Creep and Hygrothermal Effects in Concrete Structures: 225 (Solid Mechanics and Its Applications) - Tapa dura

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Zdeněk Bažant. Born and educated in Prague (Ph.D. 1963), Zdeněk Bažant joined Northwestern in 1969, where he has been W.P. Murphy Professor since 1990 and simultaneously McCormick Institute Professor since 2002, as well as Director of Center for Geomaterials (1981–87). He was inducted to NAS, NAE, American Academy of Arts & Sciences, Royal Society London; to the academies of Italy (Lincei), Austria, Spain, Czech Republic, Greece (Athens) and Lombardy; and to Academia Europaea and European Academy of Sciences & Arts. He is an honorary member of ASCE, ASME, ACI, and RILEM; received seven honorary doctorates as well as the von Karman, Timoshenko, Prager and Newmark medals among many others; was awarded the Austrian Cross for Science and Art 1st Class from  President of Austria; was President of SES, founding President of IA-FraMCoS and IA-ConCreep, and Editor-in-Chief of ASCE Journal of Engineering Mechanics. He has previously authored

Milan Jirásek  graduated from the Czech Technical University in Prague in 1985 and received his Ph.D. from Northwestern University in 1993. From 1994 to 2004 he was a researcher at the Swiss Federal Institute of Technology in Lausanne. Since 2004 he has been a professor at the Faculty of Civil Engineering, Czech Technical University in Prague. His research focuses on mathematical modeling and numerical simulations of deformation and failure of materials and structures, based on the theories of viscoelasticity, plasticity, fracture and damage mechanics. He has co-authored one book (Inelastic Analysis of Structures) and more than 60 journal papers,and he

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This comprehensive treatise covers in detail practical methods of analysis as well as advanced mathematical models for structures highly sensitive to creep and shrinkage. Effective computational algorithms for century-long creep effects in structures, moisture diffusion and high temperature effects are presented.  The main design codes and recommendations (including RILEM B3 and B4) are critically compared. Statistical uncertainty of century-long predictions is analyzed and its reduction by extrapolation is discussed, with emphasis on updating based on short-time tests and on long-term measurements on existing structures. Testing methods and the statistics of large randomly collected databases are critically appraised and improvements of predictions of multi-decade relaxation of prestressing steel, cyclic creep in bridges, cracking damage, etc., are demonstrated. Important research directions, such as nanomechanical and probabilistic modeling, are identified, and the need for separating the long-lasting autogenous shrinkage of modern concretes from the creep and drying shrinkage data and introducing it into practical prediction models is emphasized.

All the results are derived mathematically and justified as much as possible by extensive test data. The theoretical background in linear viscoelasticity with aging is covered in detail. The didactic style makes the book suitable as a textbook. Everything is properly explained, step by step, with a wealth of application examples as well as simple illustrations of the basic phenomena which could alternate as homeworks or exams.

The book is of interest to practicing engineers, researchers, educators and graduate students.