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This important new handbook provides comprehensive coverage of how
high performance fibres are designed and manufactured and covers
their capabilities and applications. The high-modulus,
high-tenacity (HM-HT) fibres fall naturally into three groups -
polymer fibres such as aramids and polyethylene fibres; carbon
fibres such as Kevlar; and inorganic fibres based on glass and
ceramic fibres.
The books shows how high performance fibres are being increasingly
used for a wide range of applications including goetextiles and
geomembranes and for construction and civil engineering projects as
well as in specialist fibres within composite materials where their
ability to fulfil demanding roles makes them an effective choice
for the engineer and materials scientist.
Provides a comprehensive overview of how high performance fibres
are designed and manufactured and covers their capabilities and
applicationsExplains how high performance fibres are being
increasingly used for a wide range of applications, including
geotextiles and geomembranes and construction and civil engineering
projects
Texturing is increasingly important in textile production, not only
in yarns for weaving and knitting fashion products, but also for
carpets, furnishing fabrics and a variety of technical textiles.
This book covers all the major techniques including
twist-texturing, jet-screeen texturing, false-twist process, BCF
processes and air-jet texturingare in detail. Combining a
comprehensive review of the physics and chemistry of texturing with
a thorough, illustrated description of current practice, this book
is invaluable for yarn and fabric manufacturers, textile scientists
and students on textile science and technology courses.
Continued and systematic analysis of the mechanics of flexible
fibre assemblies dates from about 1945, although the growth of
research into textiles after 1920 had included studies of fabric
structure and the measurement of mechanical properties. The subject
is thus a young one, although this NATO Advanced Study Institute is
a sign of developing maturity. However there is an earlier
tradition. Relevant, even if somewhat loosely connected, quotations
can be found in the works of the engineers of the ancient
civilisations, recurring during the llenaissance with Leonardo da
Vinci and Galileo. But the glorious libk is with Euler and the
Bernoulli family, with their theories of the mechanics of flexible
slender rods. While mathematicians have admired the beauty of this
work, the invention of elliptic integrals, and the grace of the
different classes of planar elastica, it is in the technology of
textile materials, composed of flexible fibres and yarns, that the
subject has found its more direct application. All this, and much
more such as Max Born's doctoral thesis, was brought to our
attention in a delightful discourse by Milos Konopasek, who is not
only fascinated by the mathematics of Euler and the modern movement
of the solutions of bending curves from two dimensions into three
by the use of the computer, but also feels a personal link through
having lived and studied within sight of the scene of Euler's
triumphs in St. Petersburg.
Due to their complexity and diversity, understanding the structure
of textile fibres is of key importance. This authoritative
two-volume collection provides a comprehensive review of the
structure of an extensive range of textile fibres.
Volume 1 begins with an introductory set of chapters on fibre
structure and methods to characterise fibres. The second part of
the book covers the structure of manufactured polymer fibres such
as polyester, polyamides, polyolefin, elastomeric and aramid fibres
as well as high-modulus, high-tenacity polymer fibres. Chapters
discuss fibre formation during processing and how this affects
fibre structure and mechanical properties. A companion volume
reviews natural, regenerated, inorganic and specialist fibres.
Edited by leading authorities on the subject and with a team of
international authors, the two volumes of the Handbook of textile
fibre structure is an essential reference for textile
technologists, fibre scientists, textile engineers and those in
academia.
The first title of a authoritative two-volume collection that
provides a comprehensive review of the structure of a range of
textile fibresProvides an overview of the development of fibre
structure and methods to characterise fibresExamines the structure
of both traditional and new fibres and natural and manufactured
fibres
First published in 1962, and now in its fourth edition, Physical
properties of textile fibres has become a classic, providing the
standard reference on key aspects of fibre performance. The new
edition has been substantially reorganised and revised to reflect
new research.
After introductory chapters on fibre structure, testing and
sampling, the book reviews key fibre properties, their technical
significance, factors affecting these properties and measurement
issues. Each chapter covers both natural and synthetic fibres,
including high-performance fibres. The book first reviews
properties such as fineness, length and density. It then considers
thermal properties and reaction to moisture. A further group of
chapters then reviews tensile properties, thermo-mechanical
responses, fibre breakage and fatigue. Finally, the book discusses
dielectric properties, electrical resistance and static, optical
properties and fibre friction.
Written by one of the world s leading authorities, the fourth
edition of Physical properties of textile fibres consolidates its
reputation as a standard work both for those working in the textile
industry and those teaching and studying textile science.
A standard reference on key aspects of fibre performanceAn
essential read and reference for textile technologists, fibre
scientists, textile engineers and those in academiaProvides
substantial updated material on fibre structure and new test
methods, data and theories regarding properties of textile fibres"
The field of fibre rope technology has witnessed incredible change
and technological advance over the last few decades. At the
forefront of this change has been the development of synthetic
fibres and modern types of rope construction. This handbook updates
the history and structural mechanics of fibre rope technology and
describes the types and properties of modern rope-making materials
and constructions.
Following an introduction to fibre ropes, the Handbook of fibre
rope technology takes a comprehensive look at rope-making
materials, rope structures, properties and mechanics and covers
rope production, focusing on laid strand, braided, low-twist and
parallel yarn ropes. Terminations are also introduced and the many
uses of rope are illustrated. The key issues surrounding the
inspection and retirement of rope are identified and rope testing
is thoroughly examined. The final two chapters review rope markets,
distribution and liability and provide case studies from the many
environments in which fibre rope is used.
The Handbook of fibre rope technology is an essential reference for
everyone assisting in the design, selection, use, inspection and
testing of fibre rope.
A comprehensive look at rope-making materials and structures,
properties and mechanicsCovers rope production including laid
strand, braided, low-twist and parallel yarn ropes and rope
terminationsRope testing is examined in depth, as well as the key
issues surrounding rope retirement
Due to their complexity and diversity, understanding the
structure of textile fibers is of key importance. This
authoritative collection provides a comprehensive review of the
structure of an extensive range of textile fibers.
After an introductory set of chapters on fiber structure and
methods to characterize fibers, the book is classified into three
main fiber groups. The second part of the book includes chapters
that review the structure of natural cellulosic and protein fibers,
including cotton, silk, and wool. Part three covers the structure
of manufactured polymer fibers, for example polyester, polyamides,
elastomeric fibers, and high-modulus, high-tenacity polymer fibers.
The concluding part of the book discusses the structure of a
variety of other textile fibers such as glass, carbon and optical
fibers.
Edited by leading authorities on the subject and with a team of
international authors, the Handbook of Textile Fiber Structure is
an essential reference for textile technologists, fiber scientists,
textile engineers, and those in academia.
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