NL2001785C2 - Composite material for use in connection with non-structural element in architectural application e.g. construction of facade, has body made of memory polymer and memory alloy, where polymer and alloy are separately heated by heating unit - Google Patents

Abstract

The material (1) comprises a body (2) of a shape memory polymer (3) and a shape memory alloy (4), where the shape memory polymer and the shape memory alloy are separately heated by a heating unit that is connected to an electrical heating wire (5) and an electric power source. A thermal insulation is provided between the shape memory polymer and the shape memory alloy by an insulator (6), where the insulator is constructed as a container.

Description

Composite material comprising a shape memory polymer and a shape memory alloy

The invention relates to a composite material comprising a body of a shape memory polymer (shape memory polymer) and a shape memory alloy.

Such a composite material is known from the article "Bending Actuation Characteristics of Shape Memory Composite with SMA and SMP" by the authors H. Tobusji. S. Hayashi, K. Hoshio, Y. Makino and N. Miwa, published in the Journal of Intelligent Material Systems and Structures, Vol. 17, December 10, 2006, pp. 1075-1081.

The known composite material is still at a research stage and is not yet suitable for industrial use, partly because for the use at the site of the final application given to the composite material, no practically suitable heating methods are known with which the composite material in a desired form can be brought.

In addition to the above, it can be noted that the use of stand-alone shape memory polymers is also known from the prior art, and thereby the heating for realizing a desired shape of such polymers from external sources is obtained as a result of where a lot of energy loss occurs. Moreover, working with external heating sources is obstructive with regard to the size of the dimensions of the workpiece formed from the composite material.

The object of the invention is to provide a composite material in accordance with the preamble that can be brought into a desired shape at the location of the final application and wherein in principle no limits are set on the dimensions of the workpiece being formed by the composite material.

To this end, according to the invention, a composite material is proposed that corresponds to one or more of the attached patent claims 1-5, which makes this composite material particularly suitable for use for a non-structural element in architectural applications, such as fagade or inner wall applications.

2

According to the invention it is proposed that heating means are provided for separately heating the shape-memory polymer and the shape-memory alloy, which heating means are at least partially integrated into the body of the composite material. This makes it possible to bring the composite material into a desired shape in situ by subsequent heating of the shape memory polymer and the shape memory alloy, after which the heating of at least the shape memory polymer can be interrupted so that it can cool down and a shape determined by the shape memory alloy is fixed in the shape memory polymer. The separate heating of the shape memory alloy, as stated above, ensures that it can take on a desired predetermined shape, which can be taken over by the shape memory polymer that is plastically deformable as a result of its separate heating, and can then be retained because the polymer after cooling becomes relatively stiff and undeformable.

A very suitable and simple way to achieve the desired heating is by designing the composite material such that the heating means comprise an electric heating wire or wires which is (are) included in the body for locally heating the shape memory polymer .

It is furthermore advantageous here that the heating means comprise the shape memory alloy and that this alloy can be connected to an electrical power source for locally heating the shape memory alloy by means of resistance heating.

It will be clear that the temperature ranges of the shape memory polymer and of the shape memory alloy can partially overlap and that the properties of these materials corresponding to these temperature ranges can thereby pass through a transition region, taking care to ensure that the properties of these materials in this transition area does not inadvertently interfere with each other.

To enable effective and independent adjustment of the shape memory polymer and shape memory alloy, it is desirable for this purpose to provide an insulator for providing heat insulation between the shape memory polymer and the shape memory alloy.

A simple and suitable way of providing this is that the insulator is designed as a package in which the shape memory alloy is included.

The invention will be explained in more detail below with reference to a schematic representation of the composite material according to the invention as shown in the drawing.

The drawing shows in FIG. 1 shows a bottom view, partially in section, of the composite material according to the invention and in FIG. 2 shows a cross-section of the composite material 10 according to the invention.

Identical reference numbers used in the figures refer to the same parts.

The embodiment shown in FIG. 1 and FIG. The composite material 1 shown in Fig. 2 comprises a body 2 formed from a shape memory polymer 3 and a shape memory alloy 4. In the case shown, the shape memory polymer 3 is designed as a flat plate while the shape memory alloy 4, such as Figs. 2 clearly shows that the shape memory polymer 3 is provided in strip form.

At various locations an electric heating wire 5 is embedded in the shape memory polymer plate 3 with the aid of which local heating of the shape memory polymer plate 3 can be provided, so that this shape memory polymer 3 becomes plastically deformable at the heated locations. In the unheated situation, i.e. at room temperature, the shape-memory polymer 3 plate is rigid and offers good resistance to deformation.

The shape memory alloy 4 arranged in strips generally consists of a metal alloy of nickel and titanium and is electrically conductive. Thus, the shape memory may be 30. ring 4 according to a preferred embodiment of the invention serves for heating the resistance of this shape memory alloy 4 by connecting it to an external voltage source or power source.

By such a resistance heating of the shape memory alloy 4 it can be brought to a temperature in which this alloy 4 adjusts to a predetermined shape, so that due to the plastic deformability of the shape memory polymer 3 provided by heating, it can be oriented towards the shape imposed by the shape memory alloy 4.

For an adequate separate adjustability of the temperature of the shape memory polymer 4 and the shape memory alloy 4, respectively, the shape memory alloy 4 is preferably provided with a package 6 in which the shape memory alloy 4 is accommodated. This package 6 can for instance be a plastic foil or a silicone rubber, which forms a heat barrier between the shape memory alloy 4 and the shape memory polymer 3.

After the plate of the shape memory polymer 3 has been brought into the desired shape, as determined by the shape memory alloy 4, the resistance heating can be switched off by means of the electric heating wire 5 or wires, so that the shape memory polymer 3 plate can cool and becomes relatively stiff and undeformable again. When this last state has been reached, the heating of the shape memory alloy 4 can also be removed, so that it can also cool down and assume the flexible and flexible position associated with this room temperature associated with this shape memory alloy 4.

Claims (6)

Composite material (1) comprising a body (2) of a shape memory polymer (3) (shape-memory polymer) and a shape memory alloy (4) (shape-memory alloy), characterized in that heating means (4,5) are provided ) for separately heating the shape memory polymer (3) and the shape memory alloy (4), which heating means (4,5) are at least partially integrated into the body (2). 2. Composite material as claimed in claim 1, characterized in that the heating means (4, 5) comprise an electric heating wire (5) or wires which is (are) received in the body (2) for locally heating the shape memory polymer (3). 3. Composite material according to claim 1 or 2, characterized in that the heating means (4, 5) comprise the shape memory alloy (4) and that this alloy (4) can be connected to an electrical power source for resistance heating by means of resistance heating. local heating of the shape memory alloy (4). Composite material according to any of claims 1-3, characterized in that an insulator (6) is provided for providing heat insulation between the shape memory polymer (3) and the shape memory alloy (4). 5. Composite material according to claim 4, characterized in that the insulator (6) is designed as a package (6) in which the shape memory alloy (4) is accommodated. Use of a composite material according to one of claims 1 to 5 as a fagade or non-structural material in construction.