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Polymer Glasses [Hardback]

Edited by (Connie B. Roth, Emory University, Atlanta, GA)
  • Formāts: Hardback, 556 pages, height x width: 254x178 mm, weight: 1570 g, 16 Illustrations, color; 30 Illustrations, black and white
  • Izdošanas datums: 21-Dec-2016
  • Izdevniecība: CRC Press Inc
  • ISBN-10: 1498711871
  • ISBN-13: 9781498711876
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  • Hardback
  • Cena: 340,82 €
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Polymer GlassesPalielināt
  • Formāts: Hardback, 556 pages, height x width: 254x178 mm, weight: 1570 g, 16 Illustrations, color; 30 Illustrations, black and white
  • Izdošanas datums: 21-Dec-2016
  • Izdevniecība: CRC Press Inc
  • ISBN-10: 1498711871
  • ISBN-13: 9781498711876
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781498711876.html
Keywords:

"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.

Recenzijas

"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) "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)

Foreword ix
Preface xi
Editor xiii
Contributors xv
PART 1 WHAT MAKES POLYMER GLASSES UNIQUE?
1(178)
1 Fundamentals of polymers and glasses
3(20)
Connie B. Roth
Roman R. Baglay
2 Structural recovery and physical aging of polymeric glasses
23(32)
Sindee L. Simon
Gregory B. McKenna
3 Glass transition and relaxation behavior of supercooled polymer melts: An introduction to modeling approaches by molecular dynamics simulations and to comparisons with mode-coupling theory
55(52)
Jorg Baschnagel
Ivan Kriuchevskyi
Julian Helfferich
Celine Ruscher
Hendrik Meyer
Olivier Benzerara
Jean Farago
Joachim P. Wittmer
4 Thermo-mechanical signatures of polymeric glasses
107(72)
James M. Caruthers
Grigori A. Medvedev
PART 2 POLYMER GLASSES IN CONFINEMENT
179(176)
5 Correlating glass transition and physical aging in thin polymer films
181(24)
Connie B. Roth
Justin E. Pye
Roman R. Baglay
6 Mechanical and viscoelastic properties of polymer thin films and surfaces
205(38)
Gregory B. McKenna
Meiyu Zhai
7 Glassy and aging dynamics in polymer films investigated by dielectric relaxation spectroscopy
243(24)
Koji Fukao
8 Cooperative motion as an organizing principle for understanding relaxation in supported thin polymer films
267(34)
Paul Z. Hanakata
Beatriz A. Pazmino Betancourt
Jack F. Douglas
Francis W. Starr
9 Mechanical properties of polymers and nanocomposites close to the glass transition
301(54)
Alain Dequidt
Didier R. Long
Samy Merabia
Paul Sotta
PART 3 POLYMER GLASSES UNDER DEFORMATION
355(182)
10 A molecular perspective on the yield and flow of polymer glasses: The role of enhanced segmental dynamics during active deformation
357(18)
Mark D. Ediger
Kelly Hebert
11 Local relaxation, aging, and memory of polymer glasses at rest and under stress
375(20)
Jorg Rottler
12 Experiments-inspired molecular modeling of yielding and failure of polymer glasses under large deformation
395(30)
Shi-Qing Wang
Shiwang Cheng
13 Modeling strain hardening in polymer glasses using molecular simulations
425(26)
Robert S. Hoy
14 A comparison of constitutive descriptions of the thermo-mechanical behavior of polymeric glasses
451(86)
Grigori A. Medvedev
James M. Caruthers
Index 537
Connie B. Roth is currently an Associate Professor of Physics at Emory University, as well as the Director of Graduate Studies for the Physics Doctoral program. She received her Ph.D. and M.Sc. in Physics from the University of Guelph, Canada. Her interest in polymers stems from her time working at Xerox Research Centre of Canada (XRCC) during summers while pursuing her B.Sc. in Physics at McMaster University in Canada. Following postdoctoral positions at Simon Frazier University, Vancouver, and Northwestern University, Chicago, Dr. Roth joined Emorys faculty in 2007. Prof. Roths research lab studies the physical and mechanical properties of polymer glasses near interfaces, as well as the effects of stress, temperature, and miscibility. She has received a National Science Foundation (NSF) CAREER Award, American Chemical Society PRF Doctoral New Investigator grant, and was the 2009 recipient of the Division of Polymer Physics (DPOLY) / United Kingdom Polymer Physics Group (UKPPG) Polymer Lecture Exchange by the American Physical Society.