Surface topographies after micromilling in ploughing-dominant regime

Provided here png and jpg files contain data gathered during micromilling experiments. The data are the 3D machined surface topographies measured with a use of laser interferometer and optical microscope.LICENSEThe data are under Creative Commons License CC BY. It is though recommended to manipulate along with the author to fully understand the outcomes. If you have any questions do not hesitate to contact: szymon.wojciechowski@put.poznan.plThis research was funded by the National Science Centre, Poland grant number: 2021/43/D/ST8/00023.https://ror.org/03ha2q922The dataset provides the outcome of the micromilling experiment conducted on 1045 steel. The experiment has been conducted on ultra-precise prototype micromilling machine tool. The tests included the measurements of a machined 3D surface topographies. The conducted tests have been carried out with the application of cemented carbide micro end mill with a nominal diameter of 1.5 mm and with the variable feed per tooth values (from 0.1 μm to 1.8 μm), constant axial depth of cut (100 μm) and constant rotational speed (30 000 rev/min). Provided files are the images, saved with .jpg and .png extensions. During measurements the surface profiler equipped with white light interferometric objective has been applied, which has a numerical aperture of 0.5 and a range equal to 1.2 mm. A scanning resolution of 0.2 µm (in both X and Y axes) was employed. Moreover, the optical microscope Keyence VHX - 600 SO has been applied during evaluation of the machined surface topographies.----------------------------------------FILES:"fz01_int.png" - This file contains a 3D image of a machined surface topographies. These measurements were made with the application of surface profiler equipped with white light interferometric objective. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.1 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz02_int.png" - This file contains a 3D image of a machined surface topographies. These measurements were made with the application of surface profiler equipped with white light interferometric objective. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.2 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz03_int.png" - This file contains a 3D image of a machined surface topographies. These measurements were made with the application of surface profiler equipped with white light interferometric objective. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.3 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz04_int.png" - This file contains a 3D image of a machined surface topographies. These measurements were made with the application of surface profiler equipped with white light interferometric objective. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.4 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz05_int.png" - This file contains a 3D image of a machined surface topographies. These measurements were made with the application of surface profiler equipped with white light interferometric objective. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.5 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz06_int.png" - This file contains a 3D image of a machined surface topographies. These measurements were made with the application of surface profiler equipped with white light interferometric objective. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.6 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz07_int.png" - This file contains a 3D image of a machined surface topographies. These measurements were made with the application of surface profiler equipped with white light interferometric objective. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.7 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz08_int.png" - This file contains a 3D image of a machined surface topographies. These measurements were made with the application of surface profiler equipped with white light interferometric objective. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.8 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz09_int.png" - This file contains a 3D image of a machined surface topographies. These measurements were made with the application of surface profiler equipped with white light interferometric objective. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.9 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz1_int.png" - This file contains a 3D image of a machined surface topographies. These measurements were made with the application of surface profiler equipped with white light interferometric objective. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 1 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz01_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.1 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz02_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.2 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz03_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.3 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz04_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.4 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz05_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.5 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz06_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.6 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz07_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.7 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz08_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.8 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz09_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 0.9 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz1_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 1 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz12_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 1.2 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min."fz18_mic.jpg" - This file contains a 3D image of a machined surface. These measurements were made with the application of the optical microscope. The sample has been machined with full-immersion milling kinematics, constant feed per tooth value equal to 1.8 μm, constant axial depth of cut value equal to 100 μm and constant spindle rotational speed equal to 30 000 rev/min.