Title of article :
MATHEMATICAL MODELING OF THE DEPENDENCE OF HEAT DISTRIBUTION ON DIRECTION IN SURFACE TEXTURING OF CONTINUOUS CARBON FIBRE REINFORCED EPOXY COMPOSITES BY ND.YAG LASER
Author/Authors :
CANEL, TIMUR Department of Mathematics - Kocaeli University - Kocaeli, Turkey , BAGLAN, IREM Department of Mathematics - Kocaeli University - Kocaeli, Turkey
Abstract :
Major developments, especially in the aircraft, automobile and energy sectors, have led to the need to use highly featured new materials used in these fields .
Carbon fiber reinforced plastics (CFRP) have been used frequently in the transportation
and energy sectors because of their high strength-to-weight ratio. Mathematical Modeling of laser beam ablation of carbon fiber reinforced plastic (CFRP) is performed.Heat
transfer equation based on Fourier’s law of conduction is used for calculation of the
temperature distribution in the target material. Under some natural regularity and consistency conditions on the input data the existence, uniqueness of solution are shown by
using the generalized Fourier method.
Keywords :
Laser ablation , Mathematical modeling , Fourier method , Carbon fibre Epoxy , Surface texturing
Journal title :
Turkish World Mathematical Society Journal of Applied and Engineering Mathematics
