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This book highlights the qualitative and quantitative sequential changes in microstructure of P91 steel under various stress and temperature conditions. The P91 alloy is an established material used under elevated temperature and stress in the components of thermal power plants. Temperature and stress levels for laboratory experimentation have been selected based on the true operating condition of a boiler. This book describes both full length as well as interrupted tests that were performed under given parameters. Subsequently, the microstructures, bulk hardness and NDE parameters (magnetic and non-linear ultrasonic) have been evaluated. For reliable data, the microstructures have been observed at different regions of creep exposed samples by different characterization techniques. This has been further followed by drawing co-relation between specific features like precipitate size variation with creep strain / creep time and so on. Given the contents, this book will be a useful reference for researchers and professionals working in the area of materials especially in thermal power plants.

Production management --- Metallurgy --- Building materials. Building technology --- productie --- bouwmaterialen --- metalen --- Metals. --- Building materials. --- Production engineering. --- Materials --- Metals and Alloys. --- Steel, Light Metal. --- Thermal Process Engineering. --- Materials Fatigue. --- Fatigue.

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This textbook aimed at upper-level undergraduate and graduate engineering students who need to describe the large deformation of elastic materials like soft plastics, rubber, and biological materials. The classical approaches to finite deformations of elastic materials describe a dozen or more measures of stress and strain. These classical approaches require an in-depth knowledge of tensor analysis and provide little instruction as to how to relate the derived equations to the materials to be described. This text, by contrast, introduces only one strain measure and one stress measure. No tensor analysis is required. The theory is applied by showing how to measure material properties and to perform computer simulations for both isotropic and anisotropic materials. The theory can be covered in one chapter for students familiar with Euler-Lagrange techniques, but is also introduced more slowly in several chapters for students not familiar with these techniques. The connection to linear elasticity is provided along with a comparison of this approach to classical elasticity. Explains ably simulation of materials undergoing large deformations Illustrates a simpler mathematical base to build thermodynamic and viscoelastic theories Describes how experimenters can make better numerical descriptions of deformable bodies.

Classical mechanics. Field theory --- Fluid mechanics --- Physics --- Materials sciences --- Applied physical engineering --- statica (fysica) --- materiaalkennis --- toegepaste mechanica --- fysica --- mechanica --- Materials --- Mechanics, Applied. --- Continuum mechanics. --- Physics. --- Statics. --- Materials. --- Materials Fatigue. --- Engineering Mechanics. --- Continuum Mechanics. --- Classical and Continuum Physics. --- Mechanical Statics and Structures. --- Materials Engineering. --- Fatigue.