Knitted fabric of steel fibers with increased number of...

Fabric (woven – knitted – or nonwoven textile or cloth – etc.) – Knit fabric – Including a free metal or alloy constituent

Reexamination Certificate

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C442S304000, C442S312000, C065S041000, C065S069000, C065S095000, C065S104000, C065S114000

Reexamination Certificate

active

06756330

ABSTRACT:

FIELD OF THE INVENTION
The invention relates to a knitted fabric comprising fibres (fibers), at least part of these fibres being metal fibres and the use of such fabric as a separation cloth for moulds in glass bending processes.
BACKGROUND OF THE INVENTION
Such knitted fabrics comprising metal fibres are described in the PCT-patent applications WO97/04152, WO94/01372 and WO94/01373 and are utilised in various fields of application.
The use of a textile fabric as separation cloth between mould and glass, to form side-lites and back-lites for automotive business is known. During this contact, temperatures of 650 to 700° C. are used. It is of great importance that no marks are left on the glass surface after the contact of the glass and the textile fabric.
The use of textile fabrics out of 100% glass fibres is known. The disadvantage of these glass fibre cloths is that it doesn't resist the mechanical action during the glass shaping process. Also the use of textile fabrics, partially or fully consisting out of metal fibres is known. Using these fabrics as mould coverings, the mechanical action of the bending process is withstand better, but there is still the risk of marking the glass, by transferring the woven or knitted pattern into the glass surface which has contacted the textile fabric.
Further, it is known that the use of knitted structures is more suitable to cover moulds, since knitted surfaces can be draped better on moulds and less or no folds will be created when bending the knitted fabric, especially on three-dimensionally shaped surfaces or moulds.
The risk of having marks, caused by use of textile fabrics as the separation cloth for moulds in glass bending processes, is influenced by several parameters, such as glass temperature and pressure used to bend the glass. Since for example the automotive industry requires more complex glass surfaces, that is glasses which show a deeper bend, the glass has to be heated to a higher temperature and the pressure to bend the glass, is increased as well. These two adjustments to the production parameters of the bending process, makes the glass more sensitive to markings since higher temperature makes the glass softer, and creates a more obvious transfer of the textile structure, either woven or knitted, on the glass surface because of the higher pressure.
Another parameter that influences the risk of marking, is the wear of the textile fabric, used as a separation cloth between moulds and glass, due to the repetitive contacts with glass sheets, and the temperature. This temperature makes the fibres become more sensitive to breaking forces, and the mechanical action of the glass sheets against the fabric makes the fabric wear out little by little. Since the fibres which are standing out on the yarn surface, will suffer most on this mechanical action, and so will disappear after several contacts with glass, the stitches out of which the knitted fabric is made or the weaving pattern, used to provide the woven fabric, will be transferred more obviously to the glass surface.
Separation cloths should preferably meet next requirements:
1. The cloth should resist the bending temperature. Typically, these temperatures raise up to 700° C. when the bending takes place in the heated part of the furnace. When the glass bending takes place out of the furnace, this temperature will be less.
2. The cloth should be able to follow the mould shape as close as possible.
3. The separation material should show enough air permeability. It is taken as a limit that separation cloths should at least have an air permeability of 2400 l/10 cm
2*
h, and preferably more than 4500 l/10 cm
2*
h.
4. The weight of the separation cloth is preferably between 600 g/m
2
and 2000 g/m
2
. Fabrics with less weight usually wear out too fast, where too heavy fabrics tend to elongate too much under its own weight, so causing obstruction in the furnace for the glasses to pass in the neighbourhood of the fabric before or after the bending action.
5. The thickness for the separation cloth is preferably more than 0.8 mm and even better more than 1 mm. Too thin fabrics show a lack of elasticity in the direction perpendicular to the fabric surface.
6. And as already mentioned, the risk for remaining marks on the glass surface should be reduced to a minimum.
The higher the number of requirements met, the better the performance of the separation cloth between mould and glass in the glass bending process will be.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a fabric with a reduced risk for markings on the glass surface.
It is also an object of the present invention to provide a fabric which meets all of the above-mentioned minimum requirements.
The invention relates to a knitted fabric, which comprises fibres, at least part of these fibres being metal fibres, and which has more than 90 stitches per square centimetre.
Preferably the knitted fabric has more than 95, most preferably more than 100, e.g. more than 105 or even more than 110 stitches per square centimetre.
The first requirement, being the resistance to the temperatures used for the bending of the glass, is met by the use of metal fibres, usually stainless steel fibres.
Possibly, other high temperature fibres, such as glass fibres, ceramic fibres, TWARON®, NOMEX®, meta-aramid fibres, para-aramid fibres, carbon fibres, preox-fibres and other high temperature resistant man-made fibres can be used, next to the metal fibres. The fibres, of which at least one are metal fibres, can be intimately blended and possibly plied to a two or more plied yarn or the yarn can be a two- or more plied yarn, where some or all of the single yarns are made out of one fibre type.
By plying yarns, it is meant that two or more yarns are given a torsion round the direction of the axis's of the yarns.
To meet the second requirement, being the drapeability, usually knitted structures are used.
The other characteristics, air permeability, thickness, weight and number of stitches, are largely influenced by the gauge of the knitting machine, the metrical number of the used yarns, the knitting structure and the settings of the knitting machine during the knitting action. The higher the number of stitches per square centimetre, the heavier and thicker the fabric and the lower the air permeability. The inventors, however, have discovered that the risk for glass markings can be substantially reduced, if not avoided, if the fabric has a higher number of stitches per surface unit and that this higher number of stitches can be reached with values of air permeability, thickness and weight which still fall within the above-mentioned ranges.
The reduced risk for markings on the glass surface can be explained as follows:
To reduce the risk on creating marks on the bent glass surface, it is important to use a fabric with as much yarn surface as possible on the fabric side which contacts the glass during the bending operation. This for 2 reasons:
1. By having more yarn surface on this contact side, the force to bend the glass is distributed over more contact surface. The depth to which extend the fabric might be pressed into the softened glass largely depends on this force per surface, so less force per unit decreases the risk on having a too large impression of the fabric in the glass, and so creating marks on the glass surface.
2. Because this less force per contact surface unit, the wear due to the repetitive mechanical action on the fabric surface will be reduced. This makes the time to have too much yarn pronunciation longer and the risk to have marks will be decreased in time.
The yarns which can be used to realise fabrics, as subject of the invention are made out of metal fibres, usually stainless steel fibres, possibly blended with glass fibres or ceramic fibres, other high temperature fibres, such as TWARON®, NOMEX®, meta-aramid fibres, para-aramid fibres, carbon fibres, preox-fibres and other high temperature resistant man-made fibres. The fibres, of which at least a part being metal fibres, can be intimately bl

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