DE19617315A1 - Tensile element used to reinforce earth structures - Google Patents

Abstract

The safety element provides reinforcement in construction work. The element interlocks or is held by friction where it is introduced and comprises a composite of two components. These both accept tension, but their moduli of elasticity differ. The design ensures that they will be subjected to tension and break down at different times. Preferably, the component with the lower modulus, is made of a comparatively more durable material and surrounds the other component. A typical construction is high modulus aramid fibres, in a high density polyethylene matrix.

Description

The invention relates to the geotextile absorbing tensile forces for structures using the method of the reinforced Earth. In particular, their Application in the construction of supporting structures and geotextile-reinforced support systems, e.g. B. about mountain damage command to.

It is known that the fibers from geotextiles to their Protection against adverse influences. Bitumen, PVC or latices are usually used for this used. It is also the purpose of this casing, which individual fiber strands of the geotextile crosswise connect and so a defined geometric structure of the Textiles, e.g. B. in the form of a grid. Such umman are for the absorption of tensile forces not designed and not from the start suitable.

The aim of the invention is to provide a reinforcement element beat, which in the deformation of the outer skin of Support structures an additional reserve in the warranty provides the stability of the structure. Here the task is to design the geotextile so that it still with conventional technology and without special Precautions can be used.

According to the invention, a securing element is for this purpose in the Reinforcement element introduced. The resulting system consists of a composite material made up of at least two various elements that absorb the tensile forces  due to their very different material properties activated at different times in their traction recordings be together.

The elements differ in the material properties which significantly affect the tractive force absorption behavior influence, e.g. B. modulus of elasticity, chemical and mechanical resistance, resistance to load change and temperature and creep behavior.

Through the gradual use of tensile forces taking elements can be the failure of a pulling force receiving element can be observed in a simple manner, if the entire object is only in its own use affected, but not yet in its Overall stability is at risk.

The elements preferably differ by different E-modules, so that only after overload of the element with a higher modulus of elasticity lower modulus of elasticity in significant sizes on train is claimed. This signals deformations Partial failure, so that time for the renovation of the property is won before complete failure occurs. Through the coordinated use of sukzes sive acting tension members can be used for such designed construction higher stability can be guaranteed.

The element with the lower modulus of elasticity is preferably made of made of more durable material and wrapped as an additional protective layer the element with the higher modulus of elasticity. An advantageous embodiment of the invention is the inclusion formation of high-modulus aramid fibers in durable PE-HD (high density polyethylene).

Claims (5)

1. Securing element for reinforcement element in buildings that are erected using the method of the reinforced earth, characterized in that it is introduced into the reinforcement element in a non-positive or positive manner, the resulting system being made of a composite material of at least two different ones Elements absorbing tensile forces, which are activated by their very different material properties at different times in their tensile force recordings. 2. Securing element for reinforcement element according to claim 1, characterized in that the elements sustainable in the amount of their elastic modulus differentiate. 3. Securing element for reinforcement element according to claim 1 and 2, characterized in that the element with the lower modulus of elasticity is comparatively stable material is executed. 4. Securing element for reinforcement element according to claim 1 to 3, characterized in that the element with the lower modulus of elasticity the element with the higher Modulus wrapped. 5. Securing element for reinforcement element according to claim 1 to 4, characterized in that high-modulus Aramid fibers are embedded in a high-density polyethylene.