The extend force of a cylinder in regeneration is equal to cap pressure times the rod.

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Study for the Intermediate Hydraulics Exam. Enhance your skills with flashcards and multiple choice questions. Each question includes hints and explanations to prepare you for your exam!

Multiple Choice

The extend force of a cylinder in regeneration is equal to cap pressure times the rod.

Explanation:
Regeneration changes which surface drives the piston during extension. When this circuit is active, the cap pressure is directed into the rod end, so the piston moves outward because pressure acts on the rod-face area. The force available to push the load in the extension direction is thus the cap pressure times that driving area, which is the rod cross-sectional area. Since the rod area is smaller than the full piston face, the extension force is cap pressure times the rod area, not cap area or any other combination. This setup is why regeneration increases extension speed but reduces the available force compared with full-area extension.

Regeneration changes which surface drives the piston during extension. When this circuit is active, the cap pressure is directed into the rod end, so the piston moves outward because pressure acts on the rod-face area. The force available to push the load in the extension direction is thus the cap pressure times that driving area, which is the rod cross-sectional area. Since the rod area is smaller than the full piston face, the extension force is cap pressure times the rod area, not cap area or any other combination. This setup is why regeneration increases extension speed but reduces the available force compared with full-area extension.

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