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In this second edition, considering the increasing social concerns on sustainability, the authors newly introduce an ingenious material design of rubber vulcanization along with outlining the reaction mechanism. Novel characterization methods for rubber networks and filler structures are updated, and the unique feature of rubber tires for modern and future sustainable society is described. The contents of this book are of interest even for general readers who are concerned with environmental and sustainable issues on our Earth. This book also provides an up-to-date text on rubber science and…mehr

Produktbeschreibung
In this second edition, considering the increasing social concerns on sustainability, the authors newly introduce an ingenious material design of rubber vulcanization along with outlining the reaction mechanism. Novel characterization methods for rubber networks and filler structures are updated, and the unique feature of rubber tires for modern and future sustainable society is described. The contents of this book are of interest even for general readers who are concerned with environmental and sustainable issues on our Earth.
This book also provides an up-to-date text on rubber science and is a breakthrough among many rubber-related publications. Emphasis is placed on the most modern scientific approaches to rubber science, departing from the usual detailed descriptions of trial-and-error results of traditional rubber technology. This book is a good introduction to modern rubber science both for graduate students and for more or less experienced rubber engineers for updatingtheir way of thinking in handling of technological problems.
Autorenporträt
Yuko Ikeda received her bachelor's degree in 1984 and master's degree in 1986 at Kyoto Institute of Technology (KIT). In 1991, she obtained her Doctorate in Engineering at Kyoto University. She was a visiting researcher in University of Bayreuth, Germany in 1993, and was dispatched to Texas Christian University, USA in 1996 as a researcher in the Ministry of Culture and Foreign Affairs of Japan. From 2016 to 2021, she was a director of Center for Rubber Science and Technology in KIT. She is currently an academic advisor at Research Institute for Production Development, a professor emeritus at KIT, and a part-time lecturer at University of Fukui. She has conducted all fundamentals of rubber science, in particular, characterization of natural rubber. Her current research is focused on vulcanization of rubber (JSPS Research Fellowship (B) (Grant No. JP22H02144)). She has published 144 papers, 73 review articles, 48 book chapters and 5 books. In 2014, she was the first female scientistto receive the 29th Oenslager award from The Society of Rubber Science and Technology, Japan. She has 34 years of teaching experience at KIT. Atsushi Kato received his Ph.D. from Tohoku University in 1985. His research interests include synthesis of aliphatic polysulfides by phase-transfer-catalyzed polycondensation of dibromoalkanes with dithiols, unusual stress-strain properties of natural rubber vulcanizates with high primary molecular weight, fatigue characteristics of glass fiber-reinforced polyamide, study on microfracture mechanism of glass fiber-reinforced polycarbonate by using acoustic emission, optical transparency and silica network in cross-linked natural rubber as revealed by spectroscopic and three-dimensional transmission electron microscopy technique, reinforcement mechanism of carbon black in natural rubber vulcanizates, and so on. He is currently working on development of analysis technology of soft materials at the phenomenological analysis department of NISSAN ARC, LTD. He won the Materials Life Society Review Award from the Materials Life Society, Japan, in 2009, and the Rubber-Technical Merit Award from the Society of Rubber Science and Technology, Japan, in 2012. Shinzo Kohiya received his Ph.D. from Kyoto University in 1974. His research interests include kinetic studies on ionic polymerizations, development of soft rubbery materials of high functionality, structural studies on polymeric amorphous materials and their applications, and scientific elucidation of filler dispersion in rubbery matrix. He is currently a professor emeritus, Kyoto University. He is the author of several books, and about 350 papers which appeared in decent international journals. He won the Oenslager award from¿ the Chemical Society of Japan, in 1994. He has 23 years, 13 years, and 3 years of teaching experiences at Kyoto Institute of Technology, Kyoto University, and Mahidol University in Thailand, respectively. Yukio Nakajima received her Ph.D. from the University of Akron in 1985. His research interests include the technological development based on tire mechanics, numerical simulation, and experiments. He is currently the technology consultant for tire mechanics after retiring the Kogakuin University. He is the author of the book "Advanced Tire Mechanics", published 72 articles and contributed to 7 books. He won the best paper awards three times from Tire Society and once from FISITA, the contribution award to rubber industry from the society of rubber industry, the Bekker-Reece-Radforth Award from ISTVS, the patent award twice, the president award three times, and the new technology award three times from Bridgestone Corporation. He has 33 years of tire research at Bridgestone Corp. and 10 years of teaching experience at the Kogakuin University.
Rezensionen
"This text introduces modern rubber science to the scientific and technical communities. ... This book is a useful addition to the literature on rubber science, and it is recommended to students and professionals in rubber science and technology." (A. M. Strauss, Choice, Vol. 55 (12), August, 2018)