Evaluation of Local Stress Distribution Near Notch and Crack Tips in Al<sub>2</sub>O<sub>3</sub> by Synchrotron Radiation

The compressive stress distribution below the specimen surface of a nanocrystalline medium carbon steel was investigated nondestructively by using high-energy X-rays from a synchrotron radiation source, SPring-8 (Super Photon ring-8 GeV) in the Japan Synchrotron Radiation Research Institute. A medium carbon steel plate was shot-peened with fine cast iron particles of the size of 50 μm. By using the monochromatic X-ray beam with three energy levels of 10, 30 and 72 keV, the stress values at the arbitrary depth were measured by the constant penetration depth method. The stress was calculated from the slope of the sin2ψ diagram. Measured stress corresponds to the weighted average associated with the attenuation of the X-rays in the material. The real stress distribution was estimated by using the optimization technique. The stress distribution was assumed by the third order polynomial in the near surface layer and the second order polynomial. The coefficients of the polynomials were determined by the conjugate gradient iteration. The predicted stress distribution agreed well with that measured by the conventional surface removal method.

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Measurement of nanoscale local stress distribution in phase-separated glass using scanning transmission electron microscopy-cathodoluminescence

Materialia ◽

10.1016/j.mtla.2019.100578 ◽

2020 ◽

Vol 9 ◽

pp. 100578

Author(s):

Taiki Yamada ◽

Masahiro Ohtsuka ◽

Yoshimasa Takahashi ◽

Haruhiko Yoshino ◽

Shin-ichi Amma ◽

...

Keyword(s):

Electron Microscopy ◽

Transmission Electron Microscopy ◽

Stress Distribution ◽

Scanning Transmission Electron Microscopy ◽

Local Stress ◽

Scanning Transmission Electron ◽

Transmission Electron ◽

Scanning Transmission

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Strain field evolution at the ductile-to-brittle transition: a case study on ice

Solid Earth ◽

10.5194/se-8-943-2017 ◽

2017 ◽

Vol 8 (5) ◽

pp. 943-953 ◽

Cited By ~ 1

Author(s):

Thomas Chauve ◽

Maurine Montagnat ◽

Cedric Lachaud ◽

David Georges ◽

Pierre Vacher

Keyword(s):

Stress Concentration ◽

Dynamic Recrystallization ◽

Strain Field ◽

Crack Opening ◽

Local Stress ◽

Image Correlation ◽

Brittle Transition ◽

Field Evolution ◽

Crack Tips ◽

Ductile To Brittle Transition

Abstract. This paper presents, for the first time, the evolution of the local heterogeneous strain field around intra-granular cracking in polycrystalline ice, at the onset of tertiary creep. Owing to the high homologous temperature conditions and relatively low compressive stress applied, stress concentration at the crack tips is relaxed by plastic mechanisms associated with dynamic recrystallization. Strain field evolution followed by digital image correlation (DIC) directly shows the redistribution of strain during crack opening, but also the redistribution driven by crack tip plasticity mechanisms and recrystallization. Associated local changes in microstructure induce modifications of the local stress field evidenced by crack closure during deformation. At the ductile-to-brittle transition in ice, micro-cracking and dynamic recrystallization mechanisms can co-exist and interact, the later being efficient to relax stress concentration at the crack tips.

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Effect of welded mechanical heterogeneity on local stress and strain ahead of stationary and growing crack tips

Nuclear Engineering and Design ◽

10.1016/j.nucengdes.2008.12.024 ◽

2009 ◽

Vol 239 (4) ◽

pp. 628-640 ◽

Cited By ~ 27

Author(s):

He Xue ◽

Kazuhiro Ogawa ◽

Tetsuo Shoji

Keyword(s):

Local Stress ◽

Stress And Strain ◽

Mechanical Heterogeneity ◽

Growing Crack ◽

Crack Tips

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Short Intergranular Cracks in Elasto-Plastic Polycrystalline Aggregate

10th International Conference on Nuclear Engineering, Volume 1 ◽

10.1115/icone10-22534 ◽

2002 ◽

Cited By ~ 2

Author(s):

Leon Cizelj ◽

Heinz Riesch-Oppermann

Keyword(s):

Grain Size ◽

Stress Corrosion ◽

Steam Generator ◽

Local Stress ◽

Stress Fields ◽

Computational Algorithms ◽

Polycrystalline Aggregate ◽

Intergranular Stress Corrosion ◽

Crack Tips ◽

Steam Generator Tubes

Computational algorithms aiming at modeling and visualization of the initiation and growth of intergranular stress corrosion cracks (e.g., in the steam generator tubes) on the grain-size scale have already been proposed. Main focus of the paper addresses the influence of randomly oriented anisotropic elasto-plastic grains on the microscopic stress fields at crack tips. The limited number of calculations indicate that the incompatibility strains, which develop along the boundaries of randomly oriented grains, influence the local stress fields (J-integrals) at crack tips significantly.

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Modelling Recovery and Recrystallisation Kinetics after Intercritical Deformation in 0.19 wt% C 1.5 wt% Mn Steel

Materials Science Forum ◽

10.4028/www.scientific.net/msf.467-470.329 ◽

2004 ◽

Vol 467-470 ◽

pp. 329-334 ◽

Cited By ~ 1

Author(s):

A. Smith ◽

A. Miroux ◽

Haiwen Luo ◽

Jilt Sietsma ◽

Sybrand van der Zwaag

Keyword(s):

Stress Relaxation ◽

Stress Distribution ◽

Strain Distribution ◽

Local Stress ◽

Stress Strain ◽

Simple Modification ◽

Single Grain ◽

Grain Model ◽

Mn Steel ◽

Kinetics Of

The softening kinetics of a 0.19 wt% C 1.5 wt% Mn steel deformed at two intercritical temperatures have been characterised using the stress relaxation technique. Recrystallisation of intercritical austenite has been modelled using a single grain model (Chen et al., 2002 [1]), whilst recovery of both intercritical austenite and ferrite has been modelled using a model in the literature [Verdier et al., 1999 [2]). The models are combined to predict the overall softening kinetics with a rule of mixtures formulation. Comparison of the model with experiment shows significant deviations. The reasons are discussed with reference to the mixture rule and to the local stress-strain distribution which exists in the deformed samples. A simple modification to the model is proposed which takes into account the effect of a local stress distribution in deformed austenite.

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