CN1093185C

CN1093185C - UV resistant elastomeric monofilament

Info

Publication number: CN1093185C
Application number: CN98803054A
Authority: CN
Inventors: E·J·赛菲尔特
Original assignee: EI Du Pont de Nemours and Co
Current assignee: EIDP Inc
Priority date: 1997-03-04
Filing date: 1998-03-03
Publication date: 2002-10-23
Anticipated expiration: 2018-03-03
Also published as: CN1249787A; DE69807443T2; JP2001508844A; EP0964944A1; WO1998039503A1; EP0964944B1; JP3974189B2; DE69807443D1

Abstract

UV resistant elastomeric monofilament having a sheath and a core which each contain in the range of about 1.8 % up to about 3.0 % by wt. carbon.

Description

The elastic body single filament and the fabric of the UV resistant that improves the method for elastic body single filament UV resistant performance and obtain by this method

Background of invention

The present invention relates to elastomeric polyester monofilament, especially a kind of coextrusion bicomponent monofilament improvement method to the resistance of the degraded that is exposed to ultraviolet (UV) light and causes.More particularly, the present invention relates to the uvioresistant elastic body single filament of an epitheca and a core, both contain separately the ultraviolet protection amount, scope is the carbon of about 1.8%～3.0% (weight).

U.S. Patent No. 4,469,739 described a kind of partly from elastic body single filament and the woven furniture backing material of orientation partly made from natural yarns or synthetic yarn.This elastomer is knitted on a first direction, and yarn is knitted on a second direction vertical with first direction, subsequently resultant woven fabric is carried out heat setting.According to an embodiment, the thermoplastic elastomer (TPE) silk is the bicomponent sheath/core monofilament of coextrusion, and the elastomeric fusing point that wherein constitutes crust is than low at least 20 ℃ of core elastomer.Before this, a kind of like this woven fabric is limited to the purposes that those can not be exposed to ultraviolet light such as the purposes as the seat backing material always, for example, those wherein this fabric can prevent that with other one deck ultraviolet light directly or the purposes that covers of the material of this fabric of mediate contact.The physical property that ultraviolet light has been shown the elastic body single filament component that can cause this woven fabric, particularly this fabric reduces greatly.

Brief summary of the invention

Following discovery is resided in the present invention: comprise the resistance of the degraded that the bi-component elastomer monofilament polyester of an epitheca and a core causes directly or indirectly being exposed to ultraviolet light, and can be by obtaining substantive the improvement in the elastomeric material that the carbon of a certain ultraviolet protection amount is mixed this epitheca and this core.Therefore, according to an aspect, the present invention is a kind of bi-component elastomer monofilament that a core and an epitheca arranged improves its ultraviolet resistance by the carbon that mixes a certain ultraviolet protection amount in described core and in the described epitheca a method.

According to another aspect, the present invention is a kind of modified bi-component elastomer monofilament of the epitheca of being made up of second polyester elastomer basically a core of being made up of first polyester elastomer basically and, described second (being epitheca) elastomer has the fusing point than low at least 20 ℃ of first elastomer, wherein, this improvement comprises in described first elastomer and mix the carbon of a certain ultraviolet protection amount in described second elastomer, for example the carbon that prescribed particle size is arranged of a certain quantity in about 1.8%～3.0% (weight) scope in general.In a better embodiment, carbon is to mix like this in each elastic composition: prepare a kind of dense preparation that comprises 75% (weight) this elastomer and 25% (weight) carbon earlier, to the elastomeric ratio of 90% (weight) raw material the dense preparation of this carbon/elastomer evenly is admixed in the corresponding raw material elastomer with the dense preparation of 10% (weight) then.The ultimate density of carbon all should be in above-mentioned scope in core and the epitheca elastomeric component separately, yet the concentration of carbon is about 2.5% (weight) for optimum.

According to another aspect again, the present invention is the woven backing material of a kind of improved orientation, furniture backing material for example, be included on the first direction and crossed yarn on a second direction vertical with this first direction, wherein the yarn on the first direction comprises from copolyether ester, select in one group that polyurethane and polyesteramide are formed, the oriented thermoplastic elastomer monofilament that skin/core configuration is arranged, and crust is the elastomer of a kind of its fusing point than low at least 20 ℃ of elastomeric fusing point in the core, and the yarn on the second direction comprises a kind of inelastic body, natural or synthetic yarn, this improvement comprises in described crust and mix the carbon of a certain ultraviolet protection amount in described core, for example a certain quantity in about 1.8%～about 3.0% (weight) scope in general, the carbon of better 2.5% (weight).

When like that carbon both having been introduced when also introducing in the crust in the core as described, resulting elastic body single filament with only mix in the crust when carbon or compare the resistance of substantially having improved the degraded that ultraviolet light is caused when not mixing.

Describe in detail

The thermoplastic elastomer (TPE) that uses in skin of the present invention/core monofilament, can be a kind of conjugated polyether ester elastomer, a kind of polyurethane elastomer or a kind of polyesteramide elastomer of being orientated, wherein the fusing point of sheath component is significantly less than the fusing point of core component, and is promptly low at least about 20 ℃ than elastomeric fusing point in the core.Better thermoplastic elastomer (TPE) is a kind of as U.S. Patent No. 3,651 used according to the present invention, one or more described conjugated polyether ester elastomers in 014,3,763,109,3,766,146 and 4,136,715, and the content of these patents is classified this paper list of references as.Basic composition is by ester bond a plurality of repetition line style long-chains and short-chain ester units from beginning to end of such copolymerized ether ester polymer, its chemical constitution is well-known for the personnel that are familiar with this gate technique.

In better embodiment of the present invention, the crust of this monofilament is Hytrel ^4056 polyetherester block copolymers, and the core of this monofilament is Hytrel ^7246 polyetherester block copolymers (commercial can be, Wilmington,State of Delaware, US) available from E.I.Du Pont Company.This monofilament is to use such as U.S. Patent No. 5,313, and such technical known conventional process allows core and crust come out to prepare by the mould co-extrusion from molten thermoplastic polymers described in 909.The composition of this monofilament is generally about 75% core and about 25% crust, can change in broad scope although constitute the elastomeric definite percentage of this core and this crust.

The carbon that uses among the present invention can be any commercially available carbon black, for example have " carefully " arrive " in " the Vulcan  9A32 of granularity or Elftex12 (can available from Cabot company).The granularity that so-called " carefully " means carbon black generally in about 19nm scope, and " in " granularity mean carbon granule particle size range can from " carefully " until about 37～41nm.More fine-grained carbon tends to provide the higher level protection to ultraviolet degradation, but thinner particle can become and more be difficult to be dispersed in the polymer, and tends to absorb moisture quickly than medium or thick carbon granule.Regardless of granularity, be preferably, this carbon black will have the alap rank of a kind of hydroscopicity.

In order to obtain optimum, important is that this carbon black will be evenly distributed in skin and the core polymers compositions.Have been found that by preparing a kind of elastomeric carbon/elastomer of raw material separately " dense preparation " that comprises 25% (weight) carbon and 75% (weight) earlier, just can reach a kind of so even distribution.The carbon component is for example mixed strongly in Farrell continuous mixer or the Banbury mixer and is distributed in the corresponding fused raw material elastomer at for this purpose a kind of machine of and design, with a melt cutting machine or Cast Strip bar cutting machine this dense preparation is cut into pellet then.In a kind of better embodiment of the present invention, the dense preparation of this carbon containing is dried to a certain low humidity level in 0.005%～0.02% (weight) scope before in it being admixed to corresponding raw material elastomer in advance, although drying also can be carried out after fusion.Have been found that low moisture content has improved the machinability of the raw polymer of carbon containing.Then, will be the dense preparation of predrying carbon containing of pellet form and also be the core of pellet form and the premix of raw polymer separately of crust, to guarantee the overall evenly distribution of the dense preparation of this carbon containing in whole raw polymer granule mixture.Then, each raw polymer granule mixture pushes in a single screw rod or twin (double) screw extruder, wherein, the fusion of these compositions and further mixing can be carried out under molten state, melt-stoichiometry enters in the spinneret orifice system simultaneously, at this, forming skin component and core component for this purpose in the heating spinneret orifice of design.The single fiber of fusion that leaves spinneret orifice is cooled, and carries out the back orientation then on machine direction, to give this monofilament with intensity.Then, the orientation monofilament around to spool.

Test

Then, (promptly the crust of this monofilament is Hytrel  4056 polyetherester block copolymers the monofilament sample by the above production, and the core of this monofilament is Hytrel  7246 polyetherester block copolymers) put in the xenon light source standard aging testing instrument (that is, one " laboratory test cycle ") into and ultraviolet light is exposed to 200 and 400KJ/m ²Level.This cycle carries out according to SAE J1885.The control sample of each product batch number is all kept and is protected, in order to avoid be exposed to any ultraviolet light.In table subsequently, these control samples abbreviate " O " KJ/m as ²Expose sample to the open air.

After being exposed to ultraviolet light, all samples (wherein each lot number has 3 samples) all carries out extension test on an Instron cupping machine.10 inches of sample in measurement length (25.4cm), crossing grip holder speed setting is at 10 inch per minute clocks (25.4cm/min), and all samples is all 23 ℃, 40%RH (relative humidity) preliminary treatment 24 hours.Table 1 subsequently shows the tensile property to each sample record.

During visual investigation before the sample test, observe the sample that is exposed to ultraviolet light,, crackle and surface checking all occur in core He in the crust except that those contain the sample of 2.5% carbon.These samples have very bright and smooth surface, and outward appearance is identical with control sample.Contain the sample of 2.5% (weight) carbon according to the present invention, when with unexposed (0KJ/m ²) sample is relatively the time, demonstrate fracture load, tensile strength and especially aspect the extension at break difference very little.

Table 1

Stretch test result (monofilament)

Monofilament is formed (% carbon black)	Ultraviolet exposure (KJ/m ²)	Fracture load newton	Tensile strength (Mpa)	Percentage elongation (%)	Toughness kPa
Monofilament is formed (% carbon black)	Ultraviolet exposure (KJ/m ²)	Fracture load newton	Tensile strength (Mpa)	Percentage elongation (%)	Toughness kPa	Core 0 skin 0	0 200 400	27.6 7.6 5.8	294.4 85.5 64.1	87.3 24.8 22.9	151.7 13.1 9.7
Core 0 skin 0.4	0 200 400	26.7 8.9 4.4	269.6 90.3 44.8	101.4 27.4 13.9	157.2 15.2 4.8	Core 0 skin 0	0 200 400	27.6 7.6 5.8	294.4 85.5 64.1	87.3 24.8 22.9	151.7 13.1 9.7
Core 0 skin 0.4	0 200 400	26.7 8.9 4.4	269.6 90.3 44.8	101.4 27.4 13.9	157.2 15.2 4.8	Core 0.4 skin 0.4	0 200 400	25.4 10.2 9.3	250.3 101.4 95.1	122.7 35.5 31.2	180.6 22.1 17.9
Core 0.75 skin 0.4	0 200 400	23.6 10.7 10.2	237.9 105.5 102.7	115.0 37.9 35.5	164.8 24.1 22.8	Core 0.4 skin 0.4	0 200 400	25.4 10.2 9.3	250.3 101.4 95.1	122.7 35.5 31.2	180.6 22.1 17.9
Core 0.75 skin 0.4	0 200 400	23.6 10.7 10.2	237.9 105.5 102.7	115.0 37.9 35.5	164.8 24.1 22.8	Core 1.5 skins 0.4	0 200 400	23.1 11.1 11.5	231.7 111.7 113.8	119.9 44.4 47.2	170.3 32.4 36.5
Core 2.5 skins 0.4	0 200 400	23.1 11.6 11.6	231.0 116.5 113.1	122.8 54.0 56.6	173.1 44.8 44.8	Core 1.5 skins 0.4	0 200 400	23.1 11.1 11.5	231.7 111.7 113.8	119.9 44.4 47.2	170.3 32.4 36.5
Core 2.5 skins 0.4	0 200 400	23.1 11.6 11.6	231.0 116.5 113.1	122.8 54.0 56.6	173.1 44.8 44.8	Core 0.75 skin 0.75	0 200 400	24.5 11.1 10.7	240.6 109.6 106.2	118.1 36.6 34.4	173.1 24.8 22.1
Core 1.5 skins 1.5	0 200 400	25.4 15.6 12.0	242.7 149.6 113.1	128.8 81.5 47.9	186.8 82.0 35.9	Core 0.75 skin 0.75	0 200 400	24.5 11.1 10.7	240.6 109.6 106.2	118.1 36.6 34.4	173.1 24.8 22.1
Core 1.5 skins 1.5	0 200 400	25.4 15.6 12.0	242.7 149.6 113.1	128.8 81.5 47.9	186.8 82.0 35.9	Core 2.5 skins 2.5	0 200 400	22.7 22.2 19.1	225.5 207.5 178.6	122.4 133.4 117.1	169.6 168.2 132.4

Toughness is defined as the area under the load-deformation curve.

The woven fabric result of the test

The woven backing material of orientation of the present invention is a kind of woven fabric, its configuration is included on the first direction and crossed yarn on a second direction vertical with this first direction, wherein the yarn on the first direction comprises from copolyether ester, select in one group that polyurethane and polyesteramide are formed, skin/core configuration is arranged, and crust is the elastomeric oriented thermoplastic elastomer monofilament of a kind of its fusing point than low at least 20 ℃ of elastomeric fusing point in the core, and the yarn on the second direction can be identical with the yarn on the first direction, perhaps as in the following example, they comprise a kind of inelastic body, natural or synthetic yarn.Such yarn can include but not limited to cotton, polyester, nylon, rayon, acrylic, modified propylene nitrile system and polyolefin yarn.This fabric-supported material can look like U.S. Patent No. 4,469, such preparation described in 739 (content of this patent is classified this paper list of references as, and can be used as Dymetrol  board woven, the heat-sealing elastic fabric (E.I.Du Pont Company, Wilmington,State of Delaware, US) commercial.The sample of Dymetrol  fabric also is exposed to ultraviolet light according to SAEJ1885 in an aging testing instrument (Weatherometer ), and carries out physical testing on an Instron cupping machine.This fabric is a kind of 14 weft yarn co-extrusion knockouts/skin elastic body single filament tissue, warp of polyester satin weave, and all samples all stretches on the monofilament direction.

In each case, this satin weave fabric is based on a side of polyester and all should place to such an extent that make each side can both face light source in this test based on a side of monofilament.Be called " in vain " side and " deceiving " side in the test result that report these both sides in following table 2.

Table 2

The woven fabric test result

Monofilament is formed (% carbon)	Fabric sample one side in the face of light source	Exposure levels (KJ/m ²)	Fracture load newton	Elongation at break (%)	Toughness kPa
Monofilament is formed (% carbon)	Fabric sample one side in the face of light source	Exposure levels (KJ/m ²)	Fracture load newton	Elongation at break (%)	Toughness kPa	Skin 0.4 core 0	-black and white	0 451.2 451.2	232.6 32.0 52.0	82.7 3.0 10.5	707.4 2.8 22.8
Skin 2.5 cores 2.5	-black and white	0 451.2 451.2	202.4 187.7 194.4	102.0 88.8 96.8	832.2 695.0 766.0	Skin 0.4 core 0	-black and white	0 451.2 451.2	232.6 32.0 52.0	82.7 3.0 10.5	707.4 2.8 22.8

Fabric sample width: 2.54cm (just in time 14 strands of monofilament).The ultraviolet exposure test is carried out according to SAE J1885.Iustron: testing length 10.16cm; Crossing grip holder speed 25.4cm/min.Test condition: 23 ℃, 50%RH.Test: each 3 samples of light exposure test, results averaged.Monofilament is formed: core Hytrel  7246; Skin Hytrel  4056; Monofilament is made up of 75% (volume) core and 25% (volume) skin.

These results show, owing to add 2.5% carbon in the skin component of the monofilament that constitutes this fabric and core component, the intensity of this fabric and integrality can remain to 451.2KJ/m at least in aging testing instrument (Weatherometer ) ²The ultraviolet exposure level.For example, consider " deceiving " sample, wherein the satin weave fabric sample directly is exposed to xenon source based on a side of monofilament in this aging testing instrument (Weatherometer ), can see, area under the load-deformation curve is thereby represents the toughness of the combination of fracture load and percentage elongation to improve 25,100%.

Outside automobile fabric aging testing instrument  test result

The ultraviolet light test is also carried out in an aging testing instrument (Weatherometer ), and wherein this monofilament suffered from according to the standard external automobile fabric cycle of SAE J1960 test procedure to sample humidification at intermittence.Stretching the results are shown in the following table 3.

Table 3

Monofilament is formed (% carbon)	Ultraviolet exposure (KJ/m ²)	Fracture load newton	Percentage elongation (%)	Toughness kPa
Monofilament is formed (% carbon)	Ultraviolet exposure (KJ/m ²)	Fracture load newton	Percentage elongation (%)	Toughness kPa	Skin 0.4 core 0	0 451.2	26.2 10.2	103 34	140.6 21.4
Skin 2.5 cores 2.5	0 451.2	24.5 20.9	123 122	162.0 142.0	Skin 0.4 core 0	0 451.2	26.2 10.2	103 34	140.6 21.4

Claims

1. a raising includes the method for UV resistant performance of the bi-component elastomer monofilament of a core and a crust, described core basic composition is a kind of first polyester elastomer, described crust basic composition is second polyester elastomer of a kind of its fusing point than low at least 20 ℃ of first elastomer, described core and crust elastomer are to select one group that forms from copolyether ester, polyurethane and polyesteramide, and this method comprises in described core and mix the carbon of the ultraviolet protection amount in 1.8%～3.0% weight range in described crust.

2. the method for claim 1, wherein this carbon is to mix described core and described crust elastomeric component like this in the middle of separately: the dense preparation of carbon/elastomer that forms every kind of component earlier, wherein comprise described elastomer each 75% weight and carbon 25% weight, make this dense preparation be dried to a certain low humidity level in 0.005%～0.02% weight moisture scope, with the dense preparation of 10% weight the elastomeric ratio of 90% weight raw material is admixed to the dense preparation of resulting described carbon/elastomer in the corresponding raw material elastomer equably then, thereby makes resulting, the concentration of carbon is all in the scope of 1.8%～3.0% wt carbon in described core and each elastomeric component of described crust.

3. the method for claim 2, wherein, the dense preparation of carbon/elastomer is admixed in each self-corresponding raw polymer earlier equably, makes resulting raw polymer/dense preparation admixture drying then, reaches 0.005%～0.02% weight range until the moisture content of this dense preparation.

4. improved bi-component elastomer monofilament, its core is made up of a kind of first polyester elastomer basically, and its crust is made up of a kind of second polyester elastomer basically, the described second elastomeric fusing point is than low at least 20 ℃ of first elastomer, described core and described crust elastomer are to select one group that forms from copolyether ester, polyurethane and polyesteramide, and wherein this improvement comprises in described first elastomer and mix the carbon of the ultraviolet protection amount in 1.8%～3.0% weight range in described second elastomer.

5. the monofilament of claim 4, wherein this carbon includes the particle of granularity in 19nm～45nm scope.

6. woven backing material of improved orientation, it is a kind of fabric that is included on the first direction with the configuration of crossed yarn on a second direction vertical that has with this first direction, wherein, yarn on this first direction comprises from copolyether ester, polyurethane, select in form with polyesteramide one group, the oriented thermoplastic elastomer monofilament that skin/core configuration is arranged, and described crust is the elastomer of a kind of its fusing point than low at least 20 ℃ of the elastomeric fusing point that constitutes described core, and that the yarn on this second direction comprises is a kind of stiff, natural or synthetic yarn, this improvement comprises in described first elastomer and mix the carbon of the ultraviolet protection amount in 1.8%～3.0% weight range in described second elastomer.

7. the fabric of claim 6, wherein, yarn on this second direction comprises oriented thermoplastic elastomer monofilament that select, that skin/core configuration is arranged a group that forms from copolyether ester, polyurethane and polyesteramide, and described sheath is the elastomer of a kind of its fusing point than low at least 20 ℃ of the elastomeric fusing point that constitutes described core, and the carbon of this ultraviolet protection amount is evenly distributed on outer intracutaneous and in-core with a certain concentration in 1.8%～3.0% weight range.