Tension/Torsion Interactions in Multicomponent Mooring Lines

Chaplin, C. R.; Rebel, G.; Ridge, I.M.L.

doi:10.4043/12173-ms

Cited by 15 publications

(8 citation statements)

References 5 publications

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“…11,12 The damage appears to be the result of high-amplitude cyclic twisting at the connection point, and it is likely that this would also lead to premature failure of any connected synthetic rope. While static twist appears to cause little degradation, the current literature describes dramatic fatigue damage in wire rope samples cyclically loaded in series with torque-neutral synthetic fiber ropes (which behave as nearperfect swivels).…”

Section: Discussionmentioning

confidence: 99%

HMPE Mooring Line Trial for Scarabeo III

Corbetta

Sloan

2001

All Days

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This paper describes the deployment of a high-modulus polyethylene (HMPE) mooring insert line on the Scarabeo III MODU. Several new technologies are now available that can increase the maximum rated water depth of 2 nd and 3 rd generation drilling rigs. The purpose of this trial was to qualify one such technology, the use of lightweight synthetic fiber rope mooring lines. The desire to deploy and recover the lines on existing boats and equipment led to the selection of HMPE as the trial rope material. HMPE ropes are almost neutrally buoyant, have high abrasion resistance and exhibit a strength-to-diameter ratio similar to that of steel wire rope. The HMPE line used in the present study, a field-repairable Plasma ® 12x12-strand braided rope, served without incident for 3 years. After damage was discovered at one of the rope terminations, the rope was returned to the manufacturer for retermination and residual strength determination. The rope was also inspected and any damaged strands repaired prior to being returned to service. The study demonstrated the durability and ease of handling of these lines, in particular the 12x12-strand braid, for MODU mooring applications. The scope of the paper includes static mooring analysis, deployment procedures, mooring load data and residual strength data. Recommendations are made regarding deployment methods for synthetic ropes.

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Section: Discussionmentioning

confidence: 99%

HMPE Mooring Line Trial for Scarabeo III

Corbetta

Sloan

2001

All Days

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“…Small chains were studied (14 mm), similar to those used in a chain hoist. Hobbs and Ridge [22] published experimental results. They measured torque as a function of the tension load, remaining the twist angle constant.…”

Section: Chain Twistingmentioning

confidence: 99%

Multiaxial Fatigue Analysis of Mooring Chain Links Under Tension Loading: Influence of Mean Load and Simplified Assessment

Perez

Bastid

Constantinescu

et al. 2018

Volume 3: Structures, Safety, and Reliability

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Current standards (as an example, DNV-OS-E301[1] and API-RP-2SK[2]) do not account for mean load in the fatigue assessment of mooring chains. Both standards, provide S-N curves derived from experimental work without specifying the mean load for which they have been obtained or proposing a mean load correction function. This paper reports a fatigue analysis study of mooring chains under Tension Loading using a multiaxial fatigue criterion for two different mean loads. Multiaxial fatigue criteria enable to account directly for complex phenomena, such as residual stresses, non-proportionality of the stress tensor, among others. This paper presents an example of the implementation of the Dang Van fatigue criterion for studying the fatigue behavior of mooring chains under tension. It quantifies the effect of the mean load on the fatigue lifetime and the failure location. Furthermore, it also proposes a simplified approach to reduce the complexity and the computational time of the fatigue analysis using Dang Van fatigue criterion. The paper is organized as follows: in the first part an example of the fatigue assessment is reported. Two different loading conditions with the same load amplitude but different mean loads are studied. The assessment method is based on two steps: a mechanical analysis and a fatigue analysis. In the second part, a simplified fatigue assessment method is proposed. As part of this method, a ratio between the fatigue lifetimes of two loading conditions, which have the same load amplitude but different mean load, is formulated. This ratio has been obtained analytically using the geometric representation of the Dang Van fatigue Criterion. Finally, the paper ends with a discussion, based on recent works, regarding the formulation of the locus of the Dang Van criterion and the fatigue properties used for the calibration of this criterion.

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“…Chaplin et al 20 present a series of constant twist tests -in which the twist in the chain is held constant -and the torque measured as a function of load. This work is for a 20.5 mm stud-link chain.…”

Section: 1mentioning

confidence: 99%

Predicting the Torsional Response of Large Mooring Chains

Ridge¹,

Hobbs

Fernández³

2006

Offshore Technology Conference

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractThe extensive use of chain as an element in multi-component moorings by the offshore industry has led to a requirement to be able to predict the torsional response of chain under a variety of service applications. Chain exhibits some interesting behaviour in that when straight and subject to an axial load, it does not twist or generate any torque. However, if chain is twisted while carrying axial load, or subjected to axial load when in a pre-twisted condition, it behaves in a highly nonlinear manner, with the magnitude of the torque dependent upon the level of twist and the axial load. Consequences of this behaviour can include handling difficulties or even a loss of integrity in the mooring system, and care must be taken to avoid problems for both the chain and any components to which it is connected.Clearly an understanding of the way in which chains may behave and interact with other mooring components (such as wire rope, which also exhibits coupling between axial load and generated torque) when they are in service is essential. Even with knowledge of the potential problems, there will always be occasions where, despite the utmost care, twist occurs. Thus it is important to be able to determine the effects, but the sizes of chain which are in use in offshore moorings (typical bar diameters are 75 mm and greater) are too large to allow easy testing at meaningful loads and there is virtually no predictive information on the torsional response of chain available in the literature.This paper addresses the issues and considerations relevant to torque in large mooring chains. The authors introduce a frictionless theory which predicts the torques and endshortening in the chain as non-dimensionalised functions of the angle of twist. The theoretical model is compared with finite element studies that include friction.Experimental data is also presented in both "constant twist" and "constant load" forms for stud-less and stud-link chains of 41 and 56 mm bar diameter. Non-dimensionalised design curves are then given for typical stud-less and stud-link chain geometries, curves which will allow a designer to estimate the torque and end-shortening for any bar diameter, axial load and twist angle combination.

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Tension/Torsion Interactions in Multicomponent Mooring Lines

Cited by 15 publications

References 5 publications

HMPE Mooring Line Trial for Scarabeo III

HMPE Mooring Line Trial for Scarabeo III

Multiaxial Fatigue Analysis of Mooring Chain Links Under Tension Loading: Influence of Mean Load and Simplified Assessment

Predicting the Torsional Response of Large Mooring Chains

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