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1.
Three-dimensional photoelastic calibration of a chevron-notched short-bar fracture specimen geometry
Gianni Nicoletto 《Engineering Fracture Mechanics》1986,24(6):879-887
Stress intensity distributions have been experimentally evaluated from cracked photoelastic models of the rectangular chevron-notched short-bar fracture specimen. Two methods were applied to SIF determination from near-tip isochromatic fringes in slices removed perpendicularly to the flaw profiles. No assumption on flaw shape was required in the analysis. Comparisons with experimental and numerical compliance calibrations from the literature are included. Differences between 3-D Finite Element and the present photoelastic SIF distributions are discussed. The observed flaw shapes are compared to others found in different materials. Flaw evolution is interpreted in terms of local SIF variations. 相似文献
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Abstract: One of the main factors in determining the different grades of ductile iron is the matrix structure. In the as-cast condition, the matrix will consist of varying proportions of pearlite and ferrite, and as the amount of pearlite increases, the strength and hardness of the iron also increase. Three different nodular cast irons are here considered and their microstructure characterised in detail using metallographic methods. Then micromechanics models based on the unit cell approach and the finite element method are introduced to describe the actual constitutive response of the materials and the predicted behaviours are compared with experiments. 相似文献
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Abstract: This paper describes an experimental apparatus and its application for the full‐field measurement of heterogeneous strains at high magnifications. The apparatus consists of an image acquisition and analysis system, an optical microscope and a stable tensile stage. Magnified images of the specimen surface are acquired and analysed using the digital image correlation (DIC) method. The response of the heterogeneous microstructure of a nodular cast iron is investigated during a tensile test. Strains obtained by using the DIC method and averaged over the observation window correlate with strain measurements simultaneously obtained by using an extensometer. The strain maps of DIC reveal the heterogeneous development of plasticity in the nodular cast iron microstructure. The apparatus has the potential to investigate material behaviour at the microscopic scale. 相似文献
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Gianni Nicoletto 《International Journal of Pressure Vessels and Piping》1990,42(3):363-378
Fatigue crack growth rate properties obtained by testing multi-pass butt-welded joints in the through-the-thickness direction are presented along with a characterization of the mild steel base material. Edge-notched four-point-bending specimens are used to investigate R-ratio, specimen geometry and post-weld heat-treatment effects on fatigue crack growth rates. The pervasive influence of residual stresses on welded joint fatigue testing using the fracture mechanics approach is also discussed. For these multi-pass joints, conservative fatigue crack growth rates are obtained with post-weld heat-treated specimens. 相似文献
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Abstract— The plastic enclave surrounding a fatigue crack in a 7075-T6 aluminum alloy specimen is studied using moiré interferometry. Two distinct plastic zones are identified from inspection of moiré interferometric fringe patterns. The sizes and shapes of the monotonic and the cyclic plastic zones are correlated with previous theoretical and experimental results. Live load strain distributions in the plastic enclave are computed from high sensitivity (0.417 micron per fringe) full-field in-plane displacement contour maps. Comparison with theoretical and experimental strain distributions are included. 相似文献
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Surface modification processes are increasingly used to fully exploit material potential in fatigue critical applications
because fatigue strength is sensitive to surface conditions. Nitriding is extensively adopted with ferrous materials because
it forms a hard and strong surface layer and a system of superficial compressive residual stresses. Fatigue, however, is strongly
dependent also on defects and inhomogeneity. When nitriding is applied to nodular cast iron, the relatively thin hardened
layer (about 300 μm) contains graphite nodules (diameter of the order of 30 μm), casting defects and a heterogeneous matrix structure. The paper presents and discusses the influence of nitriding on the
fatigue response and fracture mechanisms of nodular cast iron. A ferritic nodular cast iron and a synthetic melt with different
content of effective ferrite were initially gas-nitrided. Then, (i) structural analysis of nitrided layers, (ii) fatigue testing
with rotating bending specimens, and (iii) fatigue fracture surface inspection were performed. Performance and scatter in
fatigue performance is discussed by selective inspection of fracture surfaces and identification fracture micromechanisms.
A semiempirical model explains observed trends in test results and is used for the process optimization.
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Translated from Problemy Prochnosti, No. 1, pp. 85–88, January–February, 2008. 相似文献
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The FCG behavior of an Al/Al2O3 particulate composite is investigated experimentally and discussed with respect to the influence of R-ratio, particle size and crack closure. 相似文献
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Fatigue crack growth (FCG) tests have been carried out on adhesively bonded compact tension-shear (CTS) specimens to assess the behaviour of a structural adhesive under Mixed Mode I/II conditions. The fractographic analysis revealed that energy dissipation mechanisms due to inelastic phenomena like bulk plastic deformation and crazing are more pronounced in Mode I than in Mixed Mode and Mode II. This is reflected by a FCG rate that increases going from Mode I to Mode II for a given value of the range of strain energy release rate, ΔG. 相似文献