DE3444921A1 - Textile composite material for reinforcements and process for the production thereof - Google Patents

Abstract

The invention relates to a textile composite material for reinforcements and a process for the production thereof and is used in the field of building construction for reinforcements of mixtures with hydraulic or non-hydraulic binders, in particular concrete. <??>Whilst the aim of the invention is the simple and cost-effective production of a high strength, strip-shaped textile composite material for reinforcements and the replacement of steel reinforcement by this textile composite material, the object of the invention is to provide a rot-proof textile composite material resistant to high and low temperatures from textile materials, preferably secondary raw materials, whilst maintaining and ensuring the required structural parameters. <??>This object is achieved according to the invention in that this textile composite material consists of a plurality of superimposed layers of textile materials containing thermoplastic fibrous materials, with or without intermediate layers of high polymeric materials such as films, granules or powder, and is stiffened under the effect of pressure and temperature in appropriate moulds.

Description

Title of the invention

Textile composite material for reinforcement and process for its production

Field of application of the invention

The invention relates to a high-strength, low-stretch textile composite material in various geometric shapes and is used in the field of construction for reinforcement of mixtures with hydraulic or non-hydraulic binders, in particular concrete.

Characteristics of the known technical solutions

To absorb the tensile forces in concrete structures, this one load-bearing reinforcement inserted. The following technical solutions have so far been known for this reinforcement in the construction industry.

There are steel materials according to the static load requirements used in the form of rods, mats or braids. To increase the flexural strength, steel fibers are added to the mixture.

These solutions have the disadvantage that once large amounts of steel for the production of concrete elements are required.

In addition, the processing of the steel material is energy-intensive, expensive and only with a great deal of machinery and heavy body parts connected to work.

Likewise, steel is used for reinforcement that moves the elements serve, used. Technical solutions based on steel are described in DD-WP 640, DD-WP 152 323 and DE-OS 1 684 473, among others. But these solutions also have the disadvantages already mentioned.

Added to this is the fact that the one used for the load bearing Steel remains in the element without any function after assembly. Another technical solution for reinforcement in construction is a Transport security material known, which as a rope-like composite material, consisting of knitted, band-shaped, in the longitudinal direction oriented, adjacent textile secondary pipe materials are used in one element for the reinforcement of waterways in melioration construction. However, this textile material has a number of disadvantages: There is no solid between the individual strips of the composite material Composite. The wrapping is loose. The material has a high degree of flexibility and mobility. It shows a normal, typical textile Elongation and strength. No requirements are placed on the strength of the secondary raw material starting materials. A big Volume and the use of non-uniform materials, in conjunction with the aforementioned disadvantages, result in different load absorption with tensile loads and a different elongation behavior of the individual strips as well as problems in the manufacture of the elements due to the high flexibility and mobility and problems due to the high plastic requirement in the element due to the high volume or the large quantity cutting of the textile composite material.

Fiber concrete is also known. In addition to the one already mentioned Use of steel fibers is in the magazine "Beton" 4/79 the use of synthetic fibers, z. B. polypropylene, and glass fibers mentioned. Such fibers increase the green strength of the fresh concrete and the tensile strength, the absorbable fracture energy and the impact strength of hardened concrete. But even this technical solution does not offer any equivalent for the properties of the steel reinforcement.

Object of the invention

The aim of the invention is to be simple and inexpensive the production of a high-strength, strip-shaped textile composite material for reinforcement in the construction industry, through which steel reinforcement can be replaced.

Explain the essence of the invention

The object of the invention is to provide a corresponding to the conditions of construction in prefabrication and assembly temperature and rot-resistant composite material made of textile materials, in particular Secondary raw materials, in compliance with the necessary structural parameters, such as tensile strength and malleability.

According to the invention, this object is achieved in that the textile composite material consists of several, at least two superimposed layers of strip-shaped, rot-resistant textile materials, which partly contain thermoplastic fibers and have a minimum tensile strength of 10 N / mm ² , which, directly or with interposed material, in particular high polymer film waste, polymer mixed film, powder or granules made of high polymer materials are thermally solidified in a manner known per se and that it has a minimum strength of 50 N / mm ² and a minimum density of 0.4 g / cm ³ .

The inventive method for producing this textile composite material for reinforcement in the building industry consists in that strip or sheet-like textile materials with or without the addition of other high-polymer thermoplastic materials or non-shaped high-polymer material are sandwiched several times, but at least twice, on top of each other, with the individual strips or webs consist of the same or different fiber materials, that the textile material layers are placed directly on top of one another or provided with intermediate layers of high-polymer film waste or of powder or granules of high-polymer materials and that these layers in a heatable press at a temperature of 150 ° C - 250 ° C, preferably 180 ° C - 225 ° C, and a pressure of 100 to 160 N / mm ² and a pressing time of 2 to 5 minutes, preferably 3 minutes, the press shaped according to the required design Press tools aufwe is and the action of the pressure is perpendicular to the surface of a single layer and / or perpendicular to the side edges of several, at least two layers.

Embodiment

The invention is to be described in more detail below using a few exemplary embodiments explained.

• Strips 2 cm wide are cut from textile paper machine felt edge strips made of polyester fibers 5 mm thick. These strips are placed one on top of the other with the inclusion of polyethylene film edge strips and ^{pressed to a thickness of 4 mm at a temperature of 180 ° C. and a pressure of 160 N / mm 2} with a pressing time of 3 minutes. The result is a strip-shaped, high-strength composite material which has a tensile strength of 50 N / mm ³ .

Edge strips of paper machine felts of different fiber materials, for example polyester fiber materials and polyamide fiber materials, are cut and placed one on top of the other in the form so that the outer layers are made of polyester fiber material and the inner layer is made of polyamide fiber material. The pressing takes place at a temperature of 225 ° C. and a pressure of 100 to 160 N / mm ² . Depending on the pressing time, the polyamide fiber material is more or less plasticized and fulfills the function of the connecting medium, the stiffness of the material increasing as the pressing time increases.

The result is one shaped according to the press tools used Composite material with the desired properties.

A webbing waste made of cotton or viscose cord fabric or knitted fabric is cut into strips and folded with film or polyamide or polyester fiber material as an intermediate layer and treated as in the previous examples.
The result is a stiff, relatively easily flexible, high-strength composite material.

A polymer granulate is inserted as an intermediate layer. The treatment is analogous to the other examples.

A polyamide or polyester secondary raw material powder is used as an intermediate layer introduced and the composite material treated analogously to the other examples.

Report on the result of the preliminary examination of novelty and the technical-economic effectiveness

a) The countries and classification units that have been kept

in which the research

DD B. 28 B 23/00 not used 3 155 046 B. 28 B 23/02 not used 3 B. 32 B 31/00 127 995 - 3 150 175 B. 32 B 31/14 not used B. 32 B 31/20 133 921 - 3 D. 07 B 1/00 153 616 D. 07 B 1/02 130 055 3 D. 07 B 1/16 200 685 3 D. 07 B 1/22 not used 3 D. 07 B 5/00 not used D. 07 B 5/12 143 799 3 127 361 E. 04 C 5/00 123 539 2 156 092 E. 04 C 5/07 118 451 - E. 04 C 5/16 120 677 - 137 738 E. 04 C 5/20 not used 142 220 E. 04 G 21/00 131 396 - 158 565 E. 04 G 21/12 141 183 - 203 156 E. 04 G 21/14 121 967 - 126 104 DE-AS, OS B. 28 B 23/00 2,839,704 - 016 756 PS B. 28 B 23/02 3 007 094 - B. 32 B 31/00 2 234 008 - 139 581 B. 32 B 31/14 not used B. 32 B 31/20 2,218,074 - 138 491 D. 07 B 1/00 2,818,549 208 397 D. 07 B 1/02 2 231 968 - 035 345 D. 07 B 1/16 1 951 192 - D. 07 B 1/22 2 807 841 - 204 045 D. 07 B 5/00 3 002 523 927 435 D. 07 B 5/12 2,618,586 - E 04 C 5/00 2,754,834 -

3U4921

DE-GM EP-PS

E. 04 C. 5/07 E. 04 C. 5/16 E. 04 C. 5/20 E. 04 G 21/00 E. 04 G 21/12 E. 04 G 21/14 B. 32 B. 31/00 B. 32 B. 31/14 B. 32 B. 31/20 D. 07 B. 1/00 D. 07 B. 1/02 D. 07 B. 1/16 D. 07 B. 1/22 D. 07 B. 5/00 D. 07 B. 5/12 B. 28 B. 23/00 B. 28 B. 23/02 B. 32 B. 31/00 B. 32 B. 31/14 B. 32 B. 31/20 B. 07 B. 1/00 D. 07 B. 1/02 D. 07 B. 1/16 D. 07 B. Mil D. 07 B. 5/00 D. 07 B. 5/12 E. 04 C. 5/00 E. 04 C. 5/07 E. 04 C. 5/16 E. 04 C. 5/20 E. 04 G 21/00 E. 04 G 21/12 E. 04 G 21 / U

2 702 757 2 634 120 2 630 664 2 646 316 2 649 345 2 265 419 -

8 300 708 not used 8 307 901 not used not used 8 226 889 not used not used not used

0 054 983 0 003 245 0 015 203 0 048 491 0 024 203 not used 0 009 924 not used not used 0 029 630 not used 0 060 232 0 002 267 0 049 529 not used not used 0 005 075 0 003 561 -

2,933

3 104 3 021 3 038 3 121 3 042

0 057 0053 0 083 0 048 0 079

0 020

0 028 0 069

0 057 0 051

WO-PS

WO-PS

28 B. 23/00 I- 82/02 3A44921 167 B. 28 B. 23/02 not proven B. 32 B. 31/00 80/02 256 - 83/02 088 B. 32 B. 31 / U not proven B. 32 B. 31/20 83/02 253 B. 07 B. 1/00 not proven D. 07 B. 1/02 not proven D. 07 B. 1/16 not proven D. 07 B. 1/22 not proven D. 07 B. 5/00 not proven D. 07 B. 5/12 not proven D. 04 C. 5/00 not proven E. 04 C. 5/07 not proven E. 04 C. 5/16 not proven E. 04 C. 5/20 not proven E. 04 G 21/00 not proven E. 04 G 21/12 79/00 856 E. 04 G 21/14 not proven E.

b) The numbers of the intellectual property rights with which the search started and ended:

DD-PS 127 996 - start of research

WO-PS 70/00 856 - end of research

c) Other sources of information that were researched:

"Technical textiles" 1/1980 - 11/1983
"Beton" 4/79, p. 139 ff.

d) The technical solution closest to the invention is presented in WP 127 361 in that a reinforcement consists of several materials. Here, the core is made of cheap material such. B. Silikai or glass, and the edge zone made of high quality material, e.g. B. lace, flexible metal fabric. A comparison with the invention However, a solution is not possible because of the layer structure and the properties of the starting materials and the composite material obtained of WP 127 361 and the solution according to the invention from different Subject areas.

e) The invention finds application in the field of construction, in particular of industrial assembly construction.

However, it can also be used anywhere where there is a strong armor Concrete is processed.

f) The economy of the invention results from

- the saving of material, especially steel, in the construction industry,

- the use of previously unusable textile secondary raw materials,

- the improvement of working and living conditions, in particular the elimination of heavy manual labor in prefabrication in the construction industry,

- the rational manufacturing work of the composite material.

g) Laboratory tests have been successful by using the composite materials produced met the required parameters.

Claims (7)

Invention claim g. . Textile composite material for reinforcement in the construction industry, characterized in that it consists of several, at least two superimposed layers of strip-shaped, rot-resistant textile material, preferably secondary pipe materials, which partly contain thermoplastic fibers and have a minimum tensile strength of 10 N / mm ² , which directly or are thermally solidified with intercalated high polymer material, in particular high polymer film waste, mixed polymer film, powder or granulate made of high polymer materials and that it has a minimum tensile strength of 50 N / mm ² and a minimum density of 0.4 g / cm ³ . 2. A method for the production of textile composite material for reinforcement in the construction industry, characterized in that strip or sheet-like textile materials, preferably secondary raw materials with or without the addition of other high-polymer thermoplastic materials or non-shaped high-polymer secondary raw material material are sandwiched several times, but at least twice, The individual strips or webs consist of the same or different fiber materials, that the textile material layers are placed directly on top of one another or provided with intermediate layers of high-polymer film waste or of powder or granules of high-polymer materials and that these layers are placed in a heatable press at a temperature of 150 ° C - 250 ° C, preferably 180 ° to 225 ° C, and a pressure of 100 to 160 N / mm ² and a pressing time of 2 to 5 minutes, preferably 3 minutes, the press according to the required design has shaped pressing tools and the action of the pressing pressure takes place perpendicular to the surface of a single layer and / or perpendicular to the side edges of several, at least two layers. 3. The method according to item 2, characterized in that the textlien Materials Polyester fiber in the outer layer and polyamide fiber Are in the inner layer. A. The method according to point 2, characterized in that the textlien Materials are polyester fiber and the intermediate layer consists of polyethylene film edge strips. 5. The method according to item 2, characterized in that the textlien The materials of the individual layers are cotton or viscose cord fabric or knitted fabric and the intermediate layers are polyethylene film or polyamide or Polyester fibers. 6. The method according to item 2, characterized in that the intermediate layers are a polymer regranulate. 7. The method according to item 2, characterized in that the intermediate layer made of polyamide or polyester secondary raw material powder.