Leveling the bed and maintaining nozzle height for improved print quality.Post-processing techniques to achieve a high-quality finish.Using support structures for complex figures.Printing at slower speeds and using cooling fans.Filling up gaps and avoiding hollow parts in prints.Utilizing quality slicer software and experimenting with settings.
Familiarizing yourself with your specific 3D printer and its settings.Tips for temperature control and using high-quality materials.Overview of common 3D print quality issues and quick fixes.Considering the limitations and advantages of 3D printing in design optimization.Organizing 3D models and slicing settings with cloud-based storage.Designing for assembly with alignment features for perfect fit.Utilizing bridges to avoid the need for support material.Controlling overhangs by limiting the angle and adjusting designs.Strengthening weak parts by increasing diameter and infill density.Reducing shell thickness to decrease print time and maintain part resistance.Testing and iterating to optimize CAD models for 3D printing.Adjusting printer and slicer settings according to material and desired results.Optimizing the geometry of CAD models for better print quality and speed.Importance of choosing the right CAD software for 3D printing.
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