Multi-scale elastoplastic mechanical model and microstructure damage analysis of solid expandable tubular*

Guo, Hao; Liu, Yinghua; Su, Yinao; Zhang, Quanli; Zhan, Guo‐Dong

doi:10.1088/1674-1056/abab6e

Cited by 3 publications

(1 citation statement)

References 26 publications

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“…To improve the quality and service life of materials, experts at home and abroad have conducted a lot of research and analysis on the crack-forming [5][6][7][8][9] and fracture failure [10] phenomenon of materials. The microstructure and fracture morphology of fatigue crack initiation and propagation of the alloy was observed using optical, scanning electron, and transmission electron microscopes.…”

Section: Introductionmentioning

confidence: 99%

Phase-field-crystal simulation of nano-single crystal microcrack propagation under different orientation angles

et al. 2023

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The propagation mechanism of microcracks in nanocrystalline single crystal systems under uniaxial dynamic and static tension is investigated using the phase-field-crystal method. Both dynamic and static stretching results show that different orientation angles can induce the crack propagation mode, microscopic morphology, the free energy, and crack area change, causing fracture failure. Crack propagation mode depends on the dislocation activity near the crack tip. Brittle propagation of the crack occurs due to dislocation always at crack tip. Dislocation is emitted at the front end of the crack tip and plastic deformation occurs, which belongs to ductile propagation. The orientation angles of 9° and 14° are brittle-ductile mixed propagation,<br/> while the orientation angles of 19° and 30° are brittle propagation and no dislocation is formed under dynamic tension. The vacancy and vacancy connectivity phenomenon would appear when the orientation angle is 14° under static tension, and the crack would be ductile propagation. While the orientation angle is 19° and 30°, The crack propagates in a certain direction, which is a kind of brittle propagation. This work has some practical significance in preventing material fracture failure and improving material performance.

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Section: Introductionmentioning

confidence: 99%

Phase-field-crystal simulation of nano-single crystal microcrack propagation under different orientation angles

et al. 2023

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New Control Method of Casing Deformation in Shale Gas Slip Fault Based on Solid Expandable Tubular

et al. 2023

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Failure Analysis and Ultimate Expansion Mechanical Behavior Analysis of Thin-Walled Solid Expandable Tubular

Zhu,

Cheng,

Shi

2024

SPE Journal

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Summary With the vigorous exploitation of shale gas, the cost of drilling and production of shale gas wells, which can reduce the cost, has also received attention. Equal-diameter solid expandable tubular (SET) technology is one of the best choices at present. For this paper, we carried out a series of expansion experiments for 20G pipe, and the experimental results show that the pipe breaks and fails at 30% expansion ratio. The cracked pipe is analyzed by scanning electron microscopy (SEM), and the method to solve the failure of cracked pipe is proposed. In addition, a 3D dynamic model is established to study the relationship between the inner diameter, wall thickness, expansion ratio, and ultimate expansion ratio of the pipeline. The study results show that (1) SET made of 20G expanded successfully at 25% expansion ratio and failed at 30% expansion ratio, the fracture surface presents 45°, with typical shear failure characteristics; (2) SEM results showed that the pit characteristics were normal, the pipe was cracked under high stress, and the 20G pipe could not meet the expansion ratio of 30%; and (3) the maximum stress of 20G pipe during expansion is proportional to the expansion ratio. It is recommended that the SET expansion rate of 20G material should not exceed 26%. The research results will provide ideas and methods for the design of SET.

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Multi-scale elastoplastic mechanical model and microstructure damage analysis of solid expandable tubular*

Cited by 3 publications

References 26 publications

Phase-field-crystal simulation of nano-single crystal microcrack propagation under different orientation angles

Phase-field-crystal simulation of nano-single crystal microcrack propagation under different orientation angles

New Control Method of Casing Deformation in Shale Gas Slip Fault Based on Solid Expandable Tubular

Failure Analysis and Ultimate Expansion Mechanical Behavior Analysis of Thin-Walled Solid Expandable Tubular

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