EP0748402A1

EP0748402A1 - Process for producing a polyester weft yarn for type fabric

Info

Publication number: EP0748402A1
Application number: EP96900230A
Authority: EP
Inventors: Klaus Fischer; Paul Schaffner
Original assignee: Rhone Poulenc Viscosuisse SA; Societe de la Viscose Suisse SA
Current assignee: ExNex AG
Priority date: 1995-01-25
Filing date: 1996-01-15
Publication date: 1996-12-18
Anticipated expiration: 2016-01-15
Also published as: ES2140817T3; BR9603947A; EA199600086A1; JPH09511032A; DE59603535D1; WO1996023091A1; EA000012B1; US5817417A; CN1145646A; CN1061396C; KR970702394A; EP0748402B1

Abstract

In a process for the continuous production of a multifilament tractile weft yarn of polyester POY filaments for tyre fabric, the polyester POY filament is swirled at an initial titre of 170-260 dtex and immediately thereafter shrunk at an advance of 40-80 % at 230-240 °C. The weft yarn obtained has a rough, non-slip surface, a strength of > 7cN/tex, an extension of » 180 % and a heat-shrink rate (at 160 °C) of +2 % to -2 %.

Description

Process for producing a polyester weft yarn for tire cord fabric

The invention relates to a process for the continuous production of a multifilament, stretchable weft yarn from polyester POY filaments for tire cord fabric, and to a weft yarn produced by the process.

A polyester POY (partially oriented yarn) is a yarn made from 2800 to approx. 4200 m / min by melt spinning polyester.

Processes for the production of weft yarns for tire cord fabrics, which have a rough, non-slip surface and which meet the high thermal and mechanical loads during tire production, are known. In addition to the processes for producing coated weft threads, processes for producing uncoated polyester weft threads are also known. In the known methods, the sliding resistance is achieved either by winding around with natural fibers or by twisting a thread made of polyester POY and subsequent heat treatment (EP-A-0 223 301). A wrap yarn leads to an unacceptable fiber flight on air jet machines. A twisted, stretchable weft yarn is produced in a technically complex manner in at least two production stages, an additional interlacing would add a further step to the complex process. The possibility of swirling carried out in the winding area is mentioned in the prior art, however, a process for technical action is not specified. The combination of intermingling / twisting per se is meaningless, since a poorer method for achieving a thread closure is combined with a better one, and the first process step is therefore superfluous. A reversal of the steps, ie twisting / intermingling, does not make sense, since a twisted and thus largely closed bundle of threads can only be intermingled insufficiently.

If the swirling takes place alone, it usually takes place before the winding, ie. H. after all other procedural steps have been completed. In the present case, the swirling of shrunk POY, this process leads to an inhomogeneous yarn with many protruding fila, which impede a perfect bobbin flow.

The object of the invention is to provide a technically simple and economical method for producing a high-stretch polyester weft yarn for tire cord fabric.

Another task is to provide a weft yarn with a high elongation, which is retained even after extreme thermal stress. At the same time, the yarn should have very low thermal shrinkage and the longest possible run length per unit weight.

This object is achieved according to the invention in that the polyester POY filament with an initial titer of dtex 170-260 is swirled with a compressed gas and immediately thereafter shrunk with an advance of 40-80% at 230-240 ° C.

The titer range from 170-260 dtex, in particular 170-210 dtex, preferably 170-190 dtex, has proven to be special proven to be advantageous, since titers over 260 dtex are poorly suited for tire cords for weaving reasons and require too much force at 80% elongation. The threads must lie as flat as possible in the cord fabric, so that there are no undesired elevations at the crossover points warp / weft which are coated unevenly during the dip treatment. With a titer below 170 dtex, the tensile strength is too low and the reversibility limit is inadequate. It has also proven to be expedient to carry out a temperature treatment immediately after the swirling, in which case insufficient shrinkage initiation occurs at temperatures below 230 ° C. and damage to the polymer already occurs above 240 ° C. At the same time, an advance of 40-80%, in particular 50-70%, is advisable.

It is also expedient to carry out the swirling in a swirl nozzle, in particular in a closed swirl nozzle at 0.5-3, in particular at 1-2 bar. In an open intermingling nozzle, with the low thread tensions (only the outlet tension) and the pressure present, a reliable intermingling is not always guaranteed, since the filaments can be blown out of the nozzle. Insufficient thread closure is achieved at a pressure below 0.5 bar. At a pressure above 3 bar, the thread closure is not improved, but damage to the filaments already occurs in some cases.

The heat shrinkage is expediently carried out at 220-235, in particular at 230-235 ° C., for a period of at least 0.2 seconds, preferably in a convection heater. This has the advantage that a reversibility limit of greater than 3 cN / tex results and a sufficient roughness or sliding resistance is guaranteed. Experience has shown that high-tensile weft yarns made from shrunk polyester POY tend to elongate in the event of a subsequent thermal load, such as those that are subjected to cord fabric during impregnation. This elongation can lead to uneven cord fabrics, which can be difficult for further processing. In such cases, it is expedient to post-stretch the weft thread during production in a further, in particular integrated process step directly after the shrinking at a temperature of 100-200 ° C., in particular 110-170 ° C., and then to wind it up .

The weft yarn according to the invention simultaneously satisfies the following conditions: the surface of the weft yarn is rough and slip-resistant, the tensile strength> 7 cN / tex, elongation 170-270%, and the thermal shrinkage (at 160 ° C.) in the range + 2% - minus 2%.

It is advisable if the number of knots is more than 25 knots / m. At less than 25 knots / m, the fibril bandage is not sufficiently compact, which can result in drainage problems and dip deposits.

After a heat-free heat treatment at 235 ° C. for 2 minutes, the weft yarn has a residual elongation of at least 110% and a thread elongation of less than 5%.

The invention will be described in more detail using examples. example 1

Starting from a polyester POY dtex 170f72 melt spun at 3100 m / min, swirling takes place between a creel and a first delivery unit at 2 bar in a closed swirl nozzle (2x1.2 mm) and immediately afterwards with a lead of 60% at 230 ° C shrunk and then stretched at room temperature or 160 ° C.

Example 1 shows the properties of the yarn according to the invention after shrinking without and with 5% post-stretching. Examples 2-4 relate to the production conditions according to the invention without post-stretching.

Master thread: dtex 170 f72 interlacing: 2 bar advance: 60%

Version without setting zone with setting zone cold with setting zone 160 ° C post-stretch. 5% 5%

Titre dtex 266 253 259

RK cN 181 183 189

Ft cN / tex 6.8 7.2 7.3

Dt% 242.6 229 232.8

TS 160% -1.7 .35 1.8

TS 190% -2.7 -.7 1.5 After thermal test treatment 235 ° C, 2 min

Variant without setting zone with setting zone cold with setting zone 160 ° C delay 5% 5%

RK CN 209 215 207

Ft cN / tex 7.9 8.5 8.0

Dt% 156.5 157 149.7

Elongation% -4.7 -2.75 -.45

Example 2

Polyester-POY master thread: dtex 190f36

Swirl pressure: 1bar

Lead% 20 40 60 80 100

Titre dtex 239 10 280.80 321.60 359.90 399.40

RK cN 270, 66 273.22 296.52 321.03 343.88

Ft cN / tex 11, 32 9.73 9.22 8.92 8.61

Dt 145, 60 186.50 231.00 261.20 292.30

TS 160% 0.20 -1.20 -1.80 -1.60 0.00

TS 190% -0.70 -2.70 -3.40 -3.60 -1, 30

Increase% 20.30 41.25 61.8 81.03 101.90 Revers. Limit cN / tex 5.1 4.4 4.0 3.7 3.72 after 2 min at 240 C.

Titre dtex 239.10 280.80 359.90 399.40

RK cN 267.55 273.22 309.87 330.30 res. RK% 98.85 100.00 96.52 96.05

Ft cN / tex 11.19 9.73 8.61 8.27 Dt% 108.90 128.50 169.20 197.40

Change in length% -0.20 -3.80 -4.80 -3.20

Reverse. Limit N 1.24 1.35 1.55 1.63 Example 3

Master thread: dtex 190f36 Swirl pressure: 2bar

Lead 20 40 60 80 100

Titre dtex 243.90 278.60 317.90 358.90 399.80

RK cN 215.61 239.87 293.10 321.93 343.43

Ft cN / tex 8.84 8.61 9.22 8.97 8.59

Dt% 124.40 172.30 225.50 259.70 288.50

TS 160% 0.30 -1.10 -1.50 -0.20 1.40

TS 190% -0.50 -2.70 -3.50 -2.50 -1.00

Titer increases% 22.70 40.14 59.90 80.50 101.10

Reverse. Limit cN / te>: 4.8 4.4 3.9 3.6 3.4

after 2 min at 240 C.

Titre dtex 278.60 317.90 358.90 399.80

RK cN 261.88 290.56 322.65 351.42 res. RK% 109.18 99.13 100.22 102.33

Ft cN / tex 9.40 9.14 8.99 8.79

Dt% 116.50 147.20 179.40 215.40

Length change% - -3.40 -4.70 -3.20 0.20

Reverse. Limit N - 1.35 1.51 1.61 1.69

Example 4

Polyester-POY master thread: dtex 260f48 intermingling pressure: 2bar

Lead 20 40 60 80 100

Titre dtex 333.70 377.30 426.80 478.30 532.90

RK cN 305.34 345.23 384.55 431.90 461.49

Ft cN / tex 9.15 9.15 9.01 9.03 8.66

Dt% 112.70 155.50 200.20 238.90 274.30

TS 160% -1.50 -3.20 -4.00 -3.20 -2.20

TS 190% -3.00 -5.60 -5.70 -5.50 -3.60

Titer increase% 27.40 44.00 62.90 82.60 103.30

Reverse. Limit cN / tex 4.6 4.2 3.8 3.5 3.1

The weft yarn according to the invention has, in addition to the one-step process, with swirling, shrinking and post-stretching being carried out continuously in one process step, in particular a strong reduction in the elongation tendency after additional heat treatment at 235 ° C., which makes it outstandingly suitable of a weft yarn for use in tire construction. It is surprising that the roughness or the pushing strength can be achieved without twisting or coating. After the twisting incident, the disadvantageous elongation can be significantly reduced by additional hot stretching.

Claims

claims

1. Process for the continuous production of a multifilament, stretchable weft yarn from polyester POY filaments for tire cord fabric, characterized in that the polyester POY filament with a starting titer of dtex 170-260 is swirled with a compressed gas and immediately thereafter with a lead of 40-80% is shrunk at 230-240 ° C.

2. The method according to claim 1, characterized in that the swirling takes place at a pressure of 0.5-3 bar in a swirling nozzle.

3. The method according to claim 1, characterized in that the heat shrinkage at a temperature of

220-235 ° C for at least 0.2 s in a convection heater.

4. The method according to claim 1, characterized in that the weft yarn in a further integrated

Process step is post-stretched continuously at 100-220 ° C by 1-5%.

5. weft yarn made of polyester, produced according to the process according to claims 1-4, characterized gekennzeich¬ net that the weft yarn at the same time meets the following conditions: that the surface of the weft yarn is rough and slip-resistant, the strength> 7cN / tex, elongation of 170-270% and a thermal shrinkage (at 160 ° C) of + 2% - minus 2%.

6. weft yarn according to claim 5, characterized by a number of knots of at least 25 knots / m.

7. weft yarn according to claim 5, characterized by a residual elongation of at least 110% after a tension-free heat treatment at 235 ° C for 2 minutes and by a thread elongation of less than 5%.