Theory of Weightless Sagging Elasto-Flexible Cables

Benipal, Gurmail S.; Ganguli, Abhijit; Kumar, Pankaj

doi:10.1590/1679-78252110

Cited by 6 publications

(11 citation statements)

References 25 publications

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“…The proposed theory involves rate-type constitutive equations and third order equations of motion. Pure and mixed configurational and elastic modes of vibration are predicted (Kumar et al, 2016a). These configurational and elastic vibration modes are shown to be predominantly associated with horizontal and vertical seismic excitations respectively (Kumar et al, 2015).…”

Section: Latin American Journal Of Solids and Structures 14 (2017) 54mentioning

confidence: 88%

“…Based upon authors' theory of weightless sagging planar cables, a new Beam with Elasto-Flexible Support (BEFS) model is proposed for simulating the cable-deck interaction. Its main point of departure is the distinction between the elastic and configurational components of the suspension cable response (Kumar et al, 2016a). As discussed in Authors' earlier paper, the weightless elastic cables lack unique passive state but their equilibrium state under specified loads is unique.…”

Section: Discussionmentioning

confidence: 99%

“…Also, this natural state is identical with the equilibrium state of the corresponding inextensible cable. The nodal elastic displacements are measured relative to this natural state (Kumar et al, 2016a). In contrast to single sagging cables, the cable-suspended structures possess a unique natural passive state.…”

Section: Discussionmentioning

confidence: 99%

“…This description is based upon Authors' theory of weightless sagging planar cables (Kumar et al, 2016a). In its passive state, the cable configuration is defined by the coordinates of cable nodes Q , and R , assuming cable as inextensible.…”

Section: Beam With Elasto-flexible Support (Befs) Modelmentioning

confidence: 99%

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Mechanics of Cable-Suspended Beams

Kumar

Ganguli

Benipal

2017

Lat. Am. j. solids struct.

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The cable-suspended bridges differ from the elastic structures because of the inherent nonlinearity of the suspension cables. The primary focus of the available theories is to investigate the effect of nonlinearities associated with the distributed self-weight of the cable and its finite elastic displacements. The main point of departure of this paper is to study the effect of the configurational nonlinearity of the weightless linear elastic suspension cables undergoing small elastic displacements. Based upon authors' theory of weightless elasto-flexible planar sagging cables, a new Beam with Elasto-Flexible Support (BEFS) model of the cable-deck interaction is proposed here. Rate-type constitutive equations and third order differential equations of motion are derived for a simple four-node cable-suspended beam structure undergoing small elastic vertical displacements. Static and dynamic analysis of the cable-suspended structures is carried out to reveal their characteristic configurational response. The proposed theory is critically evaluated in the context of existing theories of suspension bridges.

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Section: Latin American Journal Of Solids and Structures 14 (2017) 54mentioning

confidence: 88%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Beam With Elasto-flexible Support (Befs) Modelmentioning

confidence: 99%

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Mechanics of Cable-Suspended Beams

Kumar

Ganguli

Benipal

2017

Lat. Am. j. solids struct.

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“…The dynamic response of such structures to harmonic nodal force is determined for different sustained nodal forces, axial elastic stiffness and sag/span ratios. Sub harmonic resonances, jump and beat phenomenon are predicted for elastic and inextensible cables [8]. In another approach the incremental equation of motion involving tangent stiffness matrix employed is equivalent to the third order equation of motion proposed [5].…”

Section: Introductionmentioning

confidence: 99%

Seismic Analysis of Sagging Elasto-flexible Cable using Placement Model

et al. 2022

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Weightless sagging elasto-flexible cables lack unique natural state. However, heavy cables are assumed their natural state under their self-weight for predicting their static and dynamic response. In most of the existing literatures the nodal coordinates or placements are generally defined in reference to the chosen Cartesian coordinate system for the discrete formulation called here Placement Model. In this paper, Placement Model is applied to predict the seismic response of weightless sagging cables. The cable is fixed at their both the ends and two masses are attached in its intermediate points leading to a 2-node 4-DOF system. The dynamic response of the cable node is investigated by applying two different seismic excitations in three different conditions as only horizontal excitation, only vertical excitation and both horizontal and vertical excitation act simultaneously. El-Centro and Loma Preta Seismic excitation is applied to predict the seismic response of the cables.

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