The purpose of this book is to determine whether the nonlinear theory of Schapery or the modified superposition method could adequately model the creep behavior of composites.
The purpose of this book is to determine whether the nonlinear theory of Schapery or the modified superposition method could adequately model the creep behavior of composites.
Leo Razdolsky has 45 years of experience in structural engineering, with focus on composite structures, power plants and cooling towers. He is also adept in computer modeling, material science and nanomaterials. Dr. Razdolsky has been teaching engineering courses at the University of Illinois and Northwestern University, and is currently conducting research work connected with high temperature creep of composite structural elements and systems. He has authored three books in this area.
Inhaltsangabe
Preface. Introduction and Overview. Creep Laws for Composite Materials. Creep Models of Fibrous and Dispersed Composites. Deterministic Approach. Creep models of nanocomposites. Deterministic approach. Physical chemistry of nanoparticles. Phenomenological Creep Models of Fibrous Composites (Probabilistic Approach). Phenomenological Creep Models of Nanocomposites (Probabilistic Approach)
