Buckling responses of the polyhedral composite lining fitted in the cracked subsea pipeline under combined loading fields. (English) Zbl 07892952
Keywords:
novel polyhedral configuration; combined loading fields; FGP-GPL cross-section; buckling; liningReferences:
| [1] | Nieto, A.; Bisht, A.; Lahiri, D.; Zhang, C.; Agarwal, A., Graphene reinforced metal and ceramic matrix composites: a review, Int Mater Rev, 62, 5, 241-302, 2017 |
| [2] | Antenucci, A.; Guarino, S.; Tagliaferri, V.; Ucciardello, N., Electro-deposition of graphene on aluminium open cell metal foams, Mater Des, 71, 78-84, 2015 |
| [3] | Bartolucci, S. F.; Paras, J.; Rafiee, M. A.; Rafiee, J.; Lee, S.; Kapoor, D., Graphene-aluminum nanocomposites, Mater Sci Eng: A, 528, 27, 7933-7937, 2011 |
| [4] | Rashad, M.; Pan, F.; Tang, A.; Asif, M., Effect of Graphene Nanoplatelets addition on mechanical properties of pure aluminum using a semi-powder method, Prog Nat Sci, 24, 2, 101-108, 2014 |
| [5] | Shen, H.-S.; Xiang, Y., Postbuckling of functionally graded graphene-reinforced composite laminated cylindrical shells subjected to external pressure in thermal environments, Thin-Walled Struct, 124, 151-160, 2018 |
| [6] | Gao, K.; Gao, W.; Chen, D.; Yang, J., Nonlinear free vibration of functionally graded graphene platelets reinforced porous nanocomposite plates resting on elastic foundation, Compos Struct, 204, 831-846, 2018 |
| [7] | Li, K.; Wu, D.; Chen, X.; Cheng, J.; Liu, Z.; Gao, W., Isogeometric Analysis of functionally graded porous plates reinforced by graphene platelets, Compos Struct, 204, 114-130, 2018 |
| [8] | Li, Q.; Wu, D.; Chen, X.; Liu, L.; Yu, Y.; Gao, W., Nonlinear vibration and dynamic buckling analyses of sandwich functionally graded porous plate with graphene platelet reinforcement resting on Winkler-Pasternak elastic foundation, Int J Mech Sci, 148, 596-610, 2018 |
| [9] | Song, M.; Kitipornchai, S.; Yang, J., Free and forced vibrations of functionally graded polymer composite plates reinforced with graphene nanoplatelets, Compos Struct, 159, 579-588, 2017 |
| [10] | Song, M.; Yang, J.; Kitipornchai, S., Bending and buckling analyses of functionally graded polymer composite plates reinforced with graphene nanoplatelets, Compos Part B-Eng, 134, 106-113, 2018 |
| [11] | Wang, Y.; Zhou, Y.; Feng, C.; Yang, J.; Zhou, D.; Wang, S., Numerical analysis on stability of functionally graded graphene platelets (GPLs) reinforced dielectric composite plate, Appl Math Mech, 101, 239-258, 2022 · Zbl 1481.74502 |
| [12] | Wu, H.; Yang, J.; Kitipornchai, S., Parametric instability of thermo-mechanically loaded functionally graded graphene reinforced nanocomposite plates, Int J Mech Sci, 135, 431-440, 2018 |
| [13] | Gholami, R.; Ansari, R., Nonlinear harmonically excited vibration of third-order shear deformable functionally graded graphene platelet-reinforced composite rectangular plates, Eng Struct, 156, 197-209, 2018 |
| [14] | Xu, M.; Li, X.; Luo, Y.; Wang, G.; Guo, Y.; Liu, T., Thermal buckling of graphene platelets toughening sandwich functionally graded porous plate with temperature-dependent properties, Int J Appl Mech, 12, 08, Article 2050089 pp., 2020 |
| [15] | Thanh, C.-L.; Tran, L. V.; Bui, T. Q.; Nguyen, H. X.; Abdel-Wahab, M., Isogeometric analysis for size-dependent nonlinear thermal stability of porous FG microplates, Compos Struct, 221, Article 110838 pp., 2019 |
| [16] | Yang, Z.; Tam, M.; Zhang, Y.; Kitipornchai, S.; Lv, J.; Yang, J., Nonlinear dynamic response of FG graphene platelets reinforced composite beam with edge cracks in thermal environment, Int J Struct Stab Dyn, 20, 14, Article 2043005 pp., 2020 · Zbl 1535.74471 |
| [17] | Chen, D.; Yang, J.; Kitipornchai, S., Elastic buckling and static bending of shear deformable functionally graded porous beam, Compos Struct, 133, 54-61, 2015 |
| [18] | Tam, M.; Yang, Z.; Zhao, S.; Yang, J., Vibration and buckling characteristics of functionally graded graphene nanoplatelets reinforced composite beams with open edge cracks, Mater (Basel, Switz), 12, 9, 2019 |
| [19] | Song, M.; Gong, Y.; Yang, J.; Zhu, W.; Kitipornchai, S., Nonlinear free vibration of cracked functionally graded graphene platelet-reinforced nanocomposite beams in thermal environments, J Sound Vib, 468, Article 115115 pp., 2020 |
| [20] | Song, M.; Chen, L.; Yang, J.; Zhu, W.; Kitipornchai, S., Thermal buckling and postbuckling of edge-cracked functionally graded multilayer graphene nanocomposite beams on an elastic foundation, Int J Mech Sci, 161-162, Article 105040 pp., 2019 |
| [21] | Shen, H.-S.; Xiang, Y.; Fan, Y., Nonlinear vibration of thermally postbuckled FG-GRC laminated beams resting on elastic foundations, Int J Struct Stab Dyn, 19, 06, Article 1950051 pp., 2019 · Zbl 1535.74284 |
| [22] | Sahmani, S.; Aghdam, M., Nonlocal strain gradient beam model for nonlinear vibration of prebuckled and postbuckled multilayer functionally graded GPLRC nanobeams, Compos Struct, 179, 2017 |
| [23] | Yang, J.; Wu, H.; Kitipornchai, S., Buckling and postbuckling of functionally graded multilayer graphene platelet-reinforced composite beams, Compos Struct, 161, 111-118, 2017 |
| [24] | Song, M. T.; Zhou, L.; Karunasena, W.; Yang, J.; Kitipornchai, S., Nonlinear dynamic instability of edge-cracked functionally graded graphene-reinforced composite beams, Nonlinear Dyn, 109, 2423-2441, 2022 |
| [25] | Wang, J.; Zhou, L.; Chen, L.; Song, M.; Yang, J.; Kitipornchai, S., Aeroelastic flutter of actively controlled nanocomposite beams with an open edge crack, Aerosp Sci Technol, 141, Article 108498 pp., 2023 |
| [26] | Li, Z., Exploration of the encased nanocomposites functionally graded porous arches: nonlinear analysis and stability behavior, Appl Math Model, 82, 1-16, 2020 · Zbl 1481.74453 |
| [27] | Li, Z.; Chen, Y.; Zheng, J.; Sun, Q., Thermal-elastic buckling of the arch-shaped structures with FGP aluminum reinforced by composite graphene platelets, Thin-Walled Struct, 157, Article 107142 pp., 2020 |
| [28] | Li, Z.; Zheng, J.; Chen, Y.; Sun, Q.; Zhang, Z., Effect of temperature variations on the stability mechanism of the confined functionally graded porous arch with nanocomposites reinforcement under mechanical loading, Compos Part B-Eng, 176, Article 107330 pp., 2019 |
| [29] | Li, Z.; Zheng, J.; Zhang, Z., Mechanics of the confined functionally graded porous arch reinforced by graphene platelets, Eng Struct, 201, Article 109817 pp., 2019 |
| [30] | Yang, Z.; Huang, Y.; Liu, A.; Fu, J.; Wu, D., Nonlinear in-plane buckling of fixed shallow functionally graded graphene reinforced composite arches subjected to mechanical and thermal loading, Appl Math Model, 70, 315-327, 2019 · Zbl 1465.74062 |
| [31] | Yang, Z.; Yang, J.; Liu, A.; Fu, J., Nonlinear in-plane instability of functionally graded multilayer graphene reinforced composite shallow arches, Compos Struct, 204, 301-312, 2018 |
| [32] | Zhao, S.; Yang, Z.; Kitipornchai, S.; Yang, J., Dynamic instability of functionally graded porous arches reinforced by graphene platelets, Thin-Walled Struct, 147, Article 106491 pp., 2020 |
| [33] | Mohd, F.; Talha, MJMTP., Effect of graphene platelets reinforcement on vibration behavior of functionally graded porous arches under thermal environment, 61, 103-109, 2022 |
| [34] | Yang, Z.; Wu, D.; Yang, J.; Lai, S.-K.; Lv, J.; Liu, A., Dynamic buckling of rotationally restrained FG porous arches reinforced with graphene nanoplatelets under a uniform step load, Thin-Walled Struct, 166, Article 108103 pp., 2021 |
| [35] | Li, Z.; Zheng, J., Structural failure performance of the encased functionally graded porous cylinder consolidated by graphene platelet under uniform radial loading, Thin-Walled Struct, 146, Article 106454 pp., 2020 |
| [36] | Li, Z.; Zheng, J., Nonlinear stability of the encased functionally graded porous cylinders reinforced by graphene nanofillers subjected to pressure loading under thermal effect, Compos Struct, 233, Article 111584 pp., 2020 |
| [37] | Li, Z.; Zheng, J.; Zhang, Z., Thermal nonlinear performance of the porous metal cylinders with composite graphene nanofiller reinforcement encased in elastic mediums, Int J Mech Sci, 181, Article 105698 pp., 2020 |
| [38] | Dong, Y. H.; Li, Y. H.; Chen, D.; Yang, J., Vibration characteristics of functionally graded graphene reinforced porous nanocomposite cylindrical shells with spinning motion, Compos Part B-Eng, 145, 1-13, 2018 |
| [39] | Abedini Baghbadorani, A.; Kiani, Y., Free vibration analysis of functionally graded cylindrical shells reinforced with graphene platelets, Compos Struct, 276, Article 114546 pp., 2021 |
| [40] | Wang, Y.; Feng, C.; Zhao, Z.; Yang, J., Eigenvalue buckling of functionally graded cylindrical shells reinforced with graphene platelets (GPL), Compos Struct, 202, 38-46, 2018 |
| [41] | Shen, H.-S.; Xiang, Y.; Fan, Y., Postbuckling of functionally graded graphene-reinforced composite laminated cylindrical panels under axial compression in thermal environments, Int J Mech Sci, 135, 398-409, 2018 |
| [42] | Drew, H. R.; Pellegrino, S., New approaches to structural mechanics, shells and biological structures, 2002, Springer: Springer Dordrecht, The Netherland · Zbl 1014.74002 |
| [43] | Miura, K., Proposition of pseudo-cylindrical concave polyhedral shells, ISAS Rep, 34, 9, 141-163, 1969 |
| [44] | Knapp, R.; Dumlao, C., Experimental investigations of prebuckled cylinders under external pressure, J Eng Ind, 101, 178, 1979 |
| [45] | Albermani, F.; Khalilpasha, H.; Karampour, H., Propagation buckling in deep sub-sea pipelines, Eng Struct, 33, 9, 2547-2553, 2011 |
| [46] | Li, Z.; Tang, Y.; Tang, F.; Chen, Y.; Chen, G., Elastic buckling of thin-walled polyhedral pipe liners encased in a circular pipe under uniform external pressure, Thin-Walled Struct, 123, 214-221, 2018 |
| [47] | Li, Z.; Xie, Y., Buckling mechanism of thin-walled arches with composite polyhedral shapes, Compos Struct, 271, Article 114134 pp., 2021 |
| [48] | Zhang, Z.; Luo, Y.; Zhang, H.; Kuai, H.; Chen, F.; Li, Z., Thermal stability and buckling analyses of novel encased composite cylinder with polyhedral shapes, Compos Struct, 289, Article 115460 pp., 2022 |
| [49] | Rueda, F.; Torres, J. P.; Machado, M.; Frontini, P. M.; Otegui, J. L., External pressure induced buckling collapse of high density polyethylene (HDPE) liners: FEM modeling and predictions, Thin-Walled Struct, 96, 56-63, 2015 |
| [50] | Ou, Z.; Xiao, X.; Liu, Y.; Bu, G.; Li, Z., Thermal and mechanical behaviors of the composite polyhedral arches, Compos Struct, 281, Article 115067 pp., 2022 |
| [51] | Bu, G.; Ou, Z.; Li, Z.; Liu, F.; Zheng, H.; Zou, X., Static and buckling characteristics of the porous ring reinforced by graphene nanofillers, Eng Struct, 251, Article 113536 pp., 2022 |
| [52] | Bottega, W., On the constrained elastic ring, J Eng Math, 22, 43-51, 1988 · Zbl 0632.73016 |
| [53] | Chen, D.; Yang, J.; Kitipornchai, S., Nonlinear vibration and postbuckling of functionally graded graphene reinforced porous nanocomposite beams, Compos Sci Technol, 142, 235-245, 2017 |
| [54] | Chen, D.; Yang, J.; Schneider, J.; Kitipornchai, S.; Zhang, L., Impact response of inclined self-weighted functionally graded porous beams reinforced by graphene platelets, Thin-Walled Struct, 179, Article 109501 pp., 2022 |
| [55] | Liu, Z.; Yang, C.; Gao, W.; Wu, D.; Li, G., Nonlinear behaviour and stability of functionally graded porous arches with graphene platelets reinforcements, Int J Eng Sci, 137, 37-56, 2019 · Zbl 1425.74232 |
| [56] | Li, Z.; Zheng, J., Analytical consideration and numerical verification of the confined functionally graded porous ring with graphene platelet reinforcement, Int J Mech Sci, 161-162, Article 105079 pp., 2019 |
| [57] | Kitipornchai, S.; Chen, D.; Yang, J., Free vibration and elastic buckling of functionally graded porous beams reinforced by graphene platelets, Mater Des, 116, 656-665, 2017 |
| [58] | Xiao, X.; Bu, G.; Ou, Z.; Li, Z., Nonlinear in-plane instability of the confined FGP arches with nanocomposites reinforcement under radially-directed uniform pressure, Eng Struct, 252, Article 113670 pp., 2022 |
| [59] | Zhou, Z.; Ni, Y.; Tong, Z.; Zhu, S.; Sun, J.; Xu, X., Accurate nonlinear buckling analysis of functionally graded porous graphene platelet reinforced composite cylindrical shells, Int J Mech Sci, 151, 537-550, 2019 |
| [60] | Wu, H.; Yang, J.; Kitipornchai, S., Dynamic instability of functionally graded multilayer graphene nanocomposite beams in thermal environment, Compos Struct, 162, 244-254, 2017 |
| [61] | Lyell, S., Nonlinear theories for thin shells, Quart Appl Math, 21, 35, 1961 |
| [62] | Nowinski, J. L.; Boley, B., Theory of thermoelasticity with applications, J Appl Mech, 47, 2, 459, 1980, -59 |
| [63] | Boot, J. C., Elastic buckling of cylindrical pipe linings with small imperfections subject to external pressure, Tunn Undergr Sp Tech, 12, 3-15, 1997 |
| [64] | Glock, D., Behavior of liners for rigid pipeline under external water pressure and thermal expansion, Der Stahlbau, 7, 212-217, 1977 |
| [65] | Boot, J. C.; Naqvi, M. M.; Gumbel, J. E., A new method for the structural design of flexible liners for gravity pipes of egg-shaped cross section: theoretical considerations and formulation of the problem, Thin-Walled Struct, 85, 411-418, 2014 |
| [66] | Wang, J. H.; Koizumi, A.; Yuan, D. J., Theoretical and numerical analyses of hydrostatic buckling of a noncircular composite liner with arched invert, Thin-Walled Struct, 102, 148-157, 2016 |
| [67] | Li, Z.; Zheng, J.; Meng, L.; Zou, X.; Hu, X., Nonlinear stability analysis of thin-walled steel pipe confined in soft bilayer medium, Eng Struct, 196, Article 109318 pp., 2019 |
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. In some cases that data have been complemented/enhanced by data from zbMATH Open. This attempts to reflect the references listed in the original paper as accurately as possible without claiming completeness or a perfect matching.
