Figure 4-5.—Details of underwater strut bearing. A. Longitudinal view. B. Cross-sectional view. C. Rubber stripping in the bearing.

ENGINEMAN 1 & C Figure 4-5.—Details of underwater strut bearing. A. Longitudinal view. B. Cross-sectional view. C. Rubber stripping in the bearing. box. This permits the addition of a ring of new packing, when needed, while the ship is water- borne. Either braided flax packing or special semimetallic packing must be used (ship’s engineering drawings show the proper type of packing). This gland is usually tightened to eliminate leakage when the ship is in port, and is loosened (prior to warming up) just enough to permit a slight trickle of water for cooling pur- poses when the ship is underway. More recent shaft seal designs utilize packing only for emergencies. These newer seals are of two types; rubber face seals and mechanical face seals. Both face seals are on a plane perpendicular to the shafting, against a gland ring for rubber face seal or against a seal ring for a mechanical face seal. Further, most face seals require seawater for both cooling and lubrication. The rubber face consists of a rubber element that is clamped around the shaft just tightly enough to prevent rotational slippage and leakage underneath the seal, while at the same time, the seal is able to travel axially along the shaft. This axial motion is necessary so that the seal can main- tain its position against the gland ring regardless of shaft position. 4-10