DE4107617A1 - Fibre union material with hollow fibres embedded in matrix - has fibres, sealed at ends, filled with gas or fluid which are heatable by heating wires inserted in them in matrix or by external source - Google Patents

Abstract

The fibres are filled with a gas or fluid prior to be placed in the matrix, and sealed at their ends. By heating, either inductively with heating wires in the hollow fibres or in the matrix, or from an external source e.g, with hot air, the increase in temp. results in a rise in inner pressure in the fibres, whereby the inner pressure is in equilibrium with the mechanical tensions in the fibre walls. As the result of vol. expansion of the gas or fluid in the fibres, i.e, with a fibre 100cms long a length alteration of approx. 1mm occurs at a temp. rise of 1 deg. C., on account of the high elasticity module of the fibre high tensions occur. This in turn leads to the formation of a suitable matrix material with fibres in which there is increased rigidity. ADVANTAGE - A fibre union matrix which is cheap to produce, and has variable strength properties.

Description

The invention relates to a fiber composite material in a Matrix embedded fibers.

There are several applications in which it is advantageous that construction parts have different strength properties during operation. Such components are such. B. spring bars with different vibrations behave, undercarriages with different damping properties, thermo sensitive actuators. So far, these effects have mostly been with hollow achieved elastic components with differences liquid or gas pressures have been applied. This need complicated and expensive storage tanks, valves and lines.

The invention has for its object a fiber composite material of the type mentioned at the outset, in a simple, inexpensive manner is to be provided with variable strength properties.

This object is ge by the features characterized in claim 1 solves. Advantageous embodiments of the invention are in the Unteran sayings marked.

The great advantage of the invention is its simplicity. In the Fiber composite material that forms a component with different Fe only the fibers need to be processed with a gas or liquid prior to insertion into the matrix fills and seals at the ends. When heating the component, either inductively with heating wires in the hollow fiber or in the matrix, or from the outside, e.g. B. with warm air, has the increase in temperature an increase in the internal pressure in the hollow fiber, the In internal pressure in equilibrium with the mechanical stresses in the fiber walls stands. This allows the pretension of the hollow fiber or Control the rigidity of the component via the temperature. As a result of the Volu men expansion of the gas or liquid in the hollow fiber, the z. B. with a fiber of 100 cm length with a temperature increase of 1 ° C  a change in length of approx. 1 mm is due to the high The elastic modulus of the fiber achieves high pretensions. The heightened The state of tension in the fiber wall leads when the fiber is embedded in a suitable matrix material to increase the rigidity of the ge Entire fiber composite or the component. Thus, the elastic Ver hold a component designed according to the invention by controlling the Temperature controllable. Also about the selection of the hollow fiber material and the type of filling of the hollow fibers with gas or liquid can do that elastic behavior of the fiber composite material as a function of temperature rature can be determined in different ways. So it is useful for fibers with a high modulus of elasticity, e.g. B. glass, a filling with Liquid, such as oil, alcohol, or water, and low fiber fibers Young's modulus, e.g. B. plastic, a filling with gas, which is not diffuses, like air. This new way of creating Components with variable strength properties have within the one set temperature range contrary to known systems elastic behavior as a function of temperature. While in known systems the stiffness decreases with increasing temperature takes, is an increase in the inventive fiber composite material Stiffness and strength present.

The invention is illustrated below with reference to a in the drawing th embodiment explained. It shows in greatly enlarged tem scale:

Fig. 1 is a embedded in a matrix of hollow fiber;

Fig. 2 is a hollow fiber as shown in Figure 1 with a heater wire.

Fig. 3 shows a cross section through a fiber composite material made of matrix, hollow fibers and heating wires and

Fig. 4 shows a section IV-IV through the FIG. 3.

Fig. 1 shows a embedded in a matrix 1 hollow fiber 2 , which is sealed at its ends 3 , 4 and with a non-diffusing gas 5 , z. B. air is filled.

FIG. 2 shows an identical hollow fiber 2 with a heating wire 6 passed through in the middle.

In Fig. 3 the cross section of a fiber composite material 10 is Darge. This consists of the matrix 1 and embedded Hohlfa sern 2 , some of which are provided with heating wires 6 . Further heating wires 6 are embedded in the matrix 1 .

Fig. 4 shows a section IV-IV through Fig. 3 with an end piece of Fa serverbundwerkstoffes 10th The ends of the heating wires 6 are connected to a power source in a known manner.

In the embodiment shown here, in which the medium filled in the hollow fibers 2 consists of gas 5 , the hollow fiber must be made of egg nem material with a low modulus of elasticity, for. B. plastic. If the hollow fiber is made of a material with a high modulus of elasticity, e.g. B. glass, it is necessary to use a liquid such as oil, alcohol or water as the filling.

It is also within the scope of the invention, instead of heating wires 6, a component made of the fiber composite material for increasing the strength from outside, e.g. B. with warm air to heat.

Claims (6)

1. Fiber composite material with fibers embedded in a matrix, characterized in that as fibers sealed at the ends and filled with a gas ( 5 ) or a liquid hollow fibers ( 2 ) are used which are heatable. 2. Fiber composite material according to claim 1, characterized in that in the case of hollow fibers ( 2 ) with a low modulus of elasticity, the filling is carried out with non-diffusing gas ( 5 ). 3. Fiber composite material according to claim 1, characterized in that that with hollow fibers with a high modulus of elasticity, the filling with liquid speed occurs. 4. Fiber composite material according to claims 1 to 3, characterized in that a heating wire ( 6 ) is inserted into the hollow fibers ( 2 ). 5. Fiber composite material according to claims 1 to 3, characterized in that in the matrix ( 1 ) heating wires ( 6 ) are embedded. 6. Fiber composite material according to claims 1 to 3, characterized records that a component made of the fiber composite material is heated from the outside.