FN Archimer Export Format PT J TI Mechanical behaviour of HMPE and aramid fibre ropes for deep sea handling operations BT AF DAVIES, Peter REAUD, Yvan DUSSUD, Loic WOERTHER, Patrice AS 1:1;2:1,2;3:1;4:1; FF 1:PDG-REM-RDT-MS;2:;3:PDG-REM-RDT-DSMI;4:PDG-REM-RDT-IPR; C1 IFREMER, Mat & Struct Grp, Ctr Brest, F-29280 Plouzane, France. C2 IFREMER, FRANCE CNRS, FRANCE SI BREST SE PDG-REM-RDT-MS IPEV PDG-REM-RDT-DSMI PDG-REM-RDT-IPR IN WOS Ifremer jusqu'en 2018 copubli-france IF 1.178 TC 49 UR https://archimer.ifremer.fr/doc/00054/16573/14068.pdf https://archimer.ifremer.fr/doc/00054/16573/14069.pdf LA English DT Article DE ;Fibre rope;Deep sea coring;Stiffness;Aramid;HMPE AB This paper describes the mechanical behaviour of ropes used for deep sea oceanographic operations. First the requirements of deep sea handling ropes are presented. Two high performance fibres are commonly used, aramid co-polymer and high modulus polyethylene (HMPE), and these are then compared. Results from tests on single fibres and 50 ton break load braided ropes are presented, which show that the initial stiffness of a new HMPE rope increases with load level in a bedding-in process resulting from both molecular alignment and construction reorientation. The aramid rope is less sensitive to this effect and shows a high stiffness from first loading. Measurements made at sea on oceanographic ropes of both materials using an elastic recoil method are presented, and apparent modulus values are consistent with laboratory measurements. Once both ropes have been fully bedded-in the HMPE is significantly stiffer, particularly under dynamic loads. Creep tests indicate that aramids creep less quickly than HMPE under constant loads over a 6 h period at 20 °C. Bending over sheave tests indicate longer lifetimes for the aramid but further tests on wet aramid are required to complete this conclusion. Highlights ► Original data on the mechanical behaviour of two types of deep sea handling rope. ► New results from measurements at sea. ► A discussion of the relative merits of aramid and HMPE fibre ropes for this application. PY 2011 PD DEC SO Ocean Engineering SN 0029-8018 PU Pergamon-elsevier Science Ltd VL 38 IS 17-18 UT 000298933700032 BP 2208 EP 2214 DI 10.1016/j.oceaneng.2011.10.010 ID 16573 ER EF