Guibo Chen scite author profile

Guibo Chen

5Publications

39Citation Statements Received

9Citation Statements Given

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Affiliations

Changchun University of Science and Technology, Jilin University

Publications

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Study on the Response of a Multicomponent Induction Logging Tool in Deviated and Layered Anisotropic Formations by Using Numerical Mode Matching Method

Wang

Tao

Jing-Jin³

et al. 2008

Chinese J of Geophysics

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In this paper, we advance an efficient algorithm to compute the responses of multicomponent induction logging (MCIL) tool in deviated and layered anisotropic formations through a numerical mode matching method (NMM). First, the three mutually orthogonal magnetic dipoles located at the borehole axis are represented as the sum of three harmonic components about the dipole angle θ so that the electromagnetic (EM) fields produced by the dipoles can be transformed into three axisymmetric problems. And new boundary conditions satisfied by every EM harmonic component at borehole axis are given to assure the EM field near the borehole axis can still be calculated. Then NMM is used to solve the three axisymmetric problems and obtain a semianalytic expression of a dyadic Green function by magnetic current source in the formation. Furthermore, the formula to compute the MCIL response is given. The numerical tests are carried out to validate the algorithm and investigate the characteristics of MCIL response in several different cases.

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An analytical solution for two-dimensional modeling of repetitive long pulse laser heating material

Chen

Wang

Zhang

et al. 2017

International Journal of Heat and Mass Transfer

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Numerical study of thermal stress damage in dielectric film by long-pulse laser

Cai

Jin

et al. 2013

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In this paper, we study and establish the theoretical model of thermal stress damage of dielectric film in film/substrate systems caused by long-pulse laser, based on which transient distributions of temperature field and thermal stress field are simulated using the finite element method(FEM) and then analyze the mechanism of the damage. In accordance with the basic equation of heat conduction equation and thermal stress equation, the physical model of dielectric film and the substrate transient temperature field and thermal stress field is developed with the assumption that the dielectric film and the substrate are isotropic and their thermal parameters do not change with temperature.On the foundation of theoretical analysis, transient of temperature field in dielectric film in film/substrate systems under long-pulse laser irradiation is simulated and calculated. The numerical results indicate that great temperature gradient exists in dielectric film and substrate in radial direction but smaller one exists in axial direction. When the laser power density is increasingly larger, the temperature gradient in radial direction is larger and the temperature in the center of the film is higher. Transient thermal stress field in dielectric film in film/substrate systems under long-pulse laser irradiation is simulated. Numerical results show that, the damage to the dielectric film caused by long-pulse laser is mainly due to thermal stress damage process which circumferential stress acts a primary role in. Such damage is a final result of the substrate being under thermal stress. For film/substrate system, the damage under long-pulse laser radiation starts from the substrate. When the laser power density is increasingly larger, the dielectric film is more vulnerable to damage and damage zone is greater.The result of this paper provides theoretical foundation not only for research of theories of dielectric film and substrate thermal stress damage and its numerical simulation under laser radiation but also for long-pulse laser technology and widening its application scope.Key words: long-pulse laser, dielectric film, temperature field, thermal stress field THEORETICAL MODEL Geometric modelWhen the surface of the optical dielectric film is irradiated by millisecond laser, its substrate and the film itself absorb the energy of laser which will be converted into heat form. This process is macroscopically reflected by temperature rises in the optical dielectric film and substrate and the partial expansion of the volume. Assuming that the optical dielectric film and the substrate is isotropic continuous medium and the absorption of the laser energy is volume absorption, we established the geometric model of optical dielectric thin film and the substrate under laser irradiation as shown in Figure 1. During the calculation, cylindrical coordinate system is applied because of laser spatial distribution which is Gaussian [1] .

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Modeling of annular long pulsed laser heating solid material using closed-form solutions

Chen

2017

Optik

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Analytical solutions for temperature and thermal-stress modeling of solid material induced by repetitive pulse laser irradiation

Chen

2017

Optik

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Guibo Chen

Study on the Response of a Multicomponent Induction Logging Tool in Deviated and Layered Anisotropic Formations by Using Numerical Mode Matching Method

An analytical solution for two-dimensional modeling of repetitive long pulse laser heating material

Numerical study of thermal stress damage in dielectric film by long-pulse laser

Modeling of annular long pulsed laser heating solid material using closed-form solutions

Analytical solutions for temperature and thermal-stress modeling of solid material induced by repetitive pulse laser irradiation

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