How reducing clearance reduces vibrations and the impact force?
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Reducing clearance in mechanical systems can effectively decrease vibrations and impact forces. By optimizing link lengths in planar linkage mechanisms, adjusting the clearance range in roller thrust bearings, and utilizing erodible elements in turbomachinery, the undesirable vibrations caused by clearance can be minimized. Additionally, incorporating clearance reducing devices in hinge pins of solar energy capture structures and implementing waste paper clearance reducing mechanisms can further reduce impact forces. These methods involve optimizing components to minimize gaps, ensuring proper alignment, and enhancing contact surfaces, ultimately leading to improved system performance with reduced vibrations and impact forces.
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Reducing clearance with the device in the heliostat minimizes vibrations and impact force by securely clamping the hinge pin, enhancing stability and precision in solar energy capture structures. | |
26 Citations | Reducing clearance in planar linkage mechanisms decreases vibrations by minimizing maximum acceleration peaks, leading to lower impact forces through optimized link lengths and contact/impact force models. |
Reducing clearance in turbomachinery decreases vibrations and impact force by utilizing an erodible element on the shroud opposite the impeller blades, which erodes upon contact, as outlined in the paper. | |
Reducing clearance in a roller thrust bearing decreases vibrations and impact force by enhancing stability in the roller roll system, improving performance, and minimizing potential movement within the bearing components. |
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