Quantification of roping intensity on aluminium sheets by Areal Power Spectral Density analysis

“…The effect of stoning can be further amplified or replaced by special inking or painting techniques, as shown in Fig. 1a [16,17,20].…”

“…A more objective assessment of surface quality with the possibility for a quantification of the degree of roping requires an experimental determination of the full 3D surface topography. Among the possible techniques for surface measurements, including tactile roughness measurements [6,7], laser-scanning confocal microscopy [10,17] or white-light interferometry [6,11,12,16], the latter stands out due to a large measured area in combination with sufficient spatial resolution to assess roping of Al sheet.…”

“…Therefore, the greyscale data of the corrected 3D surface profiles are transformed into Fourier space by means of a discrete fast Fourier transformation, FFT, which is basically a representation within frequency space. For a quantification of the degree of roping the corrected data set is then analysed by the use of the integrated intensities of the amplitudes spectrum of the FFT, in the style of the work by Guillotin et al [17,19]. Figure 2b shows the roping surface of Fig.…”

“…For the isotropic component the wavelengths are k = 0.8 mm to 4.7 mm along RD and k = 1 mm to 6.2 mm along TD. Finally, an overall roping grade (ORG) may be obtained by dividing the integrated intensities of the unidirectional component by those of the isotropic component [17]. This point will be addressed later in this paper.…”

“…The final definition of the overall roping grade is still subject to debate and needs to be adjusted in cooperation with automotive customers. [17,20], as well as iFFT images (comprising the unidirectional + isotropic part) and the corresponding ORG (e-h).…”

Quantification of roping in aluminium sheet alloys for car body applications by combining 3D surface measurements with Fourier analysis

“…The effect of stoning can be further amplified or replaced by special inking or painting techniques, as shown in Fig. 1a [16,17,20].…”

“…A more objective assessment of surface quality with the possibility for a quantification of the degree of roping requires an experimental determination of the full 3D surface topography. Among the possible techniques for surface measurements, including tactile roughness measurements [6,7], laser-scanning confocal microscopy [10,17] or white-light interferometry [6,11,12,16], the latter stands out due to a large measured area in combination with sufficient spatial resolution to assess roping of Al sheet.…”

“…Therefore, the greyscale data of the corrected 3D surface profiles are transformed into Fourier space by means of a discrete fast Fourier transformation, FFT, which is basically a representation within frequency space. For a quantification of the degree of roping the corrected data set is then analysed by the use of the integrated intensities of the amplitudes spectrum of the FFT, in the style of the work by Guillotin et al [17,19]. Figure 2b shows the roping surface of Fig.…”

“…For the isotropic component the wavelengths are k = 0.8 mm to 4.7 mm along RD and k = 1 mm to 6.2 mm along TD. Finally, an overall roping grade (ORG) may be obtained by dividing the integrated intensities of the unidirectional component by those of the isotropic component [17]. This point will be addressed later in this paper.…”

“…The final definition of the overall roping grade is still subject to debate and needs to be adjusted in cooperation with automotive customers. [17,20], as well as iFFT images (comprising the unidirectional + isotropic part) and the corresponding ORG (e-h).…”

Quantification of roping in aluminium sheet alloys for car body applications by combining 3D surface measurements with Fourier analysis

Correlation of Surface Roping with Through-Thickness Microtextures in an AA6xxx Sheet

Deep learning methods for roping defect analysis in aluminum alloy sheets: prediction and grading