Relevant bibliographies by topics / Visco-elasto-plastic modeling

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Visco-elasto-plastic modeling'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Visco-elasto-plastic modeling"

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Varchanis, S., G. Makrigiorgos, P. Moschopoulos, Y. Dimakopoulos, and J. Tsamopoulos. "Modeling the rheology of thixotropic elasto-visco-plastic materials." Journal of Rheology 63, no. 4 (2019): 609–39. http://dx.doi.org/10.1122/1.5049136.

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Semenov, Artem, and Boris Melnikov. "Interactive Rheological Modeling in Elasto-visco-plastic Finite Element Analysis." Procedia Engineering 165 (2016): 1748–56. http://dx.doi.org/10.1016/j.proeng.2016.11.918.

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Babeyko, A. Y., and S. V. Sobolev. "High-resolution numerical modeling of stress distribution in visco-elasto-plastic subducting slabs." Lithos 103, no. 1-2 (2008): 205–16. http://dx.doi.org/10.1016/j.lithos.2007.09.015.

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Pipard, Jean Marc, Tudor Balan, Farid Abed-Meraim, and Xavier Lemoine. "Physically-Motivated Elasto-Visco-Plastic Model for the Large Strain-Rate Behavior of Steels." Key Engineering Materials 554-557 (June 2013): 1164–73. http://dx.doi.org/10.4028/www.scientific.net/kem.554-557.1164.

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A physically based elasto-visco-plastic constitutive model is presented and compared to experimental results for three different mild steels. The experiments consist of tensile tests at strain rates up to 103 s-1 and reverse shear tests. The model requires significantly fewer material parameters compared to other visco-plasticity models from the literature while exhibiting very good accuracy. Accordingly, the parameter identification is simple and intuitive, requiring a relatively small set of experiments. The strain-rate sensitivity modeling is not restricted to a particular hardening law and thus provides a general framework in which advanced hardening equations can be adopted. The model was eventually used as the basis for a homogenization approach at the phase scale; preliminary investigations showed the benefit of such an approach, where microstructure-relevant data can explicitly enter the model and may be used for material design simulations.
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Sánchez Puccini, Paolo, and Juan Carlos Briceño Triana. "Visco-elasto-plastic modeling of small intestinal submucosa (SIS) for application as a vascular graft." Journal of the Mechanical Behavior of Biomedical Materials 88 (December 2018): 386–94. http://dx.doi.org/10.1016/j.jmbbm.2018.08.044.

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Popov, A. A., and S. V. Sobolev. "SLIM3D: A tool for three-dimensional thermomechanical modeling of lithospheric deformation with elasto-visco-plastic rheology." Physics of the Earth and Planetary Interiors 171, no. 1-4 (2008): 55–75. http://dx.doi.org/10.1016/j.pepi.2008.03.007.

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Reisinger, Andreas G., Martin Frank, Philipp J. Thurner, and Dieter H. Pahr. "A two-layer elasto-visco-plastic rheological model for the material parameter identification of bone tissue." Biomechanics and Modeling in Mechanobiology 19, no. 6 (2020): 2149–62. http://dx.doi.org/10.1007/s10237-020-01329-0.

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Abstract The ability to measure bone tissue material properties plays a major role in diagnosis of diseases and material modeling. Bone’s response to loading is complex and shows a viscous contribution to stiffness, yield and failure. It is also ductile and damaging and exhibits plastic hardening until failure. When performing mechanical tests on bone tissue, these constitutive effects are difficult to quantify, as only their combination is visible in resulting stress–strain data. In this study, a methodology for the identification of stiffness, damping, yield stress and hardening coefficients of bone from a single cyclic tensile test is proposed. The method is based on a two-layer elasto-visco-plastic rheological model that is capable of reproducing the specimens’ pre- and postyield response. The model’s structure enables for capturing the viscously induced increase in stiffness, yield, and ultimate stress and for a direct computation of the loss tangent. Material parameters are obtained in an inverse approach by optimizing the model response to fit the experimental data. The proposed approach is demonstrated by identifying material properties of individual bone trabeculae that were tested under wet conditions. The mechanical tests were conducted according to an already published methodology for tensile experiments on single trabeculae. As a result, long-term and instantaneous Young’s moduli were obtained, which were on average 3.64 GPa and 5.61 GPa, respectively. The found yield stress of 16.89 MPa was lower than previous studies suggest, while the loss tangent of 0.04 is in good agreement. In general, the two-layer model was able to reproduce the cyclic mechanical test data of single trabeculae with an root-mean-square error of 2.91 ± 1.77 MPa. The results show that inverse rheological modeling can be of great advantage when multiple constitutive contributions shall be quantified based on a single mechanical measurement.
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Li, Jian, Qian-hua Kan, Ze-bin Zhang, Guo-zheng Kang, and Wenyi Yan. "Thermo-Mechanically Coupled Thermo-Elasto-Visco-Plastic Modeling of Thermo-Induced Shape Memory Polyurethane at Finite Deformation." Acta Mechanica Solida Sinica 31, no. 2 (2018): 141–60. http://dx.doi.org/10.1007/s10338-018-0022-x.

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Giannokostas, Konstantinos, Pantelis Moschopoulos, Stylianos Varchanis, Yannis Dimakopoulos, and John Tsamopoulos. "Advanced Constitutive Modeling of the Thixotropic Elasto-Visco-Plastic Behavior of Blood: Description of the Model and Rheological Predictions." Materials 13, no. 18 (2020): 4184. http://dx.doi.org/10.3390/ma13184184.

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This work focuses on the advanced modeling of the thixotropic nature of blood, coupled with an elasto-visco-plastic formulation by invoking a consistent and validated model for TEVP materials. The proposed model has been verified for the adequate description of the rheological behavior of suspensions, introducing a scalar variable that describes dynamically the level of internal microstructure of rouleaux at any instance, capturing accurately the aggregation and disaggregation mechanisms of the RBCs. Also, a non-linear fitting is adopted for the definition of the model’s parameters on limited available experimental data of steady and transient rheometric flows of blood samples. We present the predictability of the new model in various steady and transient rheometric flows, including startup shear, rectangular shear steps, shear cessation, triangular shear steps and LAOS tests. Our model provides predictions for the elasto-thixotropic mechanism in startup shear flows, demonstrating a non-monotonic relationship of the thixotropic index on the shear-rate. The intermittent shear step test reveals the dynamics of the structural reconstruction, which in turn is associated with the aggregation process. Moreover, our model offers robust predictions for less examined tests such as uniaxial elongation, in which normal stress was found to have considerable contribution. Apart from the integrated modeling of blood rheological complexity, our implementation is adequate for multi-dimensional simulations due to its tensorial formalism accomplished with a single time scale for the thixotropic effects, resulting in a low computational cost compared to other TEVP models.
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SUGAWARA, Kazumasa, Kento SUZUKI, Kazuma OGAWA, Ryoma TANAKA, and Masayuki NAGANO. "MECHANICAL BEHAVIOR AND SIMPLIFIED MODELING METHOD OF TIMBER FRAME STRUCTURES WITH VISCO-ELASTIC DAMPER AND ELASTO-PLASTIC MEMBER." AIJ Journal of Technology and Design 26, no. 63 (2020): 531–36. http://dx.doi.org/10.3130/aijt.26.531.

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Dissertations / Theses on the topic "Visco-elasto-plastic modeling"

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Liang, Fenglin. "Caractérisation et modélisation du comportement rhéologique des boues résiduaires urbaines concentrées." Thesis, Ecole nationale des Mines d'Albi-Carmaux, 2016. http://www.theses.fr/2016EMAC0014/document.

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Les grandes quantités d’eaux usées générées par l’activité humaine doivent être traitées pour minimiser le risque sanitaire et l’impact sur les milieux récepteurs. Les boues résiduaires sont le principal coproduit de ce traitement. Afin de les valoriser, des transformations sont mises en œuvre dans les stations d’épuration pour réduire leur volume et améliorer leur qualité sanitaire. Des problèmes d’écoulement et de mottage sont fréquemment rencontrés par les opérateurs. La caractérisation du comportement rhéologique de ce mélange hétérogène d’eau, microorganismes, fibres, particules colloïdales et non colloïdales, polymères organiques, etc., représente encore de nos jours un challenge scientifique et technique, en particulier lorsque la concentration massique en solides excède 20%. Dans ce travail, une méthodologie complète, associant mesures et modélisation, a été développée afin de caractériser les propriétés rhéologiques, l’adhérence et la cohésion des boues résiduaires. Elle s’adresse à des boues dont le comportement, évalué par un test d’affaissement, s’apparente à celui d’un solide mou et elle peut être mise en œuvre tant que le matériau n’a pas dépassé la limite de plasticité mesurée selon la norme ASTM D 4318, relative aux sols. Dans cette étude, elle a été appliquée à des boues centrifugées, dont la teneur massique en solides était proche de 20%. La méthode expérimentale inclut des essais mécaniques en compression uniaxiale (à très grande déformation, à petite déformation avec un ou plusieurs cycles de charge/décharge) sur un texturomètre de Lloyd Instruments et des essais en cisaillement réalisés sur un dispositif spécialement conçu au laboratoire pour quantifier les propriétés adhésive et cohésive des boues. Ces essais permettent d’identifier le seuil de fracturation du matériau, les ordres de grandeur du module élastique, de la viscosité et du seuil de plasticité, la résilience, les contraintes maximales d’adhésion et de cohésion et, enfin, les énergies d’adhésion. Un modèle mécanique analogique a ensuite été établi. Le comportement viscoélastique et visco-élasto-plastique des boues sous une sollicitation uniaxiale de charge-décharge a pu être simulé par un modèle conceptuel, dit ‘Burgers-Ludwik’, à 7 paramètres rhéologiques. Ce modèle est basé sur les lois mécaniques fondamentales de Hooke, de Newton et sur l'équation de Ludwik pour décrire le comportement plastique d'écrouissage. L’optimisation des paramètres du modèle avec Matlab® a été réalisée avec une méthode de régression multiple non linéaire à plusieurs étapes, ainsi que les calculs des bassins d'attraction et des intervalles de confiance. La sensibilité de la méthodologie à mettre en évidence des changements de propriétés induits par des procédés ou par un stockage a ensuite été évaluée. Il s'est ainsi avéré qu"un malaxage rend le matériau plus adhésif et plus facile à déformer, avec une diminution du seuil et de la rigidité du matériau, et qu’un stockage rend les boues moins cohésives et aussi plus faciles à déformer<br>Human daily activities generate a large quantity of wastewater that should be treated in order to minimise the sanitary risk and impacts on the environment. Sewage sludge is the main co-product of the wastewater treatment. Specific processes are implemented to reduce its volume and improve its sanitary quality before valorisation. As dewatered sludge is a mixture of water, microorganisms, fibres, colloidal and non-colloidal particles, organic polymers, etc., with the increase of its solid content, difficulties in pumping, conveying or discharging handling are frequently encountered during these treatments. The rheological characterisation of this heterogeneous material still remains a scientific and technical challenge, especially when solid mass content exceeds 20%. In this work, an entire methodology linking experimental measurements and modelling has been developed to characterise the rheological properties and the stickiness of sewage sludge. This methodology is suitable for sludge behaving as a soft solid (evaluated by slumping test) and as long as the material stays below its plastic limit (by the ASTM D 4318 initially standardized for soils). In this dissertation, the methodology is applied to dewatered sludge of total solid content around 20% by weight. This method includes uniaxial compression tests (from very large deformation to small one with single or two cycles of loading-unloading) using a universal materials testing machine of Lloyd Instrument and shearing tests using a device designed and fabricated in our laboratory for quantifying the sticky properties of sludge. These tests can identify the bioyield of the material, the orders of magnitude of the elastic modulus, viscosity, yield stress and resilience, the maximum adhesive and cohesive stresses, and finally the energy of adhesion. An analogical mechanical model is then established. The viscoelastic and visco-elasto-plastic behaviours under uniaxial cyclic compression can thus be simulated with this conceptual model of 7 parameters, named “Burgers-Ludwik”. This model is based on the fundamental mechanical laws of Hooke, Newton and the equation of Ludwik for simulating plastic hardening of material. A multi-step program based on non-linear multiple regressions is coded to optimize the model parameters with Matlab®. The sensibility of this methodology is highlighted by testing the changes in rheological properties of sewage sludge induced by processing or storage. Mixing makes the sludge more adhesive while storage makes it less cohesive. Both make the sludge easier to deform
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Tung, Lee-Tzu, and 李紫彤. "Case Study on Time-Dependent Deformation of Rock Tunnel and Effect of Stress Threshold under Visco-Elasto-Plastic Modeling." Thesis, 2016. http://ndltd.ncl.edu.tw/handle/bwm9f6.

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碩士<br>國立臺北科技大學<br>資源工程研究所<br>104<br>In Taiwan, the part of rock tunnel continues deformation after excavation support. And even cause damage to the support after the support portion is deformed reinforcing convergence trend, but after some time the deformation happening again. Partially deformed no convergence trend. This behavior is quite different from the behavior of the mainstream rock wall rock tunnel engineering theory described. Not only caused difficulties in construction, which may affect the completion of the tunnel construction safety and service quality. Although both the time-dependent deformation models after deformation of rock tunnel excavation explain the phenomenon. But why is deformed when stopping and support reinforcing effect of key factors influencing why? This study will explore the issue. This study will be targeting tunnel projects. By:(1) Empirical formula tunnel deformation return the best convergence deformation curve;(2) The impact simulation analysis time-dependent deformation influencing to factors;(3) Consider the impact of creep threshold of stress by time-dependent deformation of the rock mass;(4) The displacement measuring results in field and numerical simulation results compare. Discussion on surrounding rock deformation characteristics. The results show that when the ratio of lithology interbedded sandstone and shale, and because of the strength of the two lithological permeability differences. After the flood water to weaken and fracture it could easily lead to cause deformation from sliding joints. Stress threshold simulation results that when the peripheral wall of the tunnel wall rock deformation are not in time-dependent deformation phenomenon. When shear stress threshold is smaller, the time-dependent deformation significantly expanded the scope. And the total shear strain and deformation time also increased significantly on time. When the volume stress threshold is large, time-dependent deformation range only in the invert. When the volume threshold stress is small, there is no outward expansion of the scope of time-dependent deformation. The total shear strain and time-dependent deformation tends to increase with the threshold lowered.
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Qin, Xiaoliang Michaleris Panagiotis. "Thermo-elasto-visco-plastic modelling of friction stir welding in an Eulerian reference frame." 2009. http://etda.libraries.psu.edu/theses/approved/WorldWideIndex/ETD-3560/index.html.

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Book chapters on the topic "Visco-elasto-plastic modeling"

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Zyryanov, D., and R. Korsnes. "Elasto-visco-plastic constitutive model of sea ice with strain rate dependent ice strength." In Numerical Modeling in Micromechanics via Particle Methods - 2004. CRC Press, 2004. http://dx.doi.org/10.1201/b17007-60.

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Minkley, W., W. Menzel, H. Konietzky, and L. te Kamp. "A visco-elasto-plastic softening model and its application for solving static and dynamic stability problems in potash mining." In FLAC and Numerical Modeling in Geomechanics. CRC Press, 2020. http://dx.doi.org/10.1201/9781003077527-5.

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Conference papers on the topic "Visco-elasto-plastic modeling"

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Jacquet, Nicolas, Nicolas Tardif, Thomas Elguedj, and Christophe Garnier. "Elasto-Visco-Plastic Buckling of Thick Anisotropic Shells: Numerical Buckling Predictions and Experiments." In ASME 2020 Pressure Vessels & Piping Conference. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/pvp2020-21491.

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Abstract This work is focused on elasto-visco-plastic (EVP) buckling of thick shell structures. In particular we are interested in predicting accurately the buckling risk of stainless steel components of nuclear fast sodium reactor working under high pressure and at high temperature (around 180 bar and 500 °C). We follow a modeling/experimental approach to solve this problem. The set-up of relevant experiments at such high temperature being complex, we work with a representative material that shows similar EVP and buckling behavior at room temperature. The representative material is an alloy mostly composed of tin, silver and copper, commonly named Sn 3.0 Ag 0.5 Cu. The elasto-visco-plastic constitutive model of the material was first characterized using tensile tests on notched specimen at room temperature under various strain rates, and the model parameters identified using finite element model updating (FEMU). In a second step we performed in plane compressive buckling tests of thick plates for various displacement rates. Surface 3D displacements were acquired using three cameras and digital image correlation. It is well known for thick plates that linearized tangent moduli derived from Levy-Mises flow theory does not give accurate elasto-plastic buckling prediction. Linearized tangent moduli derived from Hencky’s deformation theory gives more accurate buckling prediction for thick plates. This numerical phenomenon known as buckling paradox was well correlated to experiments in the literature. This paradox is applied here to thick plates, with EVP constitutive model, in order to predict buckling. Finally, finite element (FE) modeling of the buckling experiments was performed. Plates are modeled using SHB8PS solid shell elements. Solid shell elements allow direct displacement correlation with experiments and accurate through the thickness behavior with a 3D material model. The numerical modeling includes real plate geometry obtained using post machining measurements, experimental boundary conditions derived from the DIC (Digital Image Correlation) results and the previously identified constitutive material law. Buckling risk is tested at each loading step of the incremental algorithm using the tangent operator derived with the Hencky’s deformation theory. Numerical results show a very good correlation with the experimental results on load and displacement history as well as buckling critical load and buckling mode.
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Lestriez, P. "Thermo-elasto-visco-plastic constitutive equations fully coupled with ductile damage. Application to metal cutting by chip formation." In MATERIALS PROCESSING AND DESIGN: Modeling, Simulation and Applications - NUMIFORM 2004 - Proceedings of the 8th International Conference on Numerical Methods in Industrial Forming Processes. AIP, 2004. http://dx.doi.org/10.1063/1.1766719.

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Mir, H., Z. Benrabah, and F. Thibault. "The Use of Elasto-Visco-Plastic Material Model Coupled with Pressure-Volume Thermodynamic Relationship to Simulate the Stretch Blow Molding of Polyethylene Terephthalate." In MATERIALS PROCESSING AND DESIGN; Modeling, Simulation and Applications; NUMIFORM '07; Proceedings of the 9th International Conference on Numerical Methods in Industrial Forming Processes. AIP, 2007. http://dx.doi.org/10.1063/1.2740833.

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Faisal, Hasan M., Zafrul Hakim Khan, and Rafiqul Tarefder. "Modeling Nanoscale Rheological and Mechanical Properties of Thin Film Asphalt Binder." In ASME 2016 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2016. http://dx.doi.org/10.1115/imece2016-65531.

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Traditionally, mechanical properties of asphalt concrete (AC) is evaluated through macro-scale testing. However, when aggregates are mixed with asphalt binder, it creates a thin film of 20μm to 40μm around the aggregate particles and the primary strength of AC is derived from the interaction between the binder and aggregates. Therefore, to understand the behavior of asphalt concrete it is necessary to study the binder properties in a nanoscale. Nanoindentation test has been adopted to examine the thin film material property. In a nanoindentation test, a loaded nanoindenter is used to indent the sample surface and measure the indenter displacement as a function of load. To this day, most researchers have used the Oliver-Pharr method to analyze the indentation test data and obtain Elastic modulus (E) and hardness (H) of the material. Generally, in a nanoindentation test, there is a loading and unloading phase. In an elasto-plastic material, loading phase has elastic and plastic response and unloading phase has only elastic response. In Oliver-Pharr method, elastic modulus is obtained through the slope of the unloading curve. Therefore, Oliver-Pharr method mostly applicable for the elasto-plastic metals because it does not incorporate any viscous effect. However, in case of visco-elastic material like asphalt, during the unloading phase, the slope of the unloading curve becomes negative due to the viscous flow. Therefore, using Oliver-Pharr (OP) method in this circumstances will yield an inaccurate value of modulus of elasticity. In the current study, the test data was modeled and analyzed using a well-established spring-dashpot-rigid (SDR) model for viscoelastic material to determine the elastic, plastic and viscous properties. The model assumes the indenter displacement is a function of a quadratic spring, a quadratic dashpot and a plastic rigid body. The loading phase of the nanoindentation test has three contributing parameters: elasticity (E), indentation viscosity (η) and hardness (H). During creep, only contributing parameter is indentation viscosity (η) and while unloading the contributing factors are found to be E and η. Nonlinear least square curve fitting technique was employed to model the nanoindentation test data to the SDR model to find out the contributing parameters E, η and H. In addition, the extended dwell time on the asphalt binder samples produced positive load displacement curves, which were further analyzed with Oliver-Pharr method. Comparison between two models results show traditional Oliver-Pharr model predicts the material properties 5 to 10 times lower than SDR model, as Oliver-Pharr does not consider the viscous behavior in the material.
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Franc¸ois, Michel, and Peter Davies. "Characterization of Polyester Mooring Lines." In ASME 2008 27th International Conference on Offshore Mechanics and Arctic Engineering. ASMEDC, 2008. http://dx.doi.org/10.1115/omae2008-57136.

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Fibre ropes are extensively used in marine applications. One critical area of interest is their application as mooring lines for floating offshore platforms, for which primarily polyester is now employed in various regions (offshore Brazil - now for 10 years, West Africa, Gulf of Mexico). Evaluating the response of the system requires a description of the load-elongation properties of the rope. A practical model involving two sets of stiffness data is currently used, and procedures for their measurement are available. This paper presents an overview of this model, then focuses on recent work on the quasi-static stiffness of polyester ropes. This is addressing the variations of the mean tension in the lines, at a very slow rate, under changing weather conditions. Extensive tests were performed, principally on polyester sub-rope samples. Some tests were also performed on a full size 800-ton MBS rope. Besides standard tests, specific tests were performed over an extended range of loading, to cover the situations that may be found in a wide range of systems and design conditions. The factors (measurement accuracy, test conditions, etc...) affecting the values are discussed along with the presentation of tests and results. Results are interpreted to provide practical data for mooring analysis, in the form of a quasi-static load-elongation characteristic. These results also give a better insight into the visco-elasto-plastic response of polyester fibre ropes. For the dynamic stiffness of polyester ropes, an overview of recent and earlier test data is presented. The dependence of dynamic stiffness on testing parameters is discussed, highlighting mean load as the principal parameter under real stochastic loading, and confirming the current practice for modelling dynamic stiffness in design.
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