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* Add process images * Reorder like GUI + images * GUI images subfolder * MVF restandarizarion (naming pending) Update volumetric speed calibration docs and image paths * Improved SVGs * Infill Wall Overlap * Apply gap fill + Anchor * Minor change * Internal Solid Infill * Images++ * Step file import image update * Add VFA calibration documentation and images * fix pa-tower image not visible * Removed WIP in not implemented features. * Added Old and New Order in xlsx * Wall generator * Wiki #9924 * New Zag Infills Co-Authored-By: Rodrigo <162915171+RF47@users.noreply.github.com> * Infill Rescaled images + sharpness 2d honeycomb image fix * Update infill_desc_calculator.xlsx * Rename extrusion rate smoothing references for consistency * Add wiki and link for top/bottom shells settings * Updated Wiki Links tab.cpp * Update infill_desc_calculator.xlsx * Fix indentation in top/bottom shells option group * Fill images optimized Removed Metadata Reduce color bit to 16 --------- Co-authored-by: Rodrigo <162915171+RF47@users.noreply.github.com>
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VFA
Vertical Fine Artifacts (VFA) are small artifacts that can occur on the surface of a 3D print, particularly in areas where there are sharp corners or changes in direction. These artifacts can be caused by a variety of factors, including mechanical vibrations, resonance, and other factors that can affect the quality of the print.
Because of the nature of these artifacts the methods to reduce them can be mechanical such as changing motors, belts and pulleys or with advanced calibrations such as Jerk/Junction Deviation corrections or Input Shaping.
VFA Test
OrcaSlicer's VFA test is used to identify the print speed that minimizes ringing artifacts. It prints a tower with walls at key angles while gradually increasing the print speed. The goal is to find the speed at which VFA artifacts are least visible, revealing the optimal range for clean surfaces.
