RU187377U1 - TONEL PILES COMPOSITE - Google Patents

Abstract

The utility model relates to the field of construction, namely to sheet piling, used to strengthen the shores of natural and artificial waterways and ponds and to strengthen the soil during excavation and hydraulic works. A piled composite sheet pile made of a polymer material reinforced with basalt fiber with the addition of silicon dioxide nanoparticles Tarkosil obtained by the pultrusion method includes a middle part with a trapezoidal transverse profile, consisting of a base and two lateral sides, inclined to the outer sides relative to the base and with rounded locks along edges that securely fasten profiles to each other.

Description

The utility model relates to the field of construction, namely to sheet piling, used to strengthen the shores of natural and artificial waterways and ponds, and to strengthen the soil during excavation and hydraulic works, as well as retaining walls for various purposes in other construction industries.

As the closest analogues of the proposed technical solutions, a tongue-and-groove pile Ω - shaped profile, known from patent RU No. 151817, published on 04/20/2015, by Zhirikov Anatoly Grigoryevich, was chosen. A tongue-and-groove pile of a Ω-shaped profile made of pultruded polymer material reinforced with a filler, including a middle part with a trapezoidal transverse profile, consisting of a base and two lateral sides, inclined to the outer sides relative to the base, the first shelf, which is a continuation of the first lateral side the middle part, parallel to the base of the middle part and provided with a profiled edge of a T-shaped male form, the second shelf, which is a continuation of the second sides side of the middle part, parallel to the base of the middle part and provided with a profiled edge of a U-shaped covering shape, characterized in that at the junctions of the sides of the middle part with the base of the middle part and at the junctions of the sides of the middle part with both shelves are thickened, and the side the sides of the middle part are inclined 100-125 ° relative to the base and both shelves. As shown by the operating practice, the sheet pile, described in RU 151817, and used for the construction of protective walls (fences) does not fully solve the problem of ensuring the reliability and durability of structures and, accordingly, the design of the pile has the resources for further improvement.

Another analogue is known according to patent RU No. 115372, published on 04/27/2012, authors: Anatoly Zhirikov and Yuri Kumanov, in which the sheet piling is a continuous wall of sheet piles with Ω - shaped transverse profile made of a polymer material reinforced with filler fiberglass, interconnected by joining a profiled edge with a male shape and a profiled edge with a female shape and fastened by an external horizontal power belt, closed on top, at least it least one U-shaped profile made of a polymer material reinforced with glass fiber filler. The disadvantages of this analogue are low physical and mechanical properties, due to the fact that fiberglass is used as a reinforcing material.

The technical parameters of basalt fibers, in comparison with glass aluminosilicate composition, have a large elastic modulus, increased absolute strength after heat treatment, surpasses it in alkali and acid resistance, as well as in the temperature range of operation. Basalt fibers are close to glass fibers in terms of basic physicochemical parameters, and they significantly exceed them in terms of thermal and chemical resistance, durability, and environmental safety.

The introduction of a variety of reinforcing fillers is a traditional way of improving these properties, sufficient so that the filled polymers can be used as structural materials. It has been established that the addition of Tarkosil silicon dioxide nanoparticles increases the physicomechanical properties of the composite material. (Haiyan, Li, Zhisheng Zhang, Xiaofei Ma. Synthesis and characterization of epoxy resin modified with nano-SiO ₂ and γ-glycidoxypropyltrimethoxy silane. - ScienceDirect., 2007. - V. 201.)

A tongue-and-groove pile is proposed, made of pultruded polymer material reinforced with a basalt fiber filler with the addition of Tarkosil silicon dioxide nanoparticles, including a middle part with a trapezoidal transverse profile, consisting of a base and two lateral sides, inclined to the outside with respect to the base and rounded Larsen-type locks at the edges, providing a firm attachment of profiles to each other.

Separate sheet piles when driven by diesel hammers or vibration dampers are turned 180 ° relative to each other (if you look in profile) and connected by inserting one sheet pile into the side groove (lock) of the adjacent one. A continuous wall of sheet piles forms a sheet piling. The proposed Larsen type sheet pile may correspond to the shape and / or dimensions shown in FIG. 1. The provided locking mechanism allows for the connection-disconnection of piles without loss of time and effort.

The design of the pile includes a middle part with a trapezoidal transverse profile, consisting of a base 1 and two sides 2. At the ends of the sides there are locking joints 3, when connected, a joint 4 is formed.

A sheet pile of the Larsen type is proposed, made of a composite material obtained by pultrusion — heat treatment of the source material when it is pulled through a forming die. For the material obtained by the pultrusion method, in which uneven thermal linear expansion is eliminated, a constant transverse structure is characteristic, which will increase the strength properties of the piles. As the starting material, a polymer, for example, polyurethane, thermosetting matrix (base) and a reinforcing filler, which is primarily used basalt fiber, were used. It is also possible to use epoxy, vinyl, polyester resins as a base, and fiberglass or carbon fiber as a filler.

Claims (1)

Composite sheet pile, made of pultruded polymeric material, comprising a middle part with a trapezoidal transverse profile, consisting of a base and two lateral sides, inclined to the outer sides relative to the base and with rounded locks at the edges, which ensure firm fastening of the profiles to each other, characterized in that it is reinforced with a basalt fiber filler with the addition of Tarkosil silicon dioxide nanoparticles.

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