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This book offers a comprehensive introduction to polymer rheology
with a focus on the viscoelastic characterization of polymeric
materials. It contains various numerical algorithms for the
processing of viscoelastic data, from basic principles to advanced
examples which are hard to find in the existing literature. The
book takes a multidisciplinary approach to the study of the
viscoelasticity of polymers, and is self-contained, including the
essential mathematics, continuum mechanics, polymer science and
statistical mechanics needed to understand the theories of polymer
viscoelasticity. It covers recent achievements in polymer rheology,
such as theoretical and experimental aspects of large amplitude
oscillatory shear (LAOS), and numerical methods for linear
viscoelasticity, as well as new insights into the interpretation of
experimental data. Although the book is balanced between the
theoretical and experimental aspects of polymer rheology, the
author's particular interest in the theoretical side will not
remain hidden. Aimed at readers familiar with the mathematics and
physics of engineering at an undergraduate level, the
multidisciplinary approach employed enables researchers with
various scientific backgrounds to expand their knowledge of polymer
rheology in a systematic way.
This book offers a comprehensive introduction to polymer rheology
with a focus on the viscoelastic characterization of polymeric
materials. It contains various numerical algorithms for the
processing of viscoelastic data, from basic principles to advanced
examples which are hard to find in the existing literature. The
book takes a multidisciplinary approach to the study of the
viscoelasticity of polymers, and is self-contained, including the
essential mathematics, continuum mechanics, polymer science and
statistical mechanics needed to understand the theories of polymer
viscoelasticity. It covers recent achievements in polymer rheology,
such as theoretical and experimental aspects of large amplitude
oscillatory shear (LAOS), and numerical methods for linear
viscoelasticity, as well as new insights into the interpretation of
experimental data. Although the book is balanced between the
theoretical and experimental aspects of polymer rheology, the
author's particular interest in the theoretical side will not
remain hidden. Aimed at readers familiar with the mathematics and
physics of engineering at an undergraduate level, the
multidisciplinary approach employed enables researchers with
various scientific backgrounds to expand their knowledge of polymer
rheology in a systematic way.
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