SU1606613A1 - Method of errecting cast-in-place pile - Google Patents

Abstract

The invention relates to the construction and can be used in the construction of the foundations of buildings and structures from ramming piles manufactured in wells formed by ramming. The purpose of the invention is to increase the carrying capacity. The method of erection of a ramming pile involves the formation of a well by an inventory drummer of an upwardly expanding mold and the formation of a pile shaft, for which the well is first filled with semi-aquatic phosphogypsum and compacted with its shock pulses of 7-10 MPa. After reaching the design failure of the impactor (2-3 cm), local sandy soil is poured into the resulting well and compacted with shock pulses of 15–20 MPa, after which the remaining part of the well is filled with concrete. 1 il.

Description

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The invention relates to the construction and can be used in the construction of the foundations of buildings and structures from ramming piles manufactured in wells formed by ramming.

The aim of the invention is to increase the carrying capacity.

The drawing shows a printed pile manufactured by the described method longitudinal section.

The method of erection of a ramming pile includes the formation of a well 1 by the inventory drummer 2 of the upward-expanding mold and the formation of the pile stem, for which the well 1 is first filled with semi-aquatic phosphogypsum and compacted with its shock pulses, and a value of 7-10 MPa cm) local sandy soil is poured into the obtained well 1 and compacted with shock pulses of 15–20 MPa, after which the remaining part of well 1 is filled with concrete.

Thus, the formed pile consists of a compacted phosphogypsum shell 3. a layer of compacted sand 4 and a concrete core 5 through which the load from the building structure is transmitted (not shown).

By volume, the phosphogypsum shell occupies 60-80% of the volume of a pre-rammed well.

Semi-aquatic phosphogypsum as the starting material has a high humidity (up to v38 L). When laying in the body of a structure, increased pressures are required with simultaneous removal of excess moisture, therefore, when exposed to a material, shock

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The required compaction is achieved with simultaneous squeezing of moisture both into the soil 6 surrounding the well and into the sand layer, which is poured into the well. The phosphogypsum laid in the well in terms of strength and other parameters fully meets the requirements imposed on the foundation material.

The magnitude of the shock impulse during tamping depends on the mass of the impactor, the area of contact with the material being processed and the drop height.

With a constant mass, the change in the magnitude of the shock pulse is governed by its dropping height.

Semi-aquatic phosphogypsum 3 can be mixed with sandy soil 4 in a ratio of 1: 1-1: 0.5.

The resulting mixture is loaded into a pre-rammed well 1 and processed with pulses of 15-20 MPa. After reaching the design failure of the striker (2-3 cm), the tamping is stopped and the well 1 is filled with concrete. In this case, when mixed with

sand reduces the moisture content of the mixture, and excessive moisture during tamping is pressed into the soil surrounding the well.

Below are the strength characteristics of the material at the age of 1 day, obtained with different compositions based on semi-aquatic phosphogypsum.

Claims (1)

Formula and inventions A method for constructing a ramming pile, including the formation of wells by an inventory hammer of an upward-expanding form and the formation of a wellbore by placing material into a well, sealing it with a subsequent filling and additional compaction, in order to increase the bearing capacity, when wellbore is formed first filled with semi-aquatic phosphogypsum and compacted with shock pulses of 7-10 MPa, then local sandy soil is poured in and compacted with shock pulses of 15-20 MPa after which the remaining part of the well is filled with concrete.