In the case of asymmetric X-Ray powder diffraction, usually used for stress analysis, the peak broadening is a function of the following instrumental parameters: divergence angle of incident and diffracted X-Ray beams (equatorial divergence), divergence angle of Soller slits (axial divergence), tilt angle ψ, and the intrinsic parameters of the sample (Bragg angle, size and mosaicity of the microcrystals, crystallographic imperfections due to atom impurities). This effect of peak broadening is discussed quantitatively, independent of the form of the peak, by using an approximation of a constant distribution of the intensities of diffracted X-Ray beams. The broadening effect due only to the ψ tilt of the sample surface is studied in this work. The results are compared with experimental data obtained on ceramic composite material: α-Al2O3/SiC(whisker).