Title :
The evaluation of long-term marine overfinish stability on mooring ropes
Author :
Richard, S.M. ; Archie, W.A. ; Sloan, F.E.
Author_Institution :
AlliedSignal Performance Fibers, Petersburg, VA, USA
Abstract :
Synthetic mooring ropes made with marine overfinish yarns are preferred for long-term moorings and other reliability-driven ocean engineering applications. By using the ropes re-claimed from the DeepStar Project in the Gulf of Mexico, a long-term study of SeaGard(R) marine overfinish on polyester has been initiated. Finish retention was analyzed by comparing an unused portion of the rope to a portion of the deployed rope. Results show little appreciable loss of the marine overfinish after more than two years of service. It is imperative to understand the methods for determining finish on yarn (FOY) levels, especially when dealing with marine overfinish components. Some of the difficulties in testing for the finish on yarn levels and alternative methods used are discussed
Keywords :
geophysical equipment; marine systems; materials testing; mechanical properties; naval engineering; oceanographic equipment; polymer fibres; ships; wear; wear resistance; DeepStar; SeaGard; finish; geophysical equipment; long-term behaviour; long-term moorings; marine overfinish; marine overfinish yarn; mechanical cable; mechanical property; mooring rope; moorings; ocean; polyester; polymer fibre; reliability; retention; rope; stability; strength; synthetic rope; testing; wear; Manufacturing processes; Marine technology; Oceans; Optical fiber devices; Reliability engineering; Solvents; Stability; Synthetic fibers; Testing; Yarn;
Conference_Titel :
OCEANS '99 MTS/IEEE. Riding the Crest into the 21st Century
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-5628-4
DOI :
10.1109/OCEANS.1999.804784
