DFG – Deutsche Forschungsgemeinschaft
018mejw64 
2007744-0 Research Data
Research Data Source code for a program to calculate Schmid-factorsFrenck, Johanna-Maria; Frenck, Georg; Degener, Sebastian; Vollmer, Malte; Niendorf, ThomasResearch Data Pathways toward the Use of Non-Destructive Micromagnetic Analysis for Porosity Assessment and Process Parameter Optimization in Additive Manufacturing of 42CrMo4 (AISI 4140) [Dataset]Engelhardt, Anna; Wegener, Thomas; Niendorf, ThomasResearch Data Frequency selective illumination for high aperture coherence scanning interferometry [Dataset](Universität Kassel) Künne, Marco; Lehmann, Peter; Pahl, Tobias; Stelter, AndreThis dataset containes raw measurement data from a coherence scanning interferometer of the Linnik type. Two 0.95 NA objectives were used for this measurement. The wavelength used for all these measurements is 450 nm and the step size between every z-step is 20 nm. Information about the different apertures used for the measurements are described in detail in the corresponding publication. IMPORTANT: In case you use the data please cite our corresponding article mentioned below.Research Data Low-cost high-speed fiber-coupled interferometer for precise surface profilometry [Dataset](Universität Kassel) Hagemeier, Sebastian; Zou, Yijian; Pahl, Tobias; Rosenthal, Felix; Lehmann, PeterThis dataset contains raw data obtained by a fiber-coupled laser interferometer for surface profilometry (NA = 0.38, wavelength = 1550 nm) and a dataset measured by an atomic force microscope for reference. The data obtained by the laser interferometer includes surface profiles measured from a chirp standard manufactured by the PTB (Physikalisch-Technische Bundesanstalt, Germany), a sinusoidal standard 531 from Simetrics GmbH, and height values obtained from the identical position of an aluminum mirror. These results are shown in section 3 of the article mentioned below. The data are saved in an HFD5 file format and can be used by example codes programmed using the software Python and Matlab. Furthermore, the interference signal shown in Figure 3 is in a CSV file format in the dataset. In addition, a profile obtained from the fine chirp texture of the chirp standard measured by an atomic force microscope (Nanite, Nanosurf AG) with EBD-HAR probe IP from Nanotools GmbH in non-contact mode is contained in the dataset. These data are saved in a CSV file format and can be used by example a code programmed using the software Python. IMPORTANT: In case you use the data please cite our corresponding article mentioned below.Research Data Surface slope measurement of steep silicon V-grooves using high NA Linnik interferometry [Dataset](Universität Kassel) Künne, Marco; Pahl, Tobias; Ribotta, Luigi; Giura, Andrea; Zucco, Massimo; Murataj, Irdi; Ferrarese Lupi, Federico; Lehmann, PeterThis dataset containes raw measurement data from a coherence scanning interferometer of the Linnik type. Two 0.95 NA objectives were used for this measurement. The wavelength used for all these measurements is 440 nm and the step size between every z-step is 20 nm. The measured sample contains several V-groove structures etched into silicon. The structure shown in the corresponding publication is the central V-groove structure.Research Data Das Besucherbuch von Kunsthaus und Museum Fridericianum 1769-1796Linnebach, Andrea; Dürr, Renate; Ebert, JochenResearch Data Impact of a single-side 100Cr6 clad layer on the tensile and fatigue properties of S550MC steel [Dataset](Universität Kassel) Krochmal, Marcel; Wegener, Thomas; Niendorf, ThomasThe production of newly developed hot-rolled layered metal composites (LMC) leads to the availability of sheet materials with specifically adjustable, graded properties being cost-effective and suitable for large-scale production. As many of the envisaged applications of these LMC, e.g., clutch disc carriers, suffer from cyclic loading during service life, a fundamental knowledge of the fatigue behavior is required in order to ensure safe and reliable application of the components. Therefore, the study described in https://doi.org/10.1111/ffe.14383 focuses on the fatigue behavior of a hot-rolled two-layer LMC consisting of a S550MC substrate layer and a 100Cr6 clad layer. In order to investigate the influence of the clad layer, two conditions are directly compared, i.e., the two-layer laminate cladded steel and the single-layer substrate condition.Research Data Surface layer state after hard turning of 51CrV4(Universität Kassel) Wittich, Felix; Wegener, Thomas; Liehr, Alexander; Zinn, Wolfgang; Niendorf, Thomas; Kroll, AndreasDescription of the dataset:
Hard-turning experiments were conducted on cylindrical specimens made of a quenched and tempered (Q&T) steel 51CrV4
in different initial surface hardness levels, i. e. 400 HV30, 500 HV30 and 600 HV30. Prior to heat treatment,
all specimens were manufactured with the same roughness requirements in order to ensure an almost identical surface
finish before hard-turning. Three different sections of nine specimen of each hardness level
(i.e. in total 27 section-specific areas per hardness level) were machined with varied cutting parameters feed rate
(f), depth of cut (a_p) and cutting speed (v_c).
Hard-turning of the specimens was carried out on a servo-conventional lathe of type Weiler C30 using
polycrystalline boron nitride (PCBN) inserts with a corner radius of 0.8 mm.
After hard-turning, residual stress depth profiles were determined using X-ray diffraction (XRD),
respectively for each specific area of a specimen. Residual stress measurements were conducted using a
Pulstec μ-X360 diffractometer equipped with a 0.3 mm collimator and CrKα-radiation with an exposure time
of 120 sec. Depth profiles were determined by successive removal of the material surface layer using
electro-chemical polishing. The obtained data have been evaluated applying the cos α-method without consideration
of any mathematical stress correction.
Post process surface roughness in axial direction was determined using a Mitutoyo SJ-210 tactile roughness
measuring device. Post process Vickers hardness testing was carried out using a Struers DuraScan-70 system
employing a load of 294.2 N (HV30).
For more detailed information on the material and the experimental setup, i.e., chemical composition, specimen
geometry, machines and parameters used for hard-turning operations and post process measurements, the reader is
referred to [1].
A full factorial experiment design was used with two levels for the initial hardness levels H_Vinit and three
factors for the cutting parameters, f: {0.05 mm, 0.25 mm, 0.5 mm}, v_c: {100 m/min, 175 m/min, 250 m/min},
a_p: {0.05 mm, 0.25 mm, 0.5 mm}, resulting in 81 different combinations. For the residual stress depth profile
modeling, measurements for 12 different depths are available:
{0, 10, 20, 30, 40, 50, 60, 80, 100, 120, 150, 200} μm, providing for N = 972 samples in total.
Two data sets are provided:
1. "hardness_roughness_hard_turning.csv" with the 81 data points for the surface hardness and roughness measurements.
2. "residual_stress_profile_hard_turning.csv" with the 972 data points for the tangential residual stress depth profiles.
[1] Thomas Wegener, Alexander Liehr, Artjom Bolender, Sebastian Degener, Felix Wittich, Andreas Kroll, & Thomas Niendorf,
"Calibration and validation of micromagnetic data for non-destructive analysis of near-surface properties
after hard turning" in HTM Journal of Heat Treatment and Materials, 2022, 77(2), 156-172.