KR101252341B1 - Polypropylene needle-punching non-woven fabric for an oil-absorber having excellent mechanical strength and manufacturing method thereof - Google Patents

Abstract

The present invention is a manufacturing method that can produce a long-fiber nonwoven fabric having a high mechanical strength as well as excellent breathability and thermal insulation by melt spinning the polymer to make a fibrous web and purchase and stack it by needle punching or high pressure fluid classification punching And it relates to a nonwoven fabric produced by this method, the method for producing a long fiber polypropylene needle punched nonwoven fabric having excellent mechanical strength of the present invention is to melt-spun polypropylene having a diameter of 10 to 30 microns to maintain in the form of a web In order to form a prebonded web that maintains morphological stability, such as a spunbond, because only a portion is thermally fused by applying a constant temperature and pressure, wherein the prebonded web is formed of at least five layers, and the outer layer spunbonded filament and the inner layer And melt punched onto the prebonded web to heat Complex because it is characterized in that the manufacturing.
Adsorbent long-fiber polypropylene needle punching nonwoven fabric having excellent mechanical strength of the present invention configured as described above and a manufacturing method thereof forms a melt blown layer and needle punches to form a nonwoven fabric, and thus various uses and adsorption including civil engineering materials. It is a useful invention that provides a method for producing a nonwoven fabric having mechanical strength suitable for use as a nonwoven fabric and having excellent breathability and heat retention, as well as inexpensively.

Description

Polypropylene needle-punching non-woven fabric for an oil-absorber having excellent mechanical strength and manufacturing method

The present invention relates to a long-fiber nonwoven fabric having excellent breathability and thermal insulation and high mechanical strength, and more particularly, to a fiber web made by melt spinning a polymer, and then laminated by purchase and needle punching or high pressure fluid classification punching. The present invention relates to a manufacturing method capable of producing a long-fiber nonwoven fabric having a high mechanical strength as well as excellent thermal insulation, and a nonwoven fabric produced by the method.

Conventionally, non-woven products have been used for various purposes in civil engineering and construction fields. Non-woven fabrics used for civil engineering materials or building materials are required to continue to develop their quality and function along with the development of civil engineering or building technology. It was done.

Accordingly, in order to meet the above demands, nonwoven fabrics have been developed and proposed to satisfy various needs and improve properties. The conventional nonwoven products are typically filaments obtained by melting, extruding and stretching polyester-based raw materials by an extruder. The filaments were collected on a conveyor belt to form a web and imparted form stability to the formed web. Also, the nonwoven fabric is widely used as an oil adsorbent. No. 2007-0069201 "A polyolefin-based short fibers for adsorption and nonwoven fabric using the same and a method for preparing the same", "In the polyolefin-based short fibers for adsorption, polyolefin-based resin in the form of a single-sided single-fiber, Is formed from 3 to 10 protrusions, and the sum of the protrusion areas is inscribed in the cross section of the spinneret. Oil-absorbing polyolefin-like short fibers, characterized in that the spinneret is formed using a cross-section spinneret formed to be more than two times the area of the area, and 2007-0001686 discloses "oil and water partitioning the inner space. It is provided with a repellent outer shell and the absorbent core made of wool and wrapped by the outer shell, wherein the absorbent core is made of a nonwoven fabric attached to wool by using a needle punching machine to form a web. Adsorbent unit "is disclosed.

However, the nonwoven fabric prepared for use in the conventional civil engineering or the nonwoven fabric prepared for use for oil adsorption or the oil adsorption units using the same are not only problems in the manufacturing process, but also the nonwoven fabric manufactured in this way is intended for use. There is a disadvantage that does not always meet the appropriate mechanical strength to seek a solution to this problem, in addition to the situation that has been sought together in a way to lower the manufacturing cost of these nonwoven fabrics. In particular, the conventional oil-absorbing nonwoven fabric has a problem in that the oil adsorption amount per unit weight is inadequate and a large amount of adsorption cloth should be used for a large amount of marine control. There are drawbacks and significant problems inherent in use.

Therefore, the present inventors can reduce the manufacturing cost together with the manufacturing process problems in the above-described conventional civil engineering materials and building materials nonwoven fabrics, and the mechanical strength of the degree that can be suitably used for the purpose of use as a sorbent. The present invention has been completed by earnest research to provide a nonwoven fabric with.

Patent Document 1: Republic of Korea Patent Application No. 2007-0069201 Patent Document 2: Republic of Korea Patent Application No. 2007-0001686

Accordingly, the present invention has been made in view of the above-described conventional situation, and the first object of the present invention is to solve the above-mentioned problems and to have a mechanical strength suitable for use in various applications including civil engineering materials and non-absorbent nonwoven fabrics. It is to provide a method that can be manufactured more easily and inexpensively.

Another object of the present invention is to provide a nonwoven fabric excellent in breathability and heat retention as well as mechanical strength and economy suitable for use in various applications including civil engineering materials and oil absorption nonwoven fabric.

The present invention may also be aimed at achieving, in addition to the above-mentioned specific objects, other objects which can be easily derived by those skilled in the art from this and the overall description of the present specification.

The object of the present invention described above is to use a polypropylene material, not a needle punching nonwoven fabric of a conventional polyester material at a predetermined ratio, and the rest by treating the waste fibers in a specific method to compound the spunbond method and the needle punching method of the nonwoven fabric. In this case, by adjusting the polypropylene melt blown content it could be achieved because it was possible to improve the mechanical strength and oil adsorption capacity.

Method for producing a long fiber polypropylene needle punched nonwoven fabric having excellent mechanical strength of the present invention for achieving the above object;

In order to melt-spun polypropylene having a diameter of 10 to 30 microns to maintain a web form, a portion of the polypropylene is heat-sealed by applying a constant temperature and pressure, thereby forming a prebonded web that maintains shape stability such as a spun bond, wherein the free The bonding web is comprised of at least five layers, consisting of outer layer spunbond filaments and inner layer meltblown;

It is characterized in that the manufacturing by needle punching on the prebonding web.

According to another configuration of the present invention, the melt blown as the inner layer of the nonwoven fabric is characterized in that it comprises a melt blown of 0.1 to 10 microns.

According to another configuration of the present invention, the composition ratio of the melt blown may be composed of a ratio of 0 to 90%, it is possible to change the weight ratio freely according to the use or application of the product.

According to another configuration of the invention, the formation of the prebonding web is characterized in that it is carried out in a temperature of 100 to 120 ℃ and a calendar pressure range of 20 to 50 N / mm.

According to the state of the prebonding web produced in the spunbonding step, the physical properties of the final needle punched nonwoven fabric with the mixed web stacked thereon are determined, wherein the temperature and pressure of the calender in the spunbonding step In the case of excessive excess out of the range, the inter-fiber entanglement of the nonwoven web is insufficient in the needle punching process, resulting in a delamination or a phenomenon in which the strength of the nonwoven fabric is significantly lowered. On the contrary, when the temperature and pressure of the calender of the process are excessively low, the nonwoven web management in the needle punching process is difficult and is not easy to apply to the actual process.

An oil-adsorbent long fiber polypropylene needle punching nonwoven fabric having excellent mechanical strength for achieving another object of the present invention is obtained by the above method.

According to another configuration of the invention, the nonwoven fabric is characterized in that having a weight of 50 ~ 1000 g / ㎡.

Adsorbent long-fiber polypropylene needle punching nonwoven fabric having excellent mechanical strength of the present invention configured as described above and a manufacturing method thereof forms a melt blown layer and needle punches to form a nonwoven fabric, and thus various uses and adsorption including civil engineering materials. It is a useful invention that provides a method for producing a nonwoven fabric having mechanical strength suitable for use as a nonwoven fabric and having excellent breathability and heat retention, as well as inexpensively.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail by preferable embodiment.

The term "nonwoven" as used above and below refers to a structure in which individual fibers or yarns are arranged in an irregular manner to form a planar material without a uniform pattern.

The term “meltblown” also refers to a web or layer of fibers that is carried by a high velocity gas stream and deposited on a collector surface to disperse irregularly.

Another term, "prebonding," refers to a product produced in a manner similar to the method of manufacturing a spunbonded nonwoven fabric, in which only a part of the state is temporarily heat-sealed using the appropriate temperature and pressure of a calender for the needle punching process. it means.

Polypropylene spunbond needle punched nonwoven fabric according to the present invention is a spunbond and needle bun consisting of a structure in which the long-fiber region and the melt-blown region made of ultrafine fibers are alternately arranged in addition to some heat-melting bonds. It is a nonwoven fabric produced by the composite method of ching. In this case, the range of the thickness and weight of the meltblown layer is not particularly limited, and may be adjusted according to the use or application of the product.

The nonwoven fabric according to the invention constituted as described above is produced by the following process:

Step 1: Randomly stack the polypropylene long fibers on the conveyor belt. The laminated polypropylene fibers pass through the calendar and are rolled to form a roll while maintaining shape stability like a spun bond. This is called a prebonding state.

Second step: The pre-bonded product manufactured in the first step is a needle punching process made of a number of needles to produce a final needle punched nonwoven fabric through the interlocking of the non-heat-sealed fibers.

Hereinafter, a preferred embodiment of the needle punching nonwoven fabric manufacturing method according to the present invention will be described in more detail.

(1) One step process:

Polypropylene filaments are randomly laminated on the conveyor belt through quenching and stretching, spinning through nozzle holes made at regular intervals. Laminated fibers form a web layer, but the bonding strength between each other is weak, the shape holding power is weak. Therefore, it is a process of manufacturing so that the long fiber spunbond layer may be thermally fused to a minimum through constant pressure and temperature adjustment while passing this laminated body through a calender roll to maintain the shape of a web.

At this time, it was found that the temperature and pressure conditions of the calender roll had the most influence on the physical properties and quality of the final needle punched nonwoven fabric. Specifically, when the prebonded product undergoes the one-step process under excessively high temperature and high pressure calender conditions, the two long fiber layers and the inner melt blown layer forming the surface are mostly caused by excessive heat and pressure. Since the fibers are thermally fused so that the fibers to be entangled do not exist, they appear in the same form as a general spunbond nonwoven fabric and cannot express the effect of needle punching. On the contrary, when the prebonded products undergoing the first step are processed under very low temperature and low pressure calender conditions, the inter-fiber entanglement in the needle punching process can be expected, but the management of the prebonded products is difficult. As a result, the shape retention is weak, so that the fiber density of each part becomes uneven, which is undesirable.

When the needle punching process is performed in the state of such a prebonded product, not only the mechanical properties are lowered as a whole, but also the variation of the physical properties of each part is increased, thereby degrading the quality of the needle punched nonwoven product. Therefore, in manufacturing a needle punched nonwoven fabric using polypropylene long fibers, the temperature and pressure of the calender are very important factors, and the temperature of the calender roll should be maintained at 90 to 150 ° C, more preferably at 100 to 120 ° C. You must proceed. In addition, it is preferable to maintain the pressure of the calender roll at 70 N / mm or less, and preferably proceed to 20 to 50 N / mm.

In addition, the composition ratio of the outer layer spunbond long fibers and the inner layer melt blown constituting the prebonded product may be in the range of 0 to 90%, and the weight ratio may be freely changed according to the use or application of the product. It is possible. The surface layer made of long fibers has an average diameter of 10 to 30 microns, and the middle layer forms a meltblown ultrafine layer having an average diameter of 0.1 to 10 microns.

(2) two-step process:

By applying the prebonded product produced in the first step to the needle punching process is a process of forming the entanglement of the fibers not thermally fused.

Unwinding the prebonded product roll produced in the first step onto the conveyor belt of the needle punching process to advance the web. The prebonded product on the conveyor belt is interwoven between fibers by a number of needles, and is manufactured in the form of a final needle punched nonwoven fabric.

When the prebonded spunbonded nonwoven fabric produced in the first step process is second applied to the needle punching process, the density of the needle is generally 30 to 200punch / cm 2, and preferably 50 to 100punch / cm 2. Needle depth for inter-fiber entanglement is usually from 5 to 30 mm, preferably from 10 to 15 mm. And the needle movement speed (stroke) is usually 300 to 1000 stroke / min, more preferably 400 to 700 stroke / min. The above needle punching conditions provide the best mechanical properties of the nonwoven fabric for civil engineering materials of the present invention.

In general, needle punched nonwoven fabrics usually have a weight of 50 to 1000 g / m 2, preferably 100 to 500 g / m 2, more preferably 150 to 400 g / m 2. Produced by weight. If the weight is less than 50 g / m 2 or more than 1000 g / m 2 it is not easy to commercial production is not preferable.

The polypropylene long fiber needle punching nonwoven fabric of the present invention manufactured in the above manner can be easily manufactured, and the manufacturing cost is not only low, but also excellent in recyclability and eco-friendliness.

Hereinafter, the present invention will be described in more detail with reference to Examples and Comparative Examples. However, the following examples are only for illustrating the present invention in detail, and the scope of the present invention is not limited.

Example 1

1. Spunbond long fiber nonwoven fabric was spun by spinning 10-30 μm polypropylene long fibers, and a meltblown short fiber nonwoven fabric of polypropylene of 0.1-10 μm was formed in the middle layer.

2. The spunbond long fiber nonwoven fabric and the meltblown short fiber nonwoven fabric were laminated to form a nonwoven fabric laminate having a density of 200 g / m 2, forming a five-layer structure. At this time, the density of the meltblown layer included is 60g / ㎡.

3. The nonwoven fabric laminate was heat-sealed at a temperature of 120 ° C., a pressure of 20 N / mm, which is the existing production condition of a calender, and then needle punched to prepare a non-adhesive nonwoven fabric.

Comparative Example 1

The density of the melt blown was 5 g / m 2, except that the sorbent nonwoven fabric was prepared in the same manner as in Example 1.

Comparative Example 2

The nonwoven fabric laminate was subjected to the same method as in Example 1 except that the nonwoven fabric laminate was heat-sealed at a calendar temperature of 100 ° C. to produce an oil-absorbent nonwoven fabric.

Comparative Example 3

The nonwoven fabric laminate was heat-sealed at a calendar temperature of 160 ° C. to prepare a non-adsorbent nonwoven fabric as in Example 1 above.

Experimental Example

As described above, a physical property test was performed on the non-adsorbent nonwoven fabric prepared according to Examples and Comparative Examples, and the results are shown in Table 1 below.

Breaking strength (kg / 5cm): Samples were taken from the sorbent nonwoven fabrics prepared according to Examples and Comparative Examples, and the samples were measured 16 times over the full width using an elongation measuring device.

Oil absorption amount (g / g): A sample was taken by the same method as the thickness implementation, and the oil absorption amount was measured according to the method described by the Korea Coast Guard Examiner (2008-04).

division Example 1 Comparative Example 1 Comparative Example 2 Comparative Example 3 existing
Absorbent Breaking strength (kg / 5cm) 17.8 22.7 20.4 14.3 4.8 Oil absorption (g / g) 14.1 11.3 14.0 12.5 10.1 weight
(g) Spun bond 140 195 140 140 - Melt blown 60 5 60 60 200 Calendar
Condition Temperature (℃) 120 120 100 150 - Pressure (N / mm) 20 20 20 20 -

Claims (5)

In order to maintain the form stability of the spun bond, the polypropylene having a diameter of 10 to 30 microns is thermally fused by applying a temperature of 100 to 120 ° C. and a calender pressure of 20 to 50 N / mm in order to melt-spun polypropylene. Forming a prebonding web, wherein the prebonding web is comprised of at least five layers and is comprised of an outer layer spunbond filament and an inner layer meltblown;
Then, needle punching was carried out on the prebonding web with a needle density of 30 to 200punch / cm 2, needle depth of 5 to 30mm, and needle movement speed of 300 to 1000 stroke / min. Method for producing a long fiber polypropylene needle punched nonwoven fabric having excellent mechanical strength, characterized in that.
The method of manufacturing a long fiber polypropylene needle punched nonwoven fabric having excellent mechanical strength according to claim 1, wherein the melt blown, which is an inner layer of the nonwoven fabric, comprises a melt blown of 0.1 to 10 microns.
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