CN110528117A - A kind of elastomeric overmold line - Google Patents

Abstract

The present invention provides a kind of elastomeric overmold lines, comprising: cortical material and core wire, the cortical material are coated on outside core wire, wherein at least partly region crystal phase of the cortical material is mutually separated with amorphous phase generation.Elastomeric overmold line of the present invention, cortical material crystal phase is mutually separated with amorphous phase transmission, it realizes cortex radial contraction, combined with core wire axial shrinkage (being radially expanded), cortex is combined closely with core wire, to improve intensity, buckle resistance, scratch resistance wearability and elastic restoration ratio, stretch, bending and compression rebound rate are more than 99%；When stretching, bend and squeezing, core wire is not easily stripped with cortex.

Description

A kind of elastomeric overmold line

Technical field

The present invention relates to a kind of fiber more particularly to a kind of elastomeric overmold lines.

Background technique

The long filament or yarn of higher-strength are the preferred materials of many shoes, outdoor goods, knapsack etc.；Usual long filament or There is easily hook silk, not wear-resisting, non-watertight etc. in use and lack in the multifilament that yarn is made of the tiny monofilament of many roots Point.Current solution is usually impregnation, coating or coating processing to be carried out to textile, but after processing, textile is distinctive Interfibrous gap is capped, sacrifices gas permeability, flexibility, gloss, lines sense of textile etc., and between coating and fabric Often because difference in shrinkage influences its usability, stickiness etc..If multifilament is changed into the monofilament of same thickness, although can solve The problem of hooking silk, but monofilament has Boardy Feeling, poor, not resistant to bending, the non-water-tight defect of comfort.

Have to solve the above problems, carrying out the method that external sheath waterproof layer prepares covering thread as core wire using high-strength multifilament Production and application, can not only retain the soft advantage of original multifilament in this way, but can overcome its easily hook silk, it is not wear-resisting, do not prevent The shortcomings that water.Currently, the raw material that cladding waterproof layer uses also has patented technology using PE, PP etc., these materials based on PVC Since resilience is poor, lead to that covering thread is resistant to bending, clad is loosely easily peeled off in conjunction with core wire, especially PVC poor processability needs a large amount of processing aid, such as plasticizer.

Summary of the invention

In view of the defect of above-mentioned art methods, it is high, resistant to bending, high-intensitive simultaneous that the present invention provides a kind of elastic recovery rate Has the elastomeric overmold line of the characteristics such as waterproof.

The present invention provides elastomeric overmold line, comprising: and cortical material and core wire, the cortical material are coated on outside core wire, In, at least partly region crystal phase of the cortical material is mutually separated with amorphous phase generation.

At least partly region crystal phase of the present invention is mutually separated with amorphous phase generation, is preferably referred to along its length, It is at least partly alternately present before and after amorphous phase and at least partly crystal phase, and/or at least partly crystalline phase distribution is in different layers.

In an advantageous embodiment, in cortical material of the present invention, the partial region is at least 40% region, It is more selected as at least 60% region, is more selected as at least 80% region.

In an advantageous embodiment, it can be bonding between the cortical material and core wire or do not bond.

In an advantageous embodiment, the cortical material is coated on core wire surface by elastic force.

In an advantageous embodiment, 200 DEG C of cortical material melting temperature <, more preferably≤180 DEG C, more preferably institute Stating cortical material melting temperature is to be at least 50 DEG C, more preferably 80-180 DEG C, more preferably 100-150 DEG C.

In an advantageous embodiment, cortical material includes the first cortical material and the second cortical material, in which: described the One cortical material melting temperature T1 meets: 120 < T1 < 200 DEG C, more preferably 140-180 DEG C；The second cortical material melting Temperature T2 is preferably 40-120 DEG C, more preferably 50-100 DEG C, more preferably 50-80 DEG C.

Wherein, the first cortical material and the second cortical material can be mixture, and/or: it is also possible to block copolymer, For example, different blocks of first cortical material from the second cortical material as block copolymer.

In an advantageous embodiment, core wire melting temperature >=200 DEG C, more preferably >=220 DEG C, more preferably >=250 ℃。

In an advantageous embodiment, the core wire intensity preferably >=0.5cN/dtex, more preferably >=1cN/dtex, More preferably >=1.5cN/dtex, more preferably >=2cN/dtex, more preferably >=2.5cN/dtex, more preferably >=3cN/ Dtex, more preferably >=3.5cN/dtex, more preferably >=4cN/dtex, more preferably >=4.5cN/dtex.

In an advantageous embodiment, the cortical material is with a thickness of 0.01-0.8mm, more preferably 0.05-0.8mm, more It is selected as 0.1-0.5mm.

In an advantageous embodiment, the cortical material is thermoplastic elastomer (TPE).

It is highly preferred that the thermoplastic elastomer (TPE), can be addition polymer or condensation polymer, the addition can be homopolymerization Object or copolymer, the copolymer can be block copolymer, alternate copolymer, random copolymer, one in graft copolymer Kind is several.

It is highly preferred that the thermoplastic elastomer can be phenylethylene thermoplastic elastomer, diene class thermoplastic elastomer, poly- ammonia It is esters thermoplastic elastomer, olefin type thermoplastic elastomer, polyurethanes thermoplastic elastomer, polyesters thermoplastic elastomer, polyamide-based One or more of thermoplastic elastomer, organic siliconresin.It is highly preferred that the thermoplastic elastomer can be polyurethane thermal-plastic's bullet The mixing of one or more of property body (TPU), polyether ester thermoplastic elastomer (TPEE) or polyetheramides thermoplastic elastomer.

Preferably, the thermoplastic elastic can be not higher than 1% pigments or dyes containing mass ratio.

Preferably, the thermoplastic elastic can be not higher than 10% color master-batch containing mass ratio.

Preferably, the thermoplastic elastomer can contain auxiliary agent, and the auxiliary agent can be including but not limited to: enhancing One or more of agent, fire retardant, preservative, lubricant, age resister.It is highly preferred that the auxiliary agent does not include plasticizer.

It is highly preferred that auxiliary agent mass ratio in the thermoplastic elastic is not higher than 5%, more preferably not above 3%, more preferably not above 1%.

Preferably, the core wire can be including but not limited to: plant fiber, animal origin, regenerated fiber, synthesis are fine Any one or a few in dimension.

Wherein, the plant fiber can be one or more of flax fiber, bamboo fibre, cotton fiber.

Wherein, the animal origin can be one or more of wool, camel hair, the rabbit hair, silk fiber.

Wherein, the synthetic fibers can be one of polyester, polyamide, polyimides, carbon fiber, acrylic fibers, polypropylene fibre Or it is several.

It includes synthetic fibers that core wire of the present invention, which is preferably at least, can specifically include PET, PBT, PA6, PA66 industry The combination of one or more of long filament.

Preferably, the core wire is also possible to coloured.

In an advantageous embodiment, the core wire is long filament, and preferably multifilament.

In an advantageous embodiment, the silk that the long filament can be twisting or not twist.

Wherein, the long filament continuous length is preferably at least 1m, more preferably at least 10m, more preferably at least 100m, More preferably at least 1000m.

In an advantageous embodiment, the elastomeric overmold line is obtained using the method for coextrusion, the side of the coextrusion Method includes:

Cortical material melting, is squeezed out together with core wire by coating machine, and cortical material is coated on core wire surface, forms packet Cover line；

Be less than or equal to cortical material melting temperature at a temperature of, cortical material is set in core wire surface, in process of setting, Tensile stress is applied to covering thread, under tension and temperature collective effect, cortical material, which is crystallized, to be occurred simultaneously with mutually separating；It is described Mutually separation refers to the separation of crystalline region and amorphous area；

It is cooled and shaped.

In an advantageous embodiment, the temperature appointing between cortical material glass transition temperature and melting temperature Meaning temperature value or temperature range, it is preferable that do not include cortical material glass transition temperature, cortical material melting temperature.

It is highly preferred that the temperature is 50 DEG C under cortical material melting temperature to core wire melting temperature or less.More preferably Temperature is heated under cortical material melting temperature 30 DEG C to below core wire melting temperature by ground.

In an advantageous embodiment, cortical material melt viscosity under extrusion temperature is at least 500Pas, more Preferably 800~2000Pas, preferably 1000-1500Pas.

In an advantageous embodiment, the tensile stress that applies is to be greater than extruded velocity by stretching the speed of covering thread To realize.It is highly preferred that the speed for stretching covering thread is at least 1.01 times of extruded velocity, more preferably 1.01-1.5 times, more Preferably 1.05-1.2 times, such as 1.1 times.

In an advantageous embodiment, the speed for stretching covering thread is 1-1000m/min, preferably 2-900m/ Min, more preferably 5-800m/min.

In above content of the present invention, given numberical range may each be finger chosen out of this it is one or more Fixed numbers or numerical intervals.

The method that the present invention produces elastomeric overmold line, has the advantages that

1) pass through heat setting process, realize cortex radial contraction, combined with core wire axial shrinkage (being radially expanded), Cortex is combined closely with core wire, to improve intensity, buckle resistance, scratch resistance wearability and elastic restoration ratio, is stretched, bending It is more than 99% with compression rebound rate；When stretching, bend and squeezing, core wire is not easily stripped with cortex；

2) the application uses melt-processed, does not use solvent and plasticizer, and product safety is nontoxic；

3) core wire provides good stretching using in the case where high-tenacity multifilament yarn, having soft, tough special efficacy for covering thread Intensity and buckling strength；

4) cortex and core wire are thermoplastic material, can pass through recycling and reusing.

Specific embodiment

Elastomeric overmold line produced by the invention, is made of cortex and core wire, and cortex is thermoplastic elastomer (TPE), such as be can be The mixing of one or more of polyurethane (TPU), polyether ester (TPEE) or polyetheramides.The core wire is long filament, such as can To be the combination of one or more of polyester, polyamide 6, polyamide 66 industrial filament.

Embodiment 1 (EX1)

Polyester filament is not twisted in the material selection urethane thermoplastic elastomer of cortex, core wire selection.Thermoplastic elastomer (TPE) can To be not higher than 1% pigments or dyes containing mass ratio, by the way that pigments or dyes are added, make covering thread that there is corresponding color Effect can remove the dyeing in subsequent textile processing from.Equally, core wire is also possible to coloured.

The preparation method step of elastomeric overmold yarn are as follows:

Step 1

Polyurethane after melting is coated by coating machine and is squeezed out, the surface of core wire is coated on, obtains covering thread.Squeeze out temperature Degree is greater than melt polyurethane temperature, and controlling polyurethane melt viscosity in extrusion process is 16000PaS.

Step 2

The covering thread of extrusion is cooled to melt polyurethane temperature or less, more than glass transition temperature, and polyurethane solidifies simultaneously It is evenly distributed on the surface of polyester filament core wire, the other end is on roller.

In the present invention, in winding process, winding forms covering thread and stretches, and tensile speed is greater than extruded velocity, such as stretches Speed/extruded velocity=1.2 then forms a tensile stress to covering thread.

To which under the collective effect of tension and temperature, while cortical material crystallizes, crystalline phase and amorphous phase exist Occur mutually to separate in drawing process.

Into the heat setting process is crossed, cortex is radially shunk to core wire；Core wire internal stress is eliminated simultaneously, and axis occurs It to contraction, i.e., is radially expanded to cortex, the cortical material of core filaments and endosmosis is combined closely.Cortex and core wire The crystallinity and the degree of orientation of long filament are all improved, so that cortex is combined closely with core wire.

Step 3

Cooling forming, clot.

The elastomeric overmold yarn skin thickness that the present embodiment obtains is 0.1mm, and elastic recovery rate is 99% or more.

Embodiment 2 (EX2)

The material selection polyether ester of cortex, core wire select the combination of polyester filament and polyamide filaments (to can be and do not twist Or twisting), the mass ratio of polyester and polyamide filaments is 2:1.Cortical material uses the material (example of two kinds of different melting temperatures Can such as be realized using the polyether ester of different molecular weight), the first cortical material melting temperature is 150 DEG C, the second seed coat layer Material melt temp is 100 DEG C.

The preparation method step of elastomeric overmold yarn are as follows:

Step 1

Polyethers ester material after melting is coated by coating machine and is squeezed out, the surface of core wire is coated on, obtains covering thread.It squeezes Temperature is 150 DEG C out.

Step 2

The covering thread of extrusion is cooled to polyether ester melting temperature or less, more than glass transition temperature, and polyether ester solidifies simultaneously It is evenly distributed on the surface of polyamide filaments core wire, the other end is on roller.

In the present invention, in winding process, winding forms covering thread and stretches, and tensile speed is greater than extruded velocity, such as stretches Speed/extruded velocity=1.05 then forms a tensile stress to covering thread.

To which under the collective effect of tension and temperature, while cortical material crystallizes, crystalline phase and amorphous phase exist Occur mutually to separate in drawing process.

Into the heat setting process is crossed, cortex is radially shunk to core wire；Core wire internal stress is eliminated simultaneously, and axis occurs It to contraction, i.e., is radially expanded to cortex, the cortical material of core filaments and endosmosis is combined closely.Cortex and core wire The crystallinity and the degree of orientation of long filament are all improved, so that cortex is combined closely with core wire.

Step 3

The elastomeric overmold yarn skin thickness that the present embodiment obtains is 0.2mm, and elastic recovery rate is 99% or more.

Second of cortical material for being 100 DEG C comprising melting temperature in cortical material in the present embodiment, using the present embodiment The product that the covering thread of acquisition is made into can be under 100 DEG C of temperatures above again if deformed in the long-term use Sizing.

Embodiment 3 (EX3)

The material selection polyetheramides of cortex, core wire select PA66 long filament.Cortical material is using two kinds of different melting temperatures Material (such as can be realized using the polyetheramides of different molecular weight), the first cortical material melting temperature be 150 DEG C, Second of cortical material melting temperature is 50 DEG C.

The preparation method step of elastomeric overmold yarn are as follows:

Step 1

Polyetheramide materials after melting are coated by coating machine and are squeezed out, the surface of core wire is coated on, obtains covering thread. Extrusion temperature is 180 DEG C.

Step 2

The covering thread of extrusion is cooled to polyetheramides melting temperature or less, more than glass transition temperature, and polyetheramides is solidifying Consolidate and be evenly distributed on the surface of PA66 long filament core wire, the other end is on roller.

In the present invention, in winding process, winding forms covering thread and stretches, and tensile speed is greater than extruded velocity, such as stretches Speed/extruded velocity=1.05 then forms a tensile stress to covering thread.

To which under the collective effect of tension and temperature, while cortical material crystallizes, crystalline phase and amorphous phase exist Occur mutually to separate in drawing process.

Into the heat setting process is crossed, cortex is radially shunk to core wire；Core wire internal stress is eliminated simultaneously, and axis occurs It to contraction, i.e., is radially expanded to cortex, the cortical material of core filaments and endosmosis is combined closely.Cortex and core wire The crystallinity and the degree of orientation of long filament are all improved, so that cortex is combined closely with core wire.

Step 3

The elastomeric overmold yarn skin thickness that the present embodiment obtains is 0.2mm, and elastic recovery rate is 99% or more.

Second of cortical material for being 50 DEG C comprising melting temperature in cortical material in the present embodiment, is obtained using the present embodiment The product that the covering thread obtained is made into, such as shoes, in the process of wearing, human body temperature is enough to bring it about is formed again, thus Obtain more comfortable shoes shape.Be made into other products, if deformed in the long-term use, can 50 DEG C with It is formed again at upper temperature.

Embodiment 4 (EX4)

The material selection polyetheramides of cortex, core wire select PET long filament.

The preparation method step of elastomeric overmold yarn are as follows:

Step 1

Polyetheramide materials after melting are coated by coating machine and are squeezed out, the surface of core wire is coated on, obtains covering thread. Extrusion temperature is 180 DEG C.

Step 2

The covering thread of extrusion is cooled to polyetheramides melting temperature or less, more than glass transition temperature, and polyetheramides is solidifying Consolidate and be evenly distributed on the surface of PET long filament core wire, the other end is on roller.

In the present invention, in winding process, winding forms covering thread and stretches, and tensile speed is greater than extruded velocity, such as stretches Speed/extruded velocity=1.1 then forms a tensile stress to covering thread.

To which under the collective effect of tension and temperature, while cortical material crystallizes, crystalline phase and amorphous phase exist Occur mutually to separate in drawing process.

Into the heat setting process is crossed, cortex is radially shunk to core wire；Core wire internal stress is eliminated simultaneously, and axis occurs It to contraction, i.e., is radially expanded to cortex, the cortical material of core filaments and endosmosis is combined closely.Cortex and core wire The crystallinity and the degree of orientation of long filament are all improved, so that cortex is combined closely with core wire.

Step 3

Cooling forming, clot.

The elastomeric overmold yarn skin thickness that the present embodiment obtains is 0.15mm, and elastic recovery rate is 99% or more.

Comparative example 1 (P1)

Polyester filament is not twisted in the material selection PE of cortex, core wire selection.

The preparation method step of wrap yarn are as follows:

Step 1

PE after melting is coated by coating machine and is squeezed out, the surface of core wire is coated on, obtains covering thread.Extrusion temperature is 100℃。

Step 2

The covering thread of extrusion is cooled to room temperature through subcooled water or cold air, and PE solidifies and is coated on the table of polyester filament core wire Face, the other end is on roller.

Winding speed is equal to extruded velocity, not formed tensile stress.

Step 3

Cooling forming, clot.

Comparative example 2 (P2)

Polyester filament is not twisted in the material selection PE of cortex, core wire selection.

The preparation method step of wrap yarn are as follows:

Step 1

PE after melting is coated by coating machine and is squeezed out, the surface of core wire is coated on, obtains covering thread.Extrusion temperature is 100℃。

Step 2

The covering thread of extrusion is cooled to room temperature through subcooled water or cold air, and PE solidifies and is coated on the table of polyester filament core wire Face, the other end is on roller.

Winding speed is greater than extruded velocity, forms tensile stress, but since cooling is too fast, can not be formed and mutually be separated.

Step 3

Cooling forming, clot.

Gained elastomeric overmold line method for testing performance of the invention is as follows:

1, waterproofness

Use the surface contact angle of contact angle instrument (contact angle measurement, surface tension instrument) measurement material and water, contact angle Bigger, then waterproofness is better.

2, intensity detection

According to the intensity of GB/T 14344-2008 testing elastic covering thread.

3, elastic recovery rate detects

According to FZ/T70006-2004 testing elastic response rate.

4, scratch resistance is wear-resisting

Martindale's method tests anti-fluffing ball grade.

Gained elastomeric overmold line performance test results of the invention are as follows:

Table 1, the present embodiment 1-4 covering thread testing result

	EX1	EX2	EX3	EX4	P1	P2
							To water contact angle (degree)	150	155	157	153	-	-
Tensile break strength (cN/dtex)	4.0	3.7	3.7	3.3	-	-
							Hook strength rate (%)	> 95	> 95	> 95	> 95	-	-
Elastic recovery rate (%)	> 99	> 99	> 99	> 99	52	53
							Anti-fluffing and anti-pilling grade	5	5	5	5	Difference	Difference

As it can be seen that the method provided by the present application for preparing elastomeric overmold line, occurs due to crystallizing and mutually separating, simultaneously thus really The good elastic recovery rate of cortical material and buckle resistance and wearability are protected.

Specific embodiments of the present invention are described in detail above, but it is merely an example, the present invention is simultaneously unlimited It is formed on particular embodiments described above.To those skilled in the art, any couple of present invention carries out equivalent modifications and Substitution is also all among scope of the invention.Therefore, without departing from the spirit and scope of the invention made by equal transformation and Modification, all should be contained within the scope of the invention.

Claims (10)

1. a kind of elastomeric overmold line characterized by comprising cortical material and core wire, the cortical material are coated on outside core wire, Wherein, at least partly region crystal phase of the cortical material is mutually separated with amorphous phase generation.

2. elastomeric overmold line according to claim 1, which is characterized in that the partial region is at least 40% region.

3. elastomeric overmold line according to claim 1, which is characterized in that the cortical material is coated on core wire by elastic force Surface.

4. elastomeric overmold line according to claim 1, which is characterized in that the core wire intensity is >=0.5cN/dtex.

5. elastomeric overmold line according to claim 1, which is characterized in that 200 DEG C of cortical material melting temperature <.

6. elastomeric overmold line according to claim 1, which is characterized in that cortical material includes the first cortical material and second Cortical material, in which: the first cortical material melting temperature T1 meets: 120 < T1 < 200 DEG C, second cortical material are molten Melting temperature T2 is 40-120 DEG C.

7. elastomeric overmold line according to claim 6, which is characterized in that the first cortical material and the second cortical material are mixed Object is closed, and/or: different blocks of first cortical material from the second cortical material as block copolymer.

8. elastomeric overmold line according to claim 1, which is characterized in that the cortical material is with a thickness of 0.01-0.1mm.

9. elastomeric overmold line according to claim 1, which is characterized in that the cortical material is thermoplastic elastomer.

10. elastomeric overmold line according to claim 1, which is characterized in that the elastomeric overmold line is using the side being coextruded Method obtains, and the method for the coextrusion includes:

Cortical material melting, is squeezed out together with core wire by coating machine, and cortical material is coated on core wire surface, forms cladding Line；

Be less than or equal to cortical material melting temperature at a temperature of, cortical material is set in core wire surface, in process of setting, to packet It covers line and applies tensile stress, under tension and temperature collective effect, cortical material, which is crystallized, to be occurred simultaneously with mutually separating；The phase point From the separation for referring to crystalline region and amorphous area；

It is cooled and shaped.