Fatigue of Materials and Structures: Application to Design by Claude Bathias, Andr? Pineau

By Claude Bathias, Andr? Pineau

The layout of mechanical constructions with predictable and more desirable longevity can't be accomplished and not using a thorough figuring out of the mechanisms of fatigue harm and extra in particular the relationships among the microstructure of fabrics and their fatigue properties.
Written by way of prime researchers within the box, this e-book, besides the complementary books Fatigue of fabrics and buildings: basics and alertness to wreck and layout (both additionally edited by way of Claude Bathias and Andre Pineau), offers an authoritative, entire and unified therapy of the mechanics and micromechanisms of fatigue in metals, polymers and composites. each one bankruptcy is dedicated to at least one of the foremost sessions of fabrics or to kinds of fatigue harm, thereby offering total insurance of the field.

This booklet bargains with multiaxial fatigue, thermomechanical fatigue, fretting-fatigue, impact of defects on fatigue existence, cumulative harm and harm tolerance, and should be an immense and lots more and plenty used reference for college kids, working towards engineers and researchers learning fracture and fatigue in different components of fabrics technology and engineering, mechanical, nuclear and aerospace engineering.

Chapter 1 Multiaxial Fatigue (pages 1–46): Marc Bletry and Georges Cailletaud
Chapter 2 Cumulative harm (pages 47–110): Jean?Louis Chaboche
Chapter three harm Tolerance layout (pages 111–150): Raphael Cazes
Chapter four illness effect at the Fatigue habit of steel fabrics (pages 151–193): Gilles Baudry
Chapter five Fretting Fatigue: Modeling and functions (pages 195–230): Marie?Christine Baietto?Duborg and Trevor Lindley
Chapter 6 touch Fatigue (pages 231–270): Ky Dang Van
Chapter 7 Thermal Fatigue (pages 271–338): Eric Charkaluk and Luc Remy

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Of the Mech. and Physics of Solids, vol. 20, no. 6, pp. 381-390, 1972. [HEN 55] D. H ENRY, “A theory of fatigue damage accumulation in steel”, Transactions of ASME, vol. 77, pp. 913-918, 1955. [HÉN 05] G. H ÉNAFF, F. M OREL, Fatigue des structures, Technosup – Matériaux, Structures, Ellipses, 2005. [HER 07] T. H ERBLAND, Modélisation de la fatigue des alliages métalliques sous chargement 3D aléatoire, Report, Cetim, Mines Paris, 2007. [JAC 83] B. JACQUELIN, F. H OURLIER, A. P INEAU, “Crack initiation under low-cycle multiaxial fatigue in type 316L stainless steel”, Transactions of the ASME – Journal of Pressure Vessel Technology, vol.

P. L IEURADE, “Critère d’amorçage en fatigue à grand nombre de cycles sous sollicitation multiaxiale”, Journées de Printemps de la Commission Fatigue de la Société Française de Métallurgie, June 1984. [DAN 89] K. DANG VAN, B. G RIVEAU, O. M ESSAGE, Biaxial and Multiaxial Fatigue EGF 3, “On a new multiaxial fatigue limit criterion: theory and applications”, pp. 479496, Mechanical Engineering Publications, 1989. [DAV 03] P. DAVOLI, A. B ERNASCONI, M. F ILIPPINI, S. F OLETTI, I. PAPADOPOULOS, “Independence of the torsional fatigue limit upon a mean shear stress”, International Journal of Fatigue, vol.

PAP 96a] I. PAPADOPOULOS, “Exploring the high cycle fatigue behaviour of metals from the mesoscopic scale”, Journal of the Mechanical Behaviour of Materials, vol. 6, no. 2, pp. 93-118, 1996. [PAP 96b] I. PAPADOPOULOS, P. DAVOLI, C. G ORLA, M. F ILIPPINI, A. B ERNASCONI, “A comparative study of multiaxial high-cycle fatigue criteria for metals”, International Journal of Fatigue, vol. 19, pp. 219-235, 1996. [PAP 96c] I. PAPADOPOULOS, V. PANOSKALTSIS, “Invariant formulation of a gradient dependent multiaxial high-cycle fatigue criterion”, Engineering Fracture Mechanics, vol.

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