Duanwei Zhang scite author profile

This article proposes a method of increasing thermal conductivity (λ) by improving the λ value of a matrix and reducing the interfacial thermal resistance between such matrix and its thermally conductive fillers. D-GQDs (graphene quantum dots modified by polyetheramine D400) with a π–π-conjugated system in the center of their molecules, and polyether branched chains that are rich in amino groups at their edges, are designed and synthesized. AlN/DG-ER (AlN/D-GQDs-Epoxy resin) thermally conductive composites are obtained using AlN as a thermally conductive and insulating filler, using D-GQDs-modified epoxy resin as a matrix. All of the thermal conductivity, electrically insulating and physical–mechanical properties of AlN/DG-ER are investigated in detail. The results show that D-GQDs linked to an epoxy resin by chemical bonds can increase the value of λ of the epoxy–resin matrix and reduce the interfacial thermal resistance between AlN and DG-ER (D-GQDs–epoxy resin). The prepared AlN/DG-ER is shown to be a good thermally conductive and insulating packaging material.

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A Fast Synthesis Approach for Diplexer with E-Plane T-Junction Design

Zhang

Zhao

Liu

et al. 2010

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A 4-component 2-D CFDFD method with equivalent SIBC for multilayer metal-coated coaxial waveguide

Zhang

Deng

Zhao

et al. 2009

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Equivalent surface impedance boundary condition is implemented in the compact 2-D finite difference frequency domain(2-D CFDFD) method to analyze the propagation characteristics of multilayer metal-coated coaxial waveguide. The advantages of the 2-D CFDFD are reserved by applying the equivalent surface impedance boundary condition(SIBC).Compared with the no-coating coaxial waveguide, the multilayer coating coaxial waveguide makes a better propagation performance.

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A New Hybrid Mm/Compact 2-D FDFD Method for Rectangular Ridged Waveguide Discontinuities

Zhao¹,

Zhao²,

Deng³

et al. 2010

PIER M

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A hybrid mode-matching/compact 2-D finite-difference frequency-domain (MM/compact 2-D FDFD) method is proposed for the analysis of rectangular ridged waveguide discontinuities. In order to apply MM technique, mode spectrum of the ridged waveguide is determined by an improved compact 2-D FDFD method with only two transverse field components at the cutoff frequencies which lead to two independent sets of real symmetric eigenvalue problems for TE and TM modes. Solving these two separate eigenvalue equations, cutoff wave numbers and discrete mode field functions can be obtained respectively from eigenvalues and eigenvectors. Finally, the generalized scattering matrix (GSM) of the rectangular-ridged waveguide step discontinuity can be easily calculated through the transverse field matching procedure. The method is demonstrated at the examples of two waveguide structures, and results are shown to be in excellent agreement with those by the commercial CAD software HFSS.

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Duanwei Zhang

Preparation of antistatic epoxy resin coatings based on double comb-like quaternary ammonium salt polymers

D-GQDs Modified Epoxy Resin Enhances the Thermal Conductivity of AlN/Epoxy Resin Thermally Conductive Composites

A Fast Synthesis Approach for Diplexer with E-Plane T-Junction Design

A 4-component 2-D CFDFD method with equivalent SIBC for multilayer metal-coated coaxial waveguide

A New Hybrid Mm/Compact 2-D FDFD Method for Rectangular Ridged Waveguide Discontinuities

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