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Fatigue of Materials and Structures
Záhlaví-název Fatigue des matâeriaux et des structures 4. English Údaje o názvu Fatigue of Materials and Structures [elektronický zdroj] : Applications to Design and Damage Vyd.údaje London : Wiley, 2013 Fyz.popis 1 online zdroj (360 s.) ISBN 9781118616994 (electronic bk.) 1118616995 (electronic bk.) 9781118616512 (electronic bk.) 1118616510 (electronic bk.) Edice ISTE Poznámky 3.7.1. Modeling of the interactions of loading cycles Úplný obsah Cover; Fatigue of Materials and Structures; Title Page; Copyright Page; Table of Contents; Foreword; Chapter 1. Multiaxial Fatigue; 1.1 Introduction; 1.1.1. Variables in a plane; 1.1.2. Invariants; 1.1.3. Classification of the cracking modes; 1.2. Experimental aspects; 1.2.1. Multiaxial fatigue experiments; 1.2.2. Main results; 1.2.3. Notations; 1.3. Criteria specific to the unlimited endurance domain; 1.3.1. Background; 1.3.2. Global criteria; 1.3.3. Critical plane criteria; 1.3.4. Relationship between energetic and mesoscopic criteria; 1.4. Low cycle fatigue criteria; 1.4.1. Brown-Miller Poznámka o obsahu 1.4.2. SWT criteria1.4.3. Jacquelin criterion; 1.4.4. Additive criteria under sliding and stress amplitude; 1.4.5. Onera model; 1.5. Calculating methods of the lifetime under multiaxial conditions; 1.5.1. Lifetime at N cycles for a periodic loading; 1.5.2. Damage cumulation; 1.5.3. Calculation methods; 1.6. Conclusion; 1.7. Bibliography; Chapter 2. Cumulative Damage; 2.1. Introduction; 2.2. Nonlinear fatigue cumulative damage; 2.2.1. Main observations; 2.2.2. Various types of nonlinear cumulative damage models; 2.2.3. Possible definitions of the damage variable. 2.3. A nonlinear cumulative fatigue damage model2.3.1. General form; 2.3.2. Special forms of functions F and G; 2.3.3. Application under complex loadings; 2.4. Damage law of incremental type; 2.4.1. Damage accumulation in strain or energy; 2.4.2. Lemaăitre's formulation; 2.4.3. Other incremental models; 2.5. Cumulative damage under fatigue-creep conditions; 2.5.1. Rabotnov-Kachanov creep damage law; 2.5.2. Fatigue damage; 2.5.3. Creep-fatigue interaction; 2.5.4. Practical application; 2.5.5. Fatigue-oxidation-creep interaction; 2.6. Conclusion; 2.7. Bibliography. Chapter 3. Damage Tolerance Design3.1. Background; 3.2. Evolution of the design concept of "fatigue" phenomenon; 3.2.1. First approach to fatigue resistance; 3.2.2. The "damage tolerance" concept; 3.2.3. Consideration of "damage tolerance"; 3.3. Impact of damage tolerance on design; 3.3.1. "Structural" impact; 3.3.2. "Material" impact; 3.4. Calculation of a "stress intensity factor"; 3.4.1. Use of the "handbook" (simple cases); 3.4.2. Use of the finite element method: simple and complex cases; 3.4.3. A simple method to get new configurations; 3.4.4. "Superposition" method. 3.4.5. Superposition method: applicable examples3.4.6. Numerical application exercise; 3.5. Performing some "damage tolerance" calculations; 3.5.1. Complementarity of fatigue and damage tolerance; 3.5.2. Safety coefficients to understand curve a = f(N); 3.5.3. Acquisition of the material parameters; 3.5.4. Negative parameter: corrosion -- "corrosion fatigue"; 3.6. Application to the residual strength of thin sheets; 3.6.1. Planar panels: Feddersen diagram; 3.6.2. Case of stiffened panels; 3.7. Propagation of cracks subjected to random loading in the aeronautic industry Dal.odpovědnost Bathias, Claude.
Pineau, A. (Andrâe)Předmět.hesla únava materiálu * opotřebení materiálu * zkoušky na únavu materiálu * Materials - Fatigue. * Materials - Mechanical properties. Forma, žánr elektronické knihy * Electronic books Konspekt 539 - Fyzikální stavba hmoty. Jaderná fyzika. Molekulární fyzika MDT 539.388.1 * 620.193.95 * 620.178.3 Země vyd. Velká Británie Jazyk dok. angličtina URL Odkaz na elektronický dokument EBSCO Druh dok. ELEKTRONICKÉ ZDROJE 
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