Ct. Pan et H. Hocheng, THE ANISOTROPIC HEAT-AFFECTED ZONE IN THE LASER GROOVING OF FIBER-REINFORCED COMPOSITE-MATERIAL, Journal of materials processing technology, 62(1-3), 1996, pp. 54-60
A heat-affected zone is frequently associated with the laser processin
g of materials. In the shaping of composite material after curing, the
rmal damage is found, such as matrix recession, matrix decomposition,
and delamination, which lead to poor assembly tolerance and long-term
performance deterioration. The current study analyzes the peculiar gro
wth of the heat-affected zone due to laser energy and the anisotropy o
f heat conductivity from the anisotropic arrangement of the fiber rein
forcement in the composite material. It further applies the concept th
at the cut quality can be improved by reducing the resulting tempertur
e of the workpiece. which leads to laser machining at low temperature.
The paper investigates the cutting of unidirectional laminated carbon
/epoxy composite perpendicular to and parallel to the fiber axis, usin
g a cool nitrogen jet to reduce thermal damage. A theoretical analysis
based on moving-point heat-source theory is adopted to determine the
extent of thermal damage in correlation with process parameters and ma
terial properties. The analytical solution is modified by the 'mirror
image method' for a specimen of finite thickness. The range of the hea
t-affected zone is estimated by the isotherm of the matrix char temper
ature. Heat conduction is maximum along the carbon fibers, the heat-af
fected zone shape thus being affected by the beam scanning direction r
elative to the fiber orientation.