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Fracture and Fatigue Emanating from Stress Concentrators

A vast majority of failures emanate from stress concentrators such as geometrical discontinuities. The role of stress concentration was first highlighted by Inglis (1912) who gives a stress concentration factor for an elliptical defect, and later by Neuber (1936). With the progress in computing, it...

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Bibliographic Details
Main Author: Pluvinage, G.
Format: eBook
Language:English
Published: Dordrecht Springer Netherlands 2003, 2003
Edition:1st ed. 2003
Subjects:
Mechanics, Applied
Classical Mechanics
Engineering Design
Solids
Civil Engineering
Solid Mechanics
Mechanical Engineering
Mechanics
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Description
Summary:A vast majority of failures emanate from stress concentrators such as geometrical discontinuities. The role of stress concentration was first highlighted by Inglis (1912) who gives a stress concentration factor for an elliptical defect, and later by Neuber (1936). With the progress in computing, it is now possible to compute the real stress distribution at a notch tip. This distribution is not simple, but looks like pseudo-singularity as in principle the power dependence with distance remains. This distribution is governed by the notch stress intensity factor which is the basis of Notch Fracture Mechanics. Notch Fracture Mechanics is associated with the volumetric method which postulates that fracture requires a physical volume. Since fatigue also needs a physical process volume, Notch Fracture Mechanics can easily be extended to fatigue emanating from a stress concentration
Physical Description:VII, 233 p online resource
ISBN:9781402026126

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