Y. H. Tai scite author profile

Crack paths under both fatigue and fracture conditions are governed by the crack tip displacement field and the material deformation characteristics, including those influenced by metallurgical anisotropy. Experimental techniques such as thermoelasticity and photoelasticity have been successfully used to characterise the elastic stress fields around cracks but they do not take into account either plasticity or anisotropy. Considerable work has been carried out to characterise crack tip stress fields from displacement measurements. The current method of choice for obtaining displacement field data is digital image correlation (DIC) which has undergone significant advances in the recent years. The ease of use and capabilities of the technique for full field displacements has led to improved methods for characterising crack tip displacement fields based on data obtained from DIC. This paper gives an overview of some of the applications of DIC for crack tip characterisation such as K, T-stress and crack tip opening angle (CTOA) measurements as well as data obtained from 3D measurements of a propagating crack.

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The bending and failure of sandwich structures with auxetic gradient cellular cores

Hou

Tai

Lira

et al. 2013

Composites Part A: Applied Science and Manufacturing

145

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Transverse shear modulus of SILICOMB cellular structures

Lira

Scarpa

Tai

et al. 2011

Composites Science and Technology

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a b s t r a c tThis work describes the transverse shear stiffness properties of a novel honeycomb with zero Poisson's ratio. The cellular configuration is simulated using a series of finite element models representing fullscale and representative unit cells of the honeycomb topology. The models are benchmarked against experimental results from pure shear and 3-point bending ASTM tests. The benchmarked models are used to perform a parametric study of the shear moduli (G 13 and G 23 ) against the geometry of the unit cell and the gauge thickness of the honeycomb panels. The shear stiffness maps obtained allow comparison of the SILICOMB configuration against classical centresymmetric and rectangular honeycomb topologies.

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Near-tip strain evolution under cyclic loading: In situ experimental observation and numerical modelling

Tong

Lin

et al. 2015

International Journal of Fatigue

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International audienceThe concept of ratchetting strain as a crack driving force in controlling crack growth has previously been explored at Portsmouth using numerical approaches for nickel-based superalloys. In this paper, we report the first quantitative experimental evidence of near-tip strain ratchetting with cycles, as captured in situ by digital image correlation (DIC) technique on a compact tension specimen of stainless steel 316L, using both Stereo and SEM systems. The evolution of the near-tip strains with loading cycles was monitored whilst the crack tip was kept stationary. The strains normal to the crack plane were examined over selected distances from 6 to 57 lm to the crack tip for a number of cycles. The results show that strain ratchetting occurs with loading cycles, and is particularly evident close to the crack tip and under higher loads. 3D finite element models have also been developed to simulate the experiments and the results from the simulation are compared with those from the DIC measurements. This is the first time that near-tip strain ratchetting has been captured in situ at the peak loads during cyclic loading

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Measuring overload effects during fatigue crack growth in bainitic steel by synchrotron X-ray diffraction

López-Crespo

Steuwer

Buslaps

et al. 2015

International Journal of Fatigue

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Y. H. Tai

Quantifying crack tip displacement fields with DIC

The bending and failure of sandwich structures with auxetic gradient cellular cores

Transverse shear modulus of SILICOMB cellular structures

Near-tip strain evolution under cyclic loading: In situ experimental observation and numerical modelling

Measuring overload effects during fatigue crack growth in bainitic steel by synchrotron X-ray diffraction

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