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Experimental device and assembly method for studying failure mechanism of pile-rock interface

A technology of failure mechanism and experimental equipment, which is applied in the test of foundation structure, construction, foundation structure engineering, etc., can solve the problems of large bearing capacity, waste, and high test cost of rock-socketed piles, and achieve stable and reliable disassembly and debugging, and easy disassembly And the effect of easy debugging and installation

Active Publication Date: 2020-03-31
SOUTHEAST UNIV
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Problems solved by technology

Because rock-socketed piles have the characteristics of large bearing capacity, high test cost and difficulty in destructive tests, accurate, systematic and complete measured data are limited, which restricts people's comprehensive understanding of their bearing properties. The limitations of the shear characteristics of the rock pile-rock interface and the understanding of the micro-macro failure mechanism lead to unreasonable design of rock-socketed piles, and even some mistakes. Therefore, the design of rock-socketed piles is mostly conservative, causing many unnecessary waste

Method used

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  • Experimental device and assembly method for studying failure mechanism of pile-rock interface
  • Experimental device and assembly method for studying failure mechanism of pile-rock interface
  • Experimental device and assembly method for studying failure mechanism of pile-rock interface

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Embodiment Construction

[0048]The technical solution of the present invention will be further described below in conjunction with the accompanying drawings.

[0049] Such as Figure 19 and 20 As shown, the present invention is an experimental device for studying the failure mechanism of the pile-rock interface with a large-span two-way laminated slab, including an experimental box for placing experimental piles, a reaction frame above the experimental box, and a reaction frame and the experimental The jack 1 between the boxes, the upper surface of the jack 1 is fixed with the reaction force frame, and the lower surface is connected with the dowel bar 3 that can act on the experimental pile through the pressure sensor 2, and the dowel bar 3 is also connected with a displacement sensor 4.

[0050] Such as Figure 17 As shown, the experimental box includes a hollow cylindrical cavity structure 5 with an I-shaped cross section and a bottom sealing plate 6 located below the cavity structure 5, and the ...

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Abstract

The invention discloses an experiment device for researching a pile-rock interface failure mechanism. The experiment device comprises an experiment box used for placing an experiment pile, a reactionframe located above the experiment box and a jack located between the reaction frame and the experiment box, wherein the upper surface of the jack is fixed with the reaction frame; the lower surface of the jack is connected with a force transmitting rod capable of acting on the experiment pile through a pressure sensor; the force transmitting rod is also connected with a displacement sensor. The experiment device for researching the pile-rock interface failure mechanism is simple in structure and convenient to combine, disassemble and assemble, is capable of conveniently and accurately measuring downward displacement of the pile top, and is applied to CT-X-ray experiment platforms.

Description

technical field [0001] The invention relates to an experimental device for studying rock-socketed piles, in particular to an experimental device for studying the failure mechanism of the pile-rock interface and an assembly method thereof. Background technique [0002] In recent years, various construction projects in my country have developed rapidly. More and more sea-crossing bridges and super-large-scale construction projects need to use a large number of rock-socketed piles as the foundation of buildings (structures) to bear huge upper loads. . In actual engineering, since the displacement (0.5–1%D) required to fully mobilize the pile side frictional resistance is much smaller than the displacement (10–20%D) when the pile tip resistance reaches its maximum value, in general, the upper The load is mainly borne by the side resistance of the pile, and in many designs, only the contribution of the side resistance of the pile is considered for reliability. Therefore, rock-so...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E02D33/00
CPCE02D33/00E02D2600/10E02D2600/20
Inventor 徐江龚维明徐峰张琦戴国亮
Owner SOUTHEAST UNIV
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