DE2161043B2 - Method of joining fabrics - Google Patents

Description

20th

The invention relates to a method for joining fabrics, the joint being resistant to high temperatures and not thicker than twice the fabric thickness. i ^r >

It is known to connect fabric webs by means of sewing. This type of connection has for numerous Applications have the disadvantage that the connection point has a multiple of the thickness of the fabric. As a result, when the web of fabric is wound up, bulges are created which push through several layers.

In order to avoid this bulge formation, fabric ends using a Foil welded in a high frequency process. This method requires that the film have a J-; Has the highest possible dielectric loss factor and the lowest possible softening point, so that it melts when welding. The disadvantage of this method is the very complex welding equipment and in addition, the weld seam is not sufficiently temperature resistant, so that in a subsequent Coating with plastic there is a risk that due to the low softening point of the film Connection point tears.

Now surprisingly been found that 4 ^r> can overcome these disadvantages, when working according to the inventive process. It relates to a method for connecting tissue parts, which is characterized by introducing a ^{high-temperature-r} iii constant film between the tissue to be joined ends, after having impregnated the fabric ends with a volatile solvent for the film and connects the fabric ends by pressing .

High temperature resistant foils with a thickness between 20 and 100 μ are suitable for the process. Polyhydantoin films which are produced according to patent specification 12 30 568 are particularly suitable.

Easily volatile solvents are suitable as solvents, e.g. B. methylene chloride. wi

The pressure applied during pressing is between 5 and 55 kgf / cm ² . The pressing is usually carried out at room temperature. But the press temperature can be up to the boiling point of the solvent increased, whereby the Verbindungsfestigkeil still w increased and the pressing time, the / wipe 1 second and i minutes is, is shifted to the shorter times.

According to the method according to the invention, tissues of natural and synthetic origin can be used within be connected very firmly and temperature-resistant for a short time, such as cotton fabric, Fabrics made of polyester, polyamides, polyurethanes and glass without a subsequent coating a separation of the fabric webs would be observed with plastic.

example 1

Wetted between the with methylene chloride, overlapping underlying web ends of a cotton fabric, a film strip of non-oriented amorphous Polyhydantoinfolie having a thickness of about 40 μ inserted by pressing the connection points at a press temperature of about 40 ⁰ C and a specific pressure of about 20 kp / cm ² , the web ends are pressed together for approx. 10 seconds. The strength of the joint is higher than the strength of the fabric, even when comparing the strengths at a higher temperature. A numerical value for the strength of the connection point cannot therefore be determined. The adhesive point is temperature- ^{resistant up to 260 °} C. and is resistant to boiling 10% sodium hydroxide solution, boiling hydrogen peroxide and is not damaged by a melt made of plasticized PVC.

Example 2

A film strip made of non-oriented, amorphous polyhydantoin cast film is placed between the ends of a glass silk fabric wetted with methylene chloride. By compression of the joint at a press temperature of about 40 ⁰ C and a specific pressure of 20 kp / cm ^2, the web ends are pressed against each other about 10 lake. The strength of the joint is higher than the strength of the fabric. A numerical value for the strength of the connection point cannot therefore be determined. The glue point is temperature resistant up to 260 ⁰ C.

Example 3

Between the overlapping web ends of a polyester fabric wetted with methylene chloride is a film strip made of non-oriented amorphous polysulfone film, which consists of a polysulfone the recurring unit

was produced, inserted with a thickness of approx. 40 μ. By pressing the connection points at a pressing temperature of approx. 40 ° C. and a specific pressing pressure of approx. 20 kp / cm ² , the web ends are pressed together for approx. 10 seconds. The strength of the joint is higher than the strength of the fabric, even when comparing the strengths at a higher temperature. A numerical value for the strength of the connection point cannot therefore be determined. The adhesive point is temperature- ^{resistant up to 200 °} C. and is resistant to boiling 1.0% sodium hydroxide solution, boiling hydrogen peroxide and is not damaged by a melt made of plasticized PVC.

Example 4

A film strip is made between the web ends of a polyamide fabric wetted with methylene chloride non-oriented amorphous polyether sulfone film, which is made of a polymer consisting of the repeating unit

was made, laid. By pressing the connection point at a pressing temperature of approx. 40 ° C. and a specific pressing pressure of 20 kp / cm ² , the web ends are pressed together for approx. 10 seconds. The strength of the joint is higher than the strength of the fabric. A numerical value for the strength of the connection point cannot therefore be determined. The glue point is temperature resistant up to 240 ° C.

Example 5

Between the overlapping web ends of a cotton fabric wetted with methylene chloride becomes a film strip of non-oriented amorphous

ι ϊ

Polycarbonate film based on isatin bisphenol with a thickness of approx. 40 μ is inserted. By pressing the connection points at a pressing temperature of approx. 40 ° C. and a specific pressing pressure of approx. 20 kp / cm ² , the web ends are pressed together for approx. 10 seconds. The strength of the joint is higher than the strength of the fabric, even when comparing the strengths at a higher temperature. A numerical value for the strength of the connection point cannot therefore be determined. The glue point is temperature-resistant up to 260 ° C and is not damaged by a melt of plasticized PVC.

Example 6

A film strip made of non-oriented amorphous polybenzoxazinedione film based on thiobissalicylic acid is placed between the web ends of a linen fabric wetted with methylene chloride. By pressing the connecting parts at a pressing temperature of approx. 40 ° C. and a specific pressing pressure of 20 kg / cm ² , the web ends are pressed together for approx. 10 seconds. The strength of the joint is higher than the strength of the fabric. A numerical value for the strength of the connection point cannot therefore be determined. The glue point is temperature resistant up to 300 ° C.

Claims (3)

Patent claims: 1. A method for connecting tissue parts, characterized in that between the tissue ends to be connected are introduced by a high-temperature-resistant film after you have soaked the fabric ends with a volatile solvent for the film, and the Connects tissue ends by pressing. 2. The method according to claim 1, characterized in that one is used as a high temperature resistant Foil uses a polyhydantoin foil. 3. The method according to claim 1, characterized in that the solvent is methylene chloride used. II)