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Fatigue and Corrosion in Metals

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Feldname	Details
Vorliegende Sprache	eng
Hinweise auf parallele Ausgaben	372201164 Buchausg. u.d.T.: ‡Milella, Pietro Paolo: Fatigue and corrosion in metals
ISBN	978-88-470-2335-2
Name	Milella, Pietro Paolo
T I T E L	Fatigue and Corrosion in Metals
Verlagsort	Milano
Verlag	Springer
Erscheinungsjahr	2013
Erscheinungsjahr	2013
Umfang	Online-Ressource (XX, 844 p. 763 illus, digital)
Reihe	SpringerLink. Bücher
Notiz / Fußnoten	Description based upon print version of record
Weiterer Inhalt	Fatigue and Corrosionin Metals; Preface; Contents; 1 Nature and Phenomenology of Fatigue; 1.1…History and Overview; 1.2…The S-N Curve; 1.3…Cyclic Hardening and Softening; 1.3.1 Cyclic Stress--Strain Curve Determination; 1.3.2 The Mechanism of Hardening and Softening; 1.4…Damage Nucleation; 1.4.1 High-Cycle Fatigue; 1.4.2 Low-Cycle Fatigue; 1.4.3 The Meaning of Fatigue Limit; 1.5…Mechanically Small Cracks; 1.5.1 Non-Propagating Cracks; 1.5.2 The Three Stages of Fatigue; 1.5.3 Growth of MSC; 2 Morphological Aspects of Fatigue Crack Formation and Growth; 2.1…Introduction. 2.2…Extrusions and Intrusions2.3…Morphology of Crack Propagation; 2.3.1 Real Cases; 2.4…Origin of Fatigue Striations; 2.4.1 Striation Observation; 2.4.2 Ductile and Brittle Striations; 2.4.3 Striations and Fatigue Cycles; References; 3 Factors That Affect S-N Fatigue Curves; 3.1…Introduction; 3.2…Fatigue Tests; 3.3…Effect of Surface Finish; 3.3.1 Residual Stresses; 3.4…Effect of Inclusions; 3.4.1 Effect of Grain Size and Hardness; 3.4.2 Effect of Anisotropy; 3.5…Effect of Size; 3.6…Effect of Load Type; 3.7…Effect of Prestressing; 3.7.1 Mechanical Prestressing. 4.7.1 Normal and Log-Normal Distribution-Population Mean and Sample Mean4.7.2 Student's Distribution-Yield Strength; 4.7.3 Log-Normal Distribution-Fatigue Life; 4.7.4 Weibull Distribution-Yield Strength; 4.7.5 Weibull Distribution-Fatigue S--N Curves; 4.7.6 Weibull Distribution-Volume Effect; 4.7.7 Weibull Distribution-Volume Effect; 4.7.8 Gumbel Distribution-Maximum Expected Defect; References; 5 Stress-Based Fatigue Analysis High Cycle Fatigue; 5.1…Introduction; 5.2…S-N Diagram; 5.2.1 Empirical Equations for Fatigue Limit; 5.2.2 True Strain-True Stress. Basquin Line. 5.2.3 Staircase Test Method5.3…Sample Problems on S-N Curves; 5.3.1 Engineering Strain--Stress Curve and True Strain-True Stress Curve; 5.3.2 S-N Curve From Hardening and Grain Size Data; 5.3.3 Basquin Line; 5.3.4 Staircase Test Method; 5.3.5 Fatigue Life of Shafts Under Torsion; 5.3.6 Bending Life of Multileaf Springs; 5.3.7 Application to Different Types of Load; 5.3.8 Aluminum Alloys; 5.4…Mean Stress Effect; 5.4.1 Mean Stress Sensitivity Factor; 5.4.2 Shake-Down Effect on Fatigue; 5.5…Fatigue Strength Diagrams; 5.5.1 Haigh and Smith DiagramsHaigh and Smith Diagrams; 5.5.2 Master Curve. 5.6…Sample Problems on Mean Stress Effect and Fatigue Strength Diagrams. Introduction -- Nature and phenomenology of fatigue -- Morphological aspects of fatigue crack formation and growth -- Factors that affect S-N fatigue curves -- Data scatter and statistical considerations -- Stress-based fatigue analysis. High cycle fatigue -- Strain-based fatigue analysis. Low cycle fatigue -- Notch effect -- Cumulative damage. Cycle counting and Life prediction. Fourier analysis. Impact fatigue. - Fracture Mechanics approach to fatigue crack propagation -- Crack tip plastic zone effect on fatigue crack propagation -- Fatigue in welded structures -- Corrosion -- Hydrogen embrittlement and sensitization cracking -- Fracture mechanics approach to stress corrosion -- Corrosion fatigue -- Linear Elastic Fracture Mechanics. Compendium of Stress Intensity Factors Solutions..
Titelhinweis	Buchausg. u.d.T.: ‡Milella, Pietro Paolo: Fatigue and corrosion in metals
ISBN	ISBN 978-88-470-2336-9
Klassifikation	TBD
	TEC016020
	TEC016000
	620.0042
	620.166
	TA174
	ZM 7510
Kurzbeschreibung	This textbook, suitable for students, researchers and engineers, gathers the experience of more than 20 years of teaching fracture mechanics, fatigue and corrosion to professional engineers and running experimental tests and verifications to solve practical problems in engineering applications. As such, it is a comprehensive blend of fundamental knowledge and technical tools to address the issues of fatigue and corrosion. The book initiates with a systematic description of fatigue from a phenomenological point of view, since the early signs of submicroscopic damage in few surface grains and continues describing, step by step, how these precursors develop to become mechanically small cracks and, eventually, macrocracks whose growth is governed by fracture mechanics. But fracture mechanics is also introduced to analyze stress corrosion and corrosion assisted fatigue in a rather advanced fashion. The author dedicates a particular attention to corrosion starting with an electrochemical treatment that mechanical engineers with a rather limited knowledge of electrochemistry will well digest without any pain. The electrochemical introduction is considered an essential requirement to the full understanding of corrosion that is essentially an electrochemical process. All stress corrosion aspects are treated, from the generalized film rupture-anodic dissolution process that is the base of any corrosion mechanism to the aggression occurring in either mechanically or thermally sensitized alloys up to the universe of hydrogen embrittlement, which is described in all its possible modes of appearance. Multiaxial fatigue and out-of-phase loading conditions are treated in a rather comprehensive manner together with damage progression and accumulation that are not linear processes. Load spectra are analyzed also in the frequency domain using the Fourier transform in a rather elegant fashion full of applications that are generally not considered at all in fatigue textbooks, yet they deserve a special place and attention. The issue of fatigue cannot be treated without a probabilistic approach unless the designer accepts the shame of one-out-of-two pieces failure. The reader is fully introduced to the most promising and advanced analytical tools that do not require a normal or lognormal distribution of the experimental data, which is the most common case in fatigue. But the probabilistic approach is also used to introduce the fundamental issue of process volume that is the base of any engineering application of fatigue, from the probability of failure to the notch effect, from the metallurgical variability and size effect to the load type effect. Fractography plays a fundamental role in the post mortem analysis of fatigue and corrosion failures since it can unveil the mystery encrypted in any failure.
1. Schlagwortkette	Korrosion
ANZEIGE DER KETTE	Korrosion
2. Schlagwortkette	Metall
2. Schlagwortkette	Fatigue 1.1
ANZEIGE DER KETTE	Metall -- Fatigue 1.1
SWB-Titel-Idn	37536899X
Signatur	Springer E-Book
Bemerkungen	Elektronischer Volltext - Campuslizenz
Elektronische Adresse	$uhttp://dx.doi.org/10.1007/978-88-470-2336-9
Internetseite / Link	Volltext
Siehe auch	Volltext
Siehe auch	Cover

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