Xueling Fan scite author profile

A new lumped-parameter model for coronary hemodynamics is developed. This model is developed for the whole coronary network based on CT scans of a patient-specific geometry including the right coronary tree, which is absent in many previous mathematical models. The model adopts the structured tree model boundary conditions similar to the work of Olufsen et al., thus avoiding the necessity of invasive perfusion measurements. In addition, we also incorporated the effects of the head loss at the two inlets of the large coronary arteries for the first time. The head loss could explain the phenomenon of a sudden increase of the resistance at the inlet of coronary vessel. The estimated blood pressure and flow rate results from the model agree well with the clinical measurements. The computed impedances also match the experimental perfusion measurement. The effects of coronary arterial stenosis are considered and the fractional flow reserve and relative flow in the coronary vessels for a stenotic vessel computed in this model show good agreement with published experimental data. It is believed that the approach could be readily translated to clinical practice to facilitate real time clinical diagnosis.

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Thermal‐cycle dependent residual stress within the crack‐susceptible zone in thermal barrier coating system

Jiang

Fan

Sun

et al. 2018

J Am Ceram Soc

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Nondestructive and accurate measurement of residual stress in ceramic coatings is challenging, but it is crucial to the assessment of coatings failure and life. In this study, for the first time, the thermal‐cycle dependent residual stress in an atmosphere plasma sprayed thermal barrier coating system has been nondestructively and accurately measured using photoluminescence piezo‐spectroscopy. Each thermal cycle consists of a 5‐minute heating held at 1150°C and a 3‐minute water quenching. The measurement was performed within a crack‐susceptible zone in the yttria‐stabilized‐zirconia (YSZ) top coat (TC) closely above the thermally grown oxide layer. A YSZ:Eu3+ sublayer was embedded in TC as a stress sensor. It was found that the initial residual stress was compressive, with a mean value of 240 MPa, which rapidly increased to 395 MPa after 5 thermal cycles (12.5% life) and then increased gradually to the peak of 473 MPa after 25 thermal cycles (62.5% life). After 30 thermal cycles (75% life), the mean stress dropped abruptly to 310 MPa and became highly heterogeneous, with gradual reduction toward final spallation. The heterogeneous stress distribution indicates that many microcracks nucleated at different locations and the spallation occurred due to the coalescence of the microcracks.

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Stacking sequence optimization of composite laminates for maximum buckling load using permutation search algorithm

Jing

Fan

Qin

2015

Composite Structures

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Compressive behavior and rate-controlling mechanisms of ultrafine grained copper over wide temperature and strain rate ranges

Suo

Feng

et al. 2013

Mechanics of Materials

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Effect of periodic surface cracks on the interfacial fracture of thermal barrier coating system

Fan

Zhang

et al. 2012

Applied Surface Science

116

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Xueling Fan

A patient-specific lumped-parameter model of coronary circulation

Thermal‐cycle dependent residual stress within the crack‐susceptible zone in thermal barrier coating system

Stacking sequence optimization of composite laminates for maximum buckling load using permutation search algorithm

Compressive behavior and rate-controlling mechanisms of ultrafine grained copper over wide temperature and strain rate ranges

Effect of periodic surface cracks on the interfacial fracture of thermal barrier coating system

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