Physics of strength and fracture control : adaptation of engineering materials and structures / author, Anatoly A. Komarovsky ; scientific editor, Viktor P. Astakhov.
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| Format: | eBook |
| Language: | English |
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Boca Raton :
CRC Press,
©2003.
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Table of Contents:
- TABLE OF CONTENT; ; STRUCTURAL MECHANICS AND ELECTRODYNAMICS OF INTERATOMIC BONDS; The State of Electrons and Nuclei in Isolated Atoms; Diagram of Formation and Energy of the Paired Bonds; Character of Movement of Bound Atoms; Localization Parameters and Rotos State Equation; Electrodynamics of Interatomic Interaction; Thermal Radiation, Phase Transitions and Formation of Vacancies; Condition of Stability: Low- and High-Temperature Disintegration; Failure at the Debye Temperature; Three Mechanisms of Disintegration of the Bonds: "Theoretical" Strength and Phenomenon of Brittle Fracture; Deformation, Coriolis Forces and Inertial Effects; EQUATION OF STATE OF A SOLID AND ITS MANIFESTATIONS AT MACROSCOPIC LEVEL; Basic Thermodynamic Potentials; Potentials of Systems with a Varying Number of Interatomic Bonds; Thermodynamic Equation of State of a Solid; Parameters of State,
- Relationship of Equivalence and Entropy; Brittle and Ductile Structures; Temperature Dependence of Mechanical Properties; Periodic Law of Variations in State; Phase and Aggregate States of Materials; Mechanical Hysteresis: Causes of Formation and Practical Consequences; Compression-Dilation Nature of Dislocations; INTERACTION WITH EXTERNAL FIELDS; Equation of Interaction; Analogy Between Polarization, Magnetization, Force and Thermal Deformation; Orientation Nature of Elastic Stage of Deformation; Plastic Deformation and Destruction Processes; Scale Effect: Causes of Initiation, Forms of Manifestation and Dangerous Consequences; Mechanism of Formation of the Maxwell-Boltzmann Factor; Dependence of Mechanical Properties upon the Packing Density of a Structure; Variation of State in Compression and Tension; Complex Stressed States: Mechanism of Formation and Prospects of Application for Fracture Prevention; Mechanical, Thermal, Ultrasonic, Electron,
- Chemical and Other Effects in Deformation and Fracture; VARIATIONS OF STATE UNDER DYNAMIC AND QUASI-STATIC LOADING CONDITIONS; Dynamic Effect (DE); Durability; SOLIDS IN ACTIVE MEDIA; Aging; Hydrogen Embrittlement; Radiation Damage; Moisture-Induced Softening of Porous Materials; Durability of Unstable Structures; Defect Healing and Damaged Structure Restoration; PHYSICS Of FRACTURE; Concentration of Stresses as an Inherent Property of Crystalline Structures; Rigid-Link Nature of Fracture; Probability and Thermodynamic Aspects of the Deformation Diagrams; Mechanism of Formation and Development of Cracks; Crack Propagation and Restrain; Retardation of Cracks; FATIGUE: PHYSICAL NATURE, PREDICTION, ELIMINATION,
- AND RELIEF; Equation of Thermomechanical Fatigue; Compression-Dilation (CD) Nature of Fatigue; Prediction of Thermal-Mechanical-Radiation Fatigue; Prevention and Relief of Fatigue; DIAGNOSTICS OF TECHNICAL STATE AND PREDICTION OF SERVICE LIFE; Diagnostics of Stress-Strain State; Determination of Strength of Materials Using Elasto-Plastic Hardness Indicators; Prediction of Residual Resource and Durability; PHYSICAL PRINCIPLES OF ADAPTATION OF MATERIALS AND STRUCTURES TO SERVICE CONDITIONS; Control of Physical-Mechanical Properties; Controllable and Non-Controllable Modes of Ensuring Strength,
- Reliability and Durability; Principles of the Theory of Design of Materials Properties; Formation of Anisotropic Structures; Correction of Resource after Solidification; Technologies for Formation of Variatropic Structures; Control of the Stressed-Deformed State; Prevention of Deformation and Fracture in Competing Fields; Promising Technologies and Ingenious Design Solutions; REFERENCES.