NL1010329C2 - Composite construction material sheet, laminated glass construction material column, and method of manufacturing such a column. - Google Patents

Description

Composite construction material plate, laminated glass construction material column, and method of manufacturing such a column

The invention relates to a composite sheet comprising glass elements and a thermoplastic polymer adhered to the glass.

Such a plate is known from Japanese patent application JP-A-92247650. The material known from this Japanese patent application relates to a transparent laminate which can be used as safety glass. However, the known laminate cannot be used for construction purposes.

It is now an object of the invention to provide a plate of the type referred to in the preamble, which can be processed as a construction material without this requiring the addition of metals or other construction materials for the sake of strength or structural safety. to fit. The construction material according to the invention leads to an increased architectural value of the buildings manufactured with this material. The material according to the invention is also better suited for safety-demanding applications, such as in automobiles or higher speed vehicles.

According to the invention, the composite construction material is characterized in that the glass is hardened and the plate is composed of adjacent and at least partly overlapping and mutually glued elements. The composition of separate elements allows the manufacture of relatively large plates, which are nevertheless useful for construction purposes. The material according to the invention is structurally safe and retains the ability to absorb constructional forces after overload or damage.

It is noted that US-A-4,774,143 discloses a transparent laminated material, the material comprising a continuous inner layer of thermoplastic material, and an outer layer of mutually separated glass segments, wherein in the spaces between the adjacent segments a 1010329 2 glue is applied. The laminate according to US-A-4,774,143 is useful as a safety material, but has no overlapping elements and does not allow use as a construction material.

To obtain optimum construction properties, it is desirable that the glass is cured to at least double the strength of unhardened glass and at most 50% of the maximum strength of tempered glass.

Architecturally, with the plate according to the invention, the best results are obtained in the embodiment in which the elements are glued with a transparent glue, the thickness of the glue layer being less than 25 μτη. The thickness of the adhesive layer to be used depends on the size of the glued elements. When relatively small elements are used, the adhesive layer should be thinner, for example in the range 4-8 μτη.

It is further desirable that the glass is as thin as possible, and preferably has a thickness of at most 5% of the smallest length or width of an element.

The invention also relates to a column of laminated glass construction material. According to the invention, such a column is characterized in that it is provided with a base glued to the glass construction material, and that the construction material rests on soft material in relation to the construction material, with a yield point in the range 5-30 MPa . Lead is preferably used for the soft material. This offers the advantage that the base of the column remains unloaded during loading, so that irregularities in the structure of the construction material when loaded on the column do not produce local stress concentrations.

It is further desirable that a ball joint is included in the base of the column. This prevents bending moments when the column is loaded, as a result of which the load capacity of the column is increased.

The invention is further embodied in a method of manufacturing such a column. In the method according to the invention, the column is formed by fitting two glass tubes together, leaving an annular opening filled with a monomer between the outer diameter of the inner tube and the inner diameter of the outer tube, which monomer is then polymerized under the influence of light with a lamp being moved upward from the base of the column. In this way, the influence of shrinkage is effectively counteracted.

Particularly when one lamp is used, it is desirable that when the lamp 10 is moved upwards, the column is simultaneously rotated about its longitudinal axis. EXAMPLE

Elements of glass are chemically hardened to provide an increased strength that is at least double that of unhardened glass, and at most 50% of the maximum strength. Subsequently, this hardened glass is glued with a duetile polymer, in particular polycarbonate. The adhesive used is a transparent commercial quality from DELO from Germany, namely a blue-light-curing acrylic-based photocatalytic adhesive which is applied in a thickness of approximately 4-8 μιη. Incidentally, other solvent-free and transparent adhesives can also be used that can cure in a controlled manner. This provides a composite construction material with a strength and E-modulus comparable to that of tempered glass, but with a toughness comparable to that of a metal. These elements are then assembled into a large sheet by placing the elements next to and over each other and gluing them together in the same manner as indicated above. This achieves that a composite construction material is provided with a large surface area, but with a high degree of integrity of the whole, even under load on the construction plate. A single element can collapse under load, while the adjacent and overlapping elements remain unaffected.

The invention will now be further elucidated with reference to the drawing, in which in Fig. 1 the column according to the invention is shown in sketch in a first embodiment; and * 1 0 103 29 4 shows in Fig. 2 the column according to the invention in a second embodiment.

Fig. 1 shows a column 1 of laminated glass construction material, which is provided with a base 2 glued to the glass construction material of column 1. Reference number 3 indicates the adhesive layer. The construction material of the column 1 rests in proportion to the construction material soft material 4, namely lead.

In Fig. 2, such a column of glass construction material is shown, the base 2 being composed of a head 2 'of the base, and a base 2' 'of the base. A ball joint 5 is provided between the head and the base of the foot, which provides an all-round hinge to the column 1, so that bending moments are prevented.

The invention is not limited to the exemplary embodiments described above. Within the scope of the invention, as defined by the following claims, these embodiments can be varied without leaving the inventive idea.

1 0 1 o 3 2 9

Claims (9)

1. Composite construction material plate comprising elements of glass and a thermoplastic polymer adhered to the glass, characterized in that the glass is hardened and the plate is composed of adjoining and partly overlapping and glued elements. Plate according to claim 1, characterized in that the glass is hardened to at least double the strength of unhardened glass and at most 50% of the maximum strength of hardened glass. Plate according to claim 1 or 2, characterized in that the elements are glued with a transparent adhesive, the thickness of the adhesive layer being less than 25 µ. Plate according to any one of claims 1-3, characterized in that the glass has a thickness of at most 5% of the smallest length or width of an element. 5. Column of laminated glass construction material, characterized in that it is provided with a base glued to the glass construction material, and that the construction material rests on soft material in relation to the construction material, with a yield strength in the range 5- 30 MPa. Column according to claim 5, characterized in that the soft material is lead. Column according to claim 5 or 6, characterized in that a ball joint is incorporated in the base of the column. 8. A method of manufacturing a column according to claim 5, 6 or 7, characterized in that it is formed by fitting two glass tubes together, between the outer diameter of the inner tube and the inner diameter of the outer tube. an annular opening remains which is filled with a monomer, which monomer is then polymerized under the influence of light, with a lamp being moved upwards from the base of the column. 9. Method according to claim 8, characterized in that when the lamp is moved upwards, the column is rotated simultaneously about its longitudinal axis. * 1010329