EP1024218A2 - Process for manufacturing a nonwoven material to be used for instance as underroof membrane - Google Patents

Abstract

A thermoplastic felt (I), preferably for use as underfelt for roofing, is prepared by the continuous spinning of fibers by extrusion from a melt, forming a felt from the fibers and point bonding followed by calendering and use of a hydrophobic material.

Description

• eine Schmelze aus dem Kunststoff hergestellt,
• die Schmelze mittels eines Extruders kontinuierlich zu Fasern versponnen
• und aus den Fasern ein Vlies gebildet und insbesondere punktförmig gebondet wird z. B., indem
• das Vlies durch einen entsprechenden Kalander geführt wird.

The invention relates to a method for producing a nonwoven, in particular for use for underlays for roofs, consisting of a thermoplastic, in which method

• a melt made from the plastic,
• the melt is continuously spun into fibers using an extruder
• and a fleece is formed from the fibers and in particular is point-bonded z. B. by
• the fleece is passed through an appropriate calender.

From the publications DE-A-196 42 252 and DE-A-44 43 157 roofing membranes are known that are waterproof and should be permeable to water vapor at the same time. In both Cases are multi-layer layers for the sarking membrane intended. In the former case there are at least three Fleece layers based on thermoplastic materials provided, with a non-woven layer made hydrophobic is. In the second case, a composite is made from a meltblown microfiber fleece with at least one stabilizing carrier layer to a vapor permeable roof sarking membrane connected. With the optionally calendered meltblown you want a high level of water resistance and at the same time a achieve relatively high water vapor permeability. In both In some cases, the requirements are only partially met to the waterproofness and water vapor permeability at the same time high mechanical strength and good processability be put.

The invention is therefore based on the object of a method for producing a fleece of the aforementioned To create a way to make a fleece that the above requirements for underlays for Roofs are made corresponds.

• für das Vlies ein Hydrophobierungsmittel verwendet wird.

This object is achieved in that

• a hydrophobizing agent is used for the fleece.

The agent can be sprayed, dipped or soaked Fleece can be applied. According to an inventive Training (claim 2) is preferred, however, that the Hydrophobing agent already on / in the fibers of the plastic is used and on the surface of the nonwoven fibers its effectiveness unfolds. In particular, the hydrophobizing agent however added to the melt of the plastic (Claim 3). It has been shown that with the invention Process nonwovens that can be produced are sufficient are waterproof and permeable to water vapor.

Polyethylene can be used as the plastic for the nonwoven. However, polypropylene is preferred. In particular, according to the invention as a hydrophobizing agent, a fluorocarbon, preferably Scotchgard FX-1801 or Scotchgard FX-1808 from 3M used and preferably mixed into the melt become. By mixing in the water repellent in the melt in all areas of the fleece achieved effective hydrophobic properties, and a After-treatment by watering, spraying etc. is not necessary.

According to a further development according to the invention (claim 7) provided that the water repellent (e.g. Scotchgard FX-1801 from 3M) in a concentration of 0.5-1.1 % By weight - based on the total weight of the melt - used becomes. One reaches in this concentration range a high level of water resistance combined with good Vapor permeability.

To ensure good mixing of plastic and water repellent to achieve, it has proven to be useful (Claim 8) that the hydrophobizing agent first in a compound or batch is mixed in that the melt is added. The compound should be based as much as possible made of the same plastic as the rest of the melt be (claim 9). It has proven to be beneficial proven when the compound is about 10 wt .-% of the melt (Claim 10).

The use of metallocene catalysts is very advantageous to influence the properties of the plastic in its manufacture. In particular, it has a high extendibility of the fibers due to the more even molecular chain distribution achieved in the metallocene PP. As a plastic therefore metallocene PP preferred (claim 11). The same applies to the compound (claim 12). A particularly effective one Metallocen-PP is e.g. the Achieve 3854 from Exxon (Claim 13). Metallocen-PP of the Achieve type also comes 3828 from Exxon. (Claim 14).

As part of a further development according to the invention Choice of the thread titer for the fleece proved to be essential. The thread titer should preferably be in the range of 0.7 to 2.0 dtex (claim 15), the range being from 0.8 to 1.5 is preferred. A thread titer in this area leads to a high level of water resistance without impairing the Permeability to water vapor.

The basis weight of the nonwoven should be in the range of approximately 50 to 250 g / m ² (claim 17). A basis weight of approximately 160 g / m ² is preferred, in particular in connection with a thread titer of 1.1 dtex.

The invention also relates to a fleece, which according to a or more of claims 1-18. The Nonwoven can be used as a single layer directly underneath be trained (claim 20). However, it is also possible, the fleece with at least one additional plastic layer to connect (claim 21). Finally, too the further variations according to claim 22-24 possible.

A preferred embodiment of the Invention explains:

Metallocene PP of type Achieve 3854 from Exxon used to be highly extendable of the fibers through a more even molecular chain distribution in the metallocene PP. The Type 3828 too is concerned.

A compound or batch consisting of 10% by weight Water repellent Scotchgard FX-1801 from 3M and 90% by weight of the aforementioned Achieve metallocene PP 3854 manufactured by Exxon.

The compound is in a weight ratio of 1: 9 in a metallocene PP melt type 3854 from Exxon.

The mixed melt is spun into fibers by an extruder in a manner known per se. A corresponding PP spun-bonded nonwoven is formed from the fibers, a basis weight of 160 g / m ^{2 being achieved} with a thread titer of 1.1 dtex.

The fleece is passed through a calender for consolidation, where the bonding type is the surface structure certainly. In the present case, a dotted bonding structure preferred, so that the highest possible percentage of the fleece remains breathable and still one high mechanical strength is achieved.

In irrigation tests it has been shown that this fleece withstands a sprinkling of well over five hours, in connection with a high water vapor permeability. With a larger thread titer dimension, the water resistance increases from, d. that is, the fleece will leak earlier.

The fleece has a high mechanical strength in particular Tear resistance, and also tear resistance reaches a high value.

The fleece is immediately as a single layer without further processing Underlay to use.

Claims (24)

Process for producing a nonwoven, in particular for use for roofing underlays, consisting of a thermoplastic, in which process a melt made from the plastic, the melt is continuously spun into fibers using an extruder and a fleece is formed from the fibers and in particular is point-bonded z. B. by the fleece is passed through a corresponding calender, characterized in that a hydrophobizing agent is used for the fleece. A method according to claim 1, characterized in that the water repellent on / in the fibers of the plastic is used and on the surface of the nonwoven fibers its effectiveness unfolds. A method according to claim 1 or 2, characterized in that that the hydrophobizing agent of the melt Plastic is added. Method according to one of claims 1 to 3, characterized characterized in that polyethylene is used as the plastic becomes. Method according to one or more of claims 1-3, characterized in that polypropylene as a plastic is used. Method according to one or more of the preceding Claims, characterized in that as a hydrophobizing agent Scotchgard FX-1801 or Scotchgard FX-1808 3M used and especially in the melt is mixed in. Method according to one or more of the preceding Claims, in particular according to claim 6, characterized in that that the water repellent (e.g. Scotchgard FX-1801 from 3M) in a concentration of approx. 0.5-1.5% by weight - based on the total weight the melt - is used. Method according to one or more of the preceding Claims, characterized in that the water repellent first mixed into a compound or batch is added to the melt. A method according to claim 8, characterized in that the compound absorbing the water repellent in essentially based on the same plastic how the rest of the melt is made. Method according to one or more of the preceding Claims, characterized in that the compound approx. 10 wt .-% of the melt. Method according to one or more of the preceding Claims, characterized in that as a plastic a metallocene PP is used. A method according to claim 11, characterized in that a compound made of metallocene PP is used. A method according to claim 11 or 12, characterized in that the Achieve 3854 type as metallocene PP from Exxon is used. A method according to claim 11 or 12, characterized in that the Achieve 3828 type Metallocen-PP from Exxon is used. Method according to one or more of the preceding Claims, characterized in that for the nonwoven fibers a thread titer of 0.7 to 2.0 dtex is used becomes. Method according to one or more of the preceding Claims, characterized in that for the nonwoven threads a thread titer in the range of 0.8 to 1.5 dtex is used. Method according to one or more of the preceding claims, characterized in that the fleece is formed with a weight per unit area in the range of approximately 50 to 250 g / m ² . Method according to one or more of the preceding claims, in particular according to claim 17, characterized in that the fleece is formed with a basis weight of approximately 160 g / m ^2, in particular in connection with a thread titer of 1.1 dtex. Nonwoven especially for the production of underlay for roofs, consisting of a thermoplastic Plastic as well as manufactured according to a process one or more of claims 1-18. Fleece according to claim 19, characterized in that the Fleece is formed in one layer as a sarking membrane. Fleece according to claim 19, characterized in that the Fleece with at least one additional plastic layer connected is. Nonwoven according to claim 19 or 21, characterized in that the fleece on both sides with an additional plastic layer is provided. Nonwoven according to claim 19 or 21, characterized in that the sarking membrane consists of two interconnected Fleece and on the two outer sides of the double fleece at least one additional plastic layer attached is. Nonwoven according to one or more of claims 21 to 23, characterized in that the additional or other plastic layers are hydrophobic.