This monograph is based on research undertaken by the authors during the last ten years. The main part of the work deals with homogenization problems in elasticity as well as some mathematical problems related to composite and perforated elastic materials. This study of processes in strongly non-homogeneous media brings forth a large number of purely mathematical problems which are very important for applications. Although the methods suggested deal with stationary problems, some of them can be extended to non-stationary equations. With the exception of some well-known facts from functional analysis and the theory of partial differential equations, all results in this book are given detailed mathematical proof. It is expected that the results and methods presented in this book will promote further investigation of mathematical models for processes in composite and perforated media, heat-transfer, energy transfer by radiation, processes of diffusion and filtration in porous media, and that they will stimulate research in other problems of mathematical physics and the theory of partial differential equations.
This book is the result of inspirations and contributions from many researchers of different fields. A wide verity of research results are merged together to make this book useful for students and researchers who will take contribution for further development of the existing technology. I hope you will enjoy the book, so that my effort to bringing it together for you will be successful. In my capacity, as the Editor of this book, I would like to thanks and appreciate the chapter authors, who ensured the quality of the material as well as submitting their best works. Most of the results presented in to the book have already been published on international journals and appreciated in many international conferences.
This second volume of the Applied Human Cryobiology series contains presentations on the second German scientific symposium 2014 in Dresden as well as contributions of outstanding scientists in cryonics. Included are laudations to the awardees of the Robert Ettinger Medal. The brain as the only totally individualized human organ cannot be replaced (e.g. by cloning or stem cells). Therefore analyses of brain structure as well as studies in the postmortem stability of this organ are crucial for methods of vitrification and the rewarming of cryonics patients. Other organs and organisms are useful models for the development and testing of cryopreservation methods. These require strategies for the control and prevention of cryopreservation damage as well as damage caused by dying. New technologies can help to achieve these aims. An important field of research in this context is molecular repair. The further development of cryonics needs self-control, e.g. by analysis of its historical development and actual progress. Cryonics represents a method of life span extension and can be supported by other methods favoring longevity. This volume demonstrates that substantial progress has been made in all of these fields of research as well as in the application of the results of this research.
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