Self-braking of Planar Linkage Mechanisms

Evgrafov, Alexander N.; Petrov, Gennady N.

doi:10.1007/978-3-319-72929-9_10

Cited by 9 publications

(1 citation statement)

References 5 publications

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“…In this case, samples of cable 50 mm long that were compressed between two plates were examined. The lower plate was installed directly on the table of the compression test bench, and the upper one was placed under the loading element of a 3-ton screw manual press [15][16][17]. Loading was created by rotating the flywheel of the press.…”

Section: Cable Test Stand For Radial Strengthmentioning

confidence: 99%

Research of the Radial Strength of a Composite Matrix of a Cable-Pusher for Oil Wells

Ашейчик

Bahrami

2022

DDF

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As a result of experimental studies, data on the maximum radial loads for a cable with a carbon matrix and the effect of copper conductors on the crack formation process under radial loading of a pusher cable were obtained at the temperature of 20 °C. A finite-element model of a pusher cable is developed, which takes into account the presence of a matrix, copper conductors, and their insulation, which allows us to construct stress and strain fields. The created finite element model allows you to predict maximum loads for composite pusher cables. The design of a stand for testing samples of cables with carbon matrices for radial compressive strength is described. Experimental data on the study of the strength properties of two types of cables at a temperature of 20 °C are presented.

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Section: Cable Test Stand For Radial Strengthmentioning

confidence: 99%