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Informationen zum Autor Menashi Cohen is the author of Materials Science of Concrete: The Sidney Diamond Symposium, Special Volume, published by Wiley. Klappentext This book is a collection of papers from the symposium honoring Professor Sidney Diamond of the School of Civil Engineering, Purdue University, one of the leading scholars in the field of concrete science. The volume contains: Chemical and physical aspects of mechanisms of hydration of cements; development of concrete microstructure and mechanical properties; and various aspect of mechanisms of concrete deterioration, including alkali-silica reaction (ASR), freezing-thawing, and corrosion of reinforcement. Includes Dr. Diamond's paper, "Concrete Porosity Revisited." Zusammenfassung This book is a collection of papers from the symposium honoring Professor Sidney Diamond of the School of Civil Engineering! Purdue University! one of the leading scholars in the field of concrete science. Inhaltsverzeichnis Microstructure, Porosity and Permeability. Concrete Porosity Revisited (Sidney Diamond ). Influence of Curing Condition on the Microstructure Formation in High-Strength Concrete (Shunsuke Hanehara and Hiroshi Uchikawa). Permeability of Concrete--Relationships to its Mix Proportion, Microstructure, and Microcracks (Kejin Wang, Takeru Igusa, and Surendra P. Shah). Cement Clinker and Hydration. Trace Elements in Clinker and Their Use as 'Fingerprints' to Facilitate Their Qualitative Identification (Ferenc D. Tamás, Arezki Tagnit-Hamou, and Josef Tritthart). Formation of Jennite and Tobermorite and Their Relationship with C-S-H Gel in Hydrated Cement Paste (Naomichi Hara, Norihiro Inoue, and Hiroaki Noma). Portland Cement without Gypsum (Wieslaw Kurdowski, Sywester Duszak, and Barbara Trybalska). Effect of the Synthesis Temperature on the Hydration Reaction of Fly Ash-Belite Cement (S. Goñi, A. Guerrero, A. Macías, and M.P. Luxán). The Degree of Cement Hydration Determined by Backscattered Electron Imaging (João Castro Gomes, Joseph Cabrera, and Said Jalali). The Structure of Ettringite (R. Berliner). Modeling Ionic Interaction Mechanisms in Cement-Based Materials - An Overview (J. Marchand, Y. Maltais, É. Samson, V. Johansen, and K. Hazrati). Mechanical Properties, Testing, and Fiber Reinforcement. Fracture Behavior of Biaxially Confined Fiber Reinforced High-Strength Concrete Due to Impact Loading (K.-A. Rieder and S. Mindess). Effect of Fiber on Autogenous Shrinkage Stress of High-Strength Cement Mortar (Shingo Miyazawa, Tokio Kuroi, and Hisashi Shimomura). Effect of Higher Strength on Pavement Performance (Will Hansen, Ashraf R. Mohamed, Christopher R. Byrum, and Elin Jensen). A New Tensile Tester for Cementitious Materials (Tahar El-Korchi, Shuji Tsubota, and Houssam Toutanji). Processed Cellulose Fiber Reinforced Portland Cement Concrete (Neeraj Buch and Mohammad Owais Rehman). Rheology. Control of Concrete Rheology (Leslie Struble, Xihuang Ji, Guy Salinas and Richard Szecsy). Mix-Design Method of Concrete with Impact on Rheological Requirements (T. Roshavelov, Ö. Petersson, and P. Billberg). Durability. Composition of ASR Gels and Expansion of Mortars (Mitsunori Kawamura, Noriyuki Arano, and Tsutomu Terashima). Mechanisms of the Suppression of ASR Expansion (Fly Ash from the View Point of Gel Composition by Mitsunori Kawamura, Noriyuki Arano, and Tsutomu Terashima). Chloride Ion Activities in Synthetic Concrete Pore Solutions: Theoretical Models and Potentiometric Measurements (M.A. Climent, G. de Vera, A. Hidalgo, C. Andrade, and C. Alonso). Delayed Ettringite Formation: Effect of Clinker Particle Size and Composition on Expansion of Mortar Bars (P.E. Gr...
