-ranging overview of the many applications of technical nonwovens that includes chapters on automotive textiles, filtration, energy applications, geo- and agrotextiles, and more
The 50th annual symposium of the New Orleans Academy of Ophthalmology was held from April 6th – 8th, 2001. This was the Academy’s ninth meeting devoted to glaucoma and consisted of formal lectures, round table discussions, and workshop presentations. The New Orleans Academy of Ophthalmology maintains a strong tradition of providing the ophthalmologist with a venue for learning from exceptional mentors and innovative leaders. Inspection of the list of Academy meetings pertaining to glaucoma will highlight the fact that we have been privileged to have outstanding contributors and notable repeat performers (Appendix 1). The first symposium of this Academy was held in 1952 and, with its focus on glaucoma, the contributors were Sir Stewart Duke-Elder, Paul A. Chandler, MD, and Peter C. Kronfeld, MD. The first three lectures from that 1952 meeting were presented by Sir Stewart Duke-Elder and are published for the first time, from a copy of the original transcript, in this collection of papers. I think you will find his discussion of ‘simple’ and ‘congestive’ glaucoma enlightening and instructive. The Program Committee chairpersons, Claude F. Burgoyne, MD and Katherine Loftfield, MD, were instrumental in putting together a strong assembly of contributors and a well-balanced meeting. Special acknowledgment for their hard work in organizing this symposium goes to committee members Rameish Ayyala, MD, Annemarie Etienne, MD, Kenneth Haik, MD, Jill B. Koury, MD, and Daniel A. Long, MD, and to executive secretaries, Emily Busby and Amber Howell. For his dedicated and thoughtful leadership, much appreciation is given to the president of the New Orleans Academy of Ophthalmology, 2000-2002, George S. Ellis, Jr, MD, and to the board of directors. The Academy acknowledges its sponsors for providing unrestricted financial support, which helped to defer the expense of this medical education meeting and subsequent publication. Special thanks go to Peter Bakker at Kugler Publications for his guidance and wisdom, as well as his unending support for the task of publishing this glaucoma specialty symposium. The contributors to this symposium on glaucoma are outstanding. They provided chapters covering a wide range of issues that confront the general ophthalmologist, as well as the glaucoma specialist. Due to an unfortunate circumstance, Chris A. Johnson, PhD, was unable to attend the meeting; however, he was gracious enough to provide his written contribution, which is included in this compilation of papers. You will find that the lectures, round table discussions, and workshop sessions are filled with pearls of wisdom that will help guide you toward a modern, common sense approach in addressing the special needs of your glaucoma patients. Jonathan D. Nussdorf, MD Ochsner Clinic Foundation New Orleans, Louisiana, USA
Structure and Properties of High-Performance Fibers explores the relationship between the structure and properties of a wide range of high-performance fibers. Part I covers high-performance inorganic fibers, including glasses and ceramics, plus carbon fibers of various types. In Part II, high-performance synthetic polymer fibers are discussed, while Part III reviews those natural fibers that can be used to create advanced textiles. The high-performance properties of these fibers are related to their chemistry and morphology, as well as the ways in which they are synthesized and spun. High-performance fibers form the basis of textile materials with applications in protection, medicine, and composite reinforcement. Fibers are selected for these technical applications due to their advanced physical, mechanical, and chemical properties. - Offers up-to-date coverage of new and advanced materials for the fiber and textile industries - Reviews structure-property relationships of high-performance inorganic, carbon, synthetic polymer, and natural fibers - Includes contributions from an international team of authors edited by an expert in the field - Reviews those natural fibers that can be used to create advanced textiles
This report documents the results from an investigation of a new polymer fiber and unique delivery system for charging fibers into concrete mixtures. The straight Polyolefin fibers are available in two sizes: (1) 0.63 mm in diameter and 50 mm long, and (2) 0.38 mm in diameter and 25 mm long. Each of the two sizes of fibers is packaged in bundles approximately 50 mm in diameter. Each. bundle is encased with paper tape bound with a water-soluble glue. The fibers are charged into the concrete mixture in mass. Approximately 3 to 10 min of mixing time is necessary to uniformly distribute the fibers throughout the concrete mixture, depending upon the fiber content, consistency of the concrete mixture, and the type of mixer being used. Fresh and hardened properties were evaluated in mixtures containing up to 15 kg/cu m. The results indicate that concrete mixtures with the Polyolefin fibers can be produced having adequate workability and finishability if proportioned properly. Addition of the Polyolefin fibers does not significantly influence the compressive nor first-crack flexural strength, freezing-and-thawing resistance, drying shrinkage, nor the chloride permeability of concrete mixtures. However, the presence of the Polyolefin fibers does influence the post-crack behavior of concrete mixtures. Impact resistance and flexural toughness are improved as the fiber loading increases. A 6,100-m whitetopping demonstration project was constructed on a heavily traveled interstate in Mississippi. The whitetopping was 100 mm thick. Details of the specifications, construction, and early-time performance are given.
The fiber laser, with its humble beginning in the late 1980s, has undergone tremendous development in the past decade or so, transforming itself from a research curiosity to a major force in modern manufacturing. Today, it is revolutionizing our economy by fundamentally changing the way we mark, machine, and process materials on an industrial scale. The recent development of high-power fiber lasers is also fundamentally shaping a wide range of other areas from physical sciences and medicine to geology and space exploration. In the past few years, the tactical deployment of direct energy weapons based on fiber lasers has become a reality. The development of fiber lasers is rooted in a number of technical areas including optical materials, optical waveguide design, nonlinear optics, optical fiber fabrication, and optical characterization, in addition to optical fiber components, and fiber laser design and architecture. No comprehensive in-depth coverage of such diverse topical areas has appeared in a single book. Many important developments have taken place in the past decade in both academia and industry. This book comprehensively covers the basics, technology and applications of fiber lasers including up-to-date developments in both academia and industry and is aimed to serve as both an introduction and research aid for graduate students, engineers, and scientists who are new to this field and also for veterans in the field