KR102144067B1 - Polyester conjugated fiber including Polyethylenefuranoate - Google Patents

Abstract

The present invention relates to a polyester-based composite fiber containing a polyethylene pranoate resin containing a polyethylene pranoate resin, and is formed of a cis-core composite fiber as an embodiment, and the core portion is formed of a polyester-based resin, The sheath portion relates to a polyester-based composite fiber containing a polyethylene pranoate resin formed of a polyethylene pranoate resin.

Description

Polyester conjugated fiber including Polyethylenefuranoate}

The present invention relates to a polyester-based composite fiber containing polyethylene pranoate, and to a polyester-based composite fiber containing polyethylene pranoate polymerized with furandicarboxylic acid and ethylene glycol, a material derived from biomass.

The discovery and application of eco-friendly materials has been steadily progressing as global warming accelerates. Polymers produced from fossil fuels, represented by petroleum, have a limit in their reserves, and the emission of carbon dioxide is high, so it is urgent to replace them with eco-friendly materials. However, as products have been developed with a focus on biodegradability, existing eco-friendly materials have a disadvantage that there are many areas that need improvement in actual commercialization due to the inherent properties of the material, such as hydrolysis, poor radioactivity, and hard touch.

Recently, the development of textile products using eco-friendly materials using biomass has been actively progressing, and is being released as a product. Biomass is a generic term for organic substances possessed by living organisms in nature, but may refer to organic raw materials that can be specially converted to energy or substituted for petrochemical-derived substances through a substance cycle.

Petroleum, which accounts for a large portion of the current energy source, is expected to be depleted in the near future, and with the second oil shock that began at the end of 1978, studies on the use of biomass have become active in countries around the world. .

Due to these social phenomena, the environmental burden is low in the textile industry, and various fibers and textile materials are attracting attention by using biomass.

For example, polytrimethylene terephthalate (PTT), a polyester-based compound, can be prepared by esterification and condensation polymerization of terephthalic acid (TPA) or an ester-forming derivative thereof and 1,3-propanediol. And a technology for obtaining 1,3-propanediol from biomass is being developed.

In this regard, U.S. Patent No. 8,415,496 synthesizes terephthalic acid from muconic acid, a biomass through the following route, and replaces terephthalic acid, a raw material based on petrochemicals, as a raw material derived from biomass. I have disclosed the technology to do.

Polyethylenefuranoate (PEF) is in the spotlight as a next-generation ester-based polymer material that can replace polyester (PET), which is currently widely used, and this is where the existing polyester is a petrochemical raw material, terephthalic acid (TPA). ), while polyethylene pranoate is an eco-friendly resin that applies furandicarboxylic acid (FDCA) produced by dehydration, oxidation, and refining processes of sugar syrup extracted from plants.

Examples of resins commercialized as eco-friendly resins similar to this include biopolyester polymerized using ethylene glycol derived from biomass, or polytrimethylene terephthalate (PTT) polymerized with propanediol (PDO) extracted from corn. The technology of yarns made using these has already been commercialized, but there is a problem that they are not 100% biomass.

Japanese Patent Laid-Open No. 2016-531186 discloses a processing method and such a method for providing articles such as containers formed of polyethylene pranoate and polyethylene pranoate, but various products using polyethylene pranoate are not disclosed. Without.

The present invention was invented to solve the above problems, and an object of the present invention is to provide a polyester-based composite fiber using a polyethylene pranoate (PEF) resin polymerized with a material derived from biomass.

In addition, the polyester-based composite fiber is to provide a polyester-based composite fiber containing a polyethylene pranoate resin formed of a polytrimethylene terephthalate (PTT) resin and a polyethylene pranoate (PEF) resin.

In addition, the polytrimethylene terephthalate (PTT) resin is to provide a polyester-based composite fiber containing a polyethylene pranoate resin formed using a biomass polytrimethylene terephthalate resin produced through raw materials extracted from corn. The purpose.

The present invention provides a polyester-based composite fiber containing a polyethylene pranoate resin, characterized in that it contains a polyethylene pranoate resin.

In addition, the polyester-based conjugated fiber is formed of a core portion and a sheath portion, the core portion is formed of a polyester resin, the sheath portion is formed of polyethylene pranoate resin, characterized in that the poly Provides ester-based composite fibers.

In addition, the polyester-based resin provides a polyester-based composite fiber containing a polyethylene pranoate resin, characterized in that the polyester-based resin derived from biomass.

In addition, the polyester resin is a biomass-derived polytrimethylene terephthalate (PTT) resin, it provides a polyester-based composite fiber containing a polyethylene pranoate resin, characterized in that.

In addition, the sheath portion and the core portion provides a polyester-based composite fiber containing a polyethylene pranoate resin, characterized in that the weight ratio of 1:9 to 9:1.

As described above, the polyester-based composite fiber using the polyethylene pranoate (PEF) resin according to the present invention has an affinity effect by using a polyethylene pranoate (PEF) resin polymerized with a material derived from biomass.

In addition, the polyester-based composite fiber is formed of biomass polytrimethylene terephthalate (PTT) resin and polyethylene pranoate (PEF) resin produced through raw materials extracted from corn to provide a polyester-based composite fiber of biomass. It works.

Hereinafter, a preferred embodiment of the present invention will be described in detail. First, in describing the present invention, detailed descriptions of related known functions or configurations are omitted so as not to obscure the subject matter of the present invention.

The terms'about','substantially', etc. of the degree used in this specification are used at or close to the numerical value when manufacturing and material tolerances specific to the stated meaning are presented, and To assist, accurate or absolute figures are used to prevent unfair use of the stated disclosure by unscrupulous infringers.

In the present invention, biomass-derived refers to organic raw materials obtained from natural biomass, not raw materials produced from petrochemical origin.

The present invention relates to a polyester-based composite fiber containing a polyethylene pranoate resin, characterized in that it contains a polyethylene furanoate (Polyethylenefuranoate) resin.

The polyethylene pranoate resin is a polymer resin prepared by polymerizing furandicarboxylic acid (FDCA) prepared using sugar syrup extracted from plants and ethylene glycol derived from biomass.

The present invention is a polyester-based composite fiber containing the polyethylene pranoate resin as described above, and the polyester-based composite fiber is in various forms such as side-by-side composite fiber, sheath-core composite fiber, island-in-sea composite fiber, etc. Can be formed.

As an example of the polyester-based composite fiber, it may be a sheath-core composite fiber composed of a core portion and a sheath portion.

The core portion of the sheath-core composite fiber may be formed of a polyester-based resin, and the sheath portion may be formed of a polyethylene pranoate resin.

The polyester-based resin will be able to form the polyester-based composite fiber of the present invention into a 100% biomass-derived polyester-based composite fiber by using a biomass-derived polyester-based resin.

The biomass-derived polyester resin is biomass-derived polyethylene terephthalate (PET) resin, biomass-derived polytrimethylene terephthalate (PTT) using biomass-derived terephthalic acid, 1,3-propanediol, ethylene glycol, etc. You could use resin, etc.

The polyester-based composite fiber may form a composite fiber in a weight ratio of 1:9 to 9:1 of the sheath part and the core part.

As in the above, the core part is formed of a polyester-based resin, and the sheath part is formed of a polyethylene pranoate resin, and the polyester-based composite fiber is a polyester-based resin, a melting step of melting the polyethylene pranoate resin, and the melted polyester-based resin As a core part, it will be possible to manufacture including a spinning step of composite spinning of a polyethylene pranoate resin to a sheath part, and a stretching step of stretching the spun composite fiber.

Polyester-based composite fibers made of polyester-based resins and polyethylene pranoate resins using the above biomass-derived raw materials can be prepared like general polyester-based composite fibers, and the melting temperature of the melting step is the core part and the sheath. It may be adjusted according to the melting point of the minor resin.

The difference in melt viscosity between the two components of the core part and the sheath part can be varied in temperature conditions of the extruder of each component, and the spinning temperature is preferably controlled within the range of 250 to 290°C.

In the spinning step, the spinning speed can be spun at 500 to 4,000 m/min, and in the stretching step, the stretching temperature can be carried out at 60 to 110°C, and the draw ratio can be appropriately adjusted according to the purpose of use of the polyester composite fiber. I will be able to.

As described above, the polyester-based composite fiber containing the polyethylene pranoate resin according to the present invention may be made of fibers and formed into fabrics such as woven fabrics, knitted fabrics, and non-woven fabrics, and thus may be used in various industrial fields.

Hereinafter, an example of a method for producing a polyester-based composite fiber containing a polyethylene pranoate resin according to the present invention is shown, but the present invention is not limited to the examples.

Example 1 to 6

Using biomass-derived polytrimethylene terephthalate resin and polyethylene pranoate resin, a polyester-based composite fiber containing the polyethylene pranoate resin according to the present invention was prepared through a cis-core type general complex spinning.

Table 1 shows the configuration, spinning conditions, and stretching conditions of the sheath portion and the core portion of the composite fiber according to the embodiment.

◎ Property evaluation method

The strength and elongation of the polyester composite fibers containing the polyethylene pranoate resins of Examples 1 to 6 prepared above were measured and shown in Table 1.

* Strength and elongation are measured by the test method of ASTM D 3822.

division Example 1 Example 2 Example 3 Example 4 Example 5 Example 6 Polymer Core part
(weight%) PTT
(70) PTT
(50) PTT
(30) PTT
(10) PTT
(90) PEF
(50) Sheath
(weight%) PEF
(30) PEF
(50) PEF
(70) PEF
(90) PEF
(10) PTT
(50) Radiation condition Radiation temperature
(℃) 270 270 270 270 270 270 Spinning speed
(m/min) 800 900 1,000 1,000 700 700 Stretching conditions Stretching temperature
(℃) 90 90 90 90 90 - Draw ratio 2 2.7 3 3.1 1.2 - Properties Strength (g/D) 3.18 2.75 2.44 1.98 3.24 - Elongation (%) 65.4 55.1 43.6 20.1 67.8 -

When the core part is formed of polyethylene pranoate resin as in Example 6 in Table 1, due to the difference in intrinsic viscosity between the polytrimethylene terephthalate resin and the polyethylene pranoate resin, the polyethylene pranoate resin in the core part is polytrimethylene terephthalate in the sheath part. The resin was pushed out and continuous spinning was not performed due to severe howitzing in the spinneret. However, as in Examples 1 to 5, when the core part was formed of polytrimethylene terephthalate resin and the sheath part was formed of polyethylene pranoate resin, it had low viscosity. The polyethylene pranoate resin was discharged from the spinneret in the form of enclosing a polytrimethylene terephthalate resin having a high viscosity, thereby enabling fiber formation.

Claims (5)

A polyester-based composite fiber containing polyethylene pranoate resin,
The polyester-based composite fiber is formed of a core portion and a sheath portion,
The core portion is formed of biomass-derived polytrimethylene terephthalate (PTT),
Polyester-based composite fiber containing a polyethylene pranoate resin, characterized in that the sheath portion is formed of a polyethylene pranoate resin.
delete delete delete The method of claim 1,
Polyester composite fiber containing a polyethylene pranoate resin, characterized in that the weight ratio of the sheath portion and the core portion 1:9 to 9:1.