SU1622517A1 - Embankment foundation - Google Patents

Abstract

The invention is intended for the construction of bulk structures on weak soils. The goal is to increase the carrying capacity due to the use of the arch effect together with the effect of soil interaction with supporting elements. The structure located at the base of the bulk structure is made in the form of cells in plan with the distance between the opposite walls each cell, determined depending on the properties of the weaker structure; the structure perceives a part of the load from the weight of the embankment and transport and transfers it directly to venno on the solid soil 1 z n f ly 1-yl

Description

The invention relates to the construction of bulk structures (earth roadway, etc.) on weak and permafrost soils with a seasonally thawing layer of high humidity

The purpose of the invention is to increase the carrying capacity and stability due to the use of the arch effect together with the effect of the interaction of the soil with the supporting elements.

The drawing shows the base of the mound, the cut

The spatial structure 1 has, in terms of shape, a grid forming a set of, for example, diamond-shaped cells with a maximum width of a center located in a layer of weak ground of the base 2, which transfers the load from the embankment weight and the reduced payload 4 to the more durable underlying layer 3 embankment on the value of h

The height of the structure H is determined by the thickness of the layer of weak soil and the specified

Marked by the top of the structure. The width is determined by the designation of the structure and for road embankments there must be at least the width of the embankment on top

There are several ways to build walls made of hard material in weak ground. The essence of one of these methods lies in the following I la of the planned section of marking the lattice in frozen soil. The bar machines make cutting of the slots and filling the latter with precast reinforced concrete X-shaped elements and then joining them together with each other. In this case, a technological break is required for the curing of a soil-concrete structure.

The walls of the cells should rise above the surface of the weak soil by an amount h determined from the formula given (usually given constructively h 1 m).

WITH/

with

Cr

Layering of the embankment is carried out over the filling of cells with compaction of each layer. The most economical and acceptable method is using high pressure hydrostorms, where the following site leveling operations are performed, the layout of X-shaped erosion elements of a high-pressure jet is followed by formation a soil-concrete structure, a technological break for durability, a soil-concrete structure, filling cells with a non-contact soil, layer-by-layer dumping of the embankment with a concrete by each layer

Claims (1)

Claim 1 Base of the embankment includes supporting elements placed in weak soil, characterized in that in order to increase the carrying capacity and stability due to the use of the arched effect together with the effect of soil interaction with the supporting elements, the latter are inserted in the upper part of the rash and made in the form of spatial cellular in terms of design with unzip i between the opposite walls of each cell, determined from the following expression - Atg pr, 2 (fV + ch - D) R t where Rk is the carrying capacity of weak soil and MPa f - 0 6 0 85 - safety factor adhesion strength of the soil of the embankment MPa Р - pressure on the base from constant and reduced temporary load, MPa I - 0 4 0 75 - lateral pressure ratio p - the angle of the internal friction of the soil on the layer n - coefficient taken depending on the height of the embankment 1-Atgy, 4  P p the density of the soil mound t / m h - the height of the wall of the cell m 2 The base according to claim 1 is different, so that the cell is made as a diamond BUT Drive drive