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Journal of Microwave Power
and Electromagnetic Energy (JMPEE) |
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TITLE |
A Numerical and Experimental
Investigation of the Microwave Heating of Polymer Materials Inside a Ridge
Waveguide [PDF] |
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AUTHORS |
F. Liu, I.
Turner, E. Siores and P. Groombridge
1996 31 2 71-82 |
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Abstract Microwave joining of polymer
materials using ridge waveguides is a relatively new area of research. In
order to gain insight into the phenomena that occur inside the ridge
waveguide, together with the temperature distribution in the polymer
material, a detailed knowledge of the power distribution is necessary. In
this paper, Maxwell's electromagnetic equations are coupled to the heat
transfer equation and solved numerically in order to simulate the microwave
heating of a polymer material inside a ridge waveguide. The electromagnetic
fields and power distribution in the polymer material within the waveguide
are predicted by means of the finite difference time-domain (FD-TD)
technique. The FD-TD scheme is modified for the field component adjacent to
the curved surface of the ridge waveguide by applying the contour path
technique. Key Words: Ridge waveguide,
Microwave heating, Polymer materials, Finite-difference time-domain method. |
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