Methods To Prevent Barre In Knitted Fabric

In textile production, one of the most common and perplexing quality issues is “barré.” The factors that can cause or contribute to barré are varied and diverse. For this reason, when a barré problem is detected, the skills of a sleuth may be required to expose the problem and eliminate its cause. Once a cause is identified, steps can be taken to minimize or eliminate the barré, and better quality fabrics can be produced. This discussion will center on knitted fabrics.

DISCUSSIONS

The noun “barré” is defined by ASTM1 as an unintentional, repetitive visual pattern of continuous bars and stripes usually parallel to the filling of woven fabric or to the courses of circular knitted fabric. In a warp knit, barré normally runs in the length direction, following the direction of yarn flow. Barré can be caused by physical, optical, dye related differences in the yarn, geometric differences in the fabric structure, or by any combination of these differences. A barré streak can be one or several courses wide. A “typical” characteristic of barré is that it generally consists of stripes that repeat. Isolated or intermittent defects may or may not be barré.

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Various aspects of barré are important for consideration and discussion. The first is the identification of barré. Secondly, how can barré be analyzed? What are the causes of barré, and finally, how can it be prevented?

IDENTIFICATION OF BARRÉ

The first step in a barré investigation is to observe and define the problem. Barré can be the result of physical causes that can usually be detected, or it can be caused by optical or dyeability differences that may be nearly impossible to isolate in the fabric. Barré analysis methods that help to discriminate between physical barré and barré caused by other reasons include Flat Table Examinations, Light Source Observation, and the Atlas Streak Analyzer.

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For a visual barré analysis, the first step is to lay a full-width fabric sample out on a table and view both sides from various angles. Generally, if the streaky lines run in the yarn direction that is in the course direction, apparent color differences can be seen by looking down at the fabric in a direct visual line with the yarn or course direction, and the defect can be positively identified as a barré defect. Viewing the fabric with a light source in the background will show if the barré is physical.

After completing an initial Flat Table Examination, a Light Source Examination may provide further useful information. Full width fabric samples should be examined

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under two surface lighting conditions, ultraviolet (UV) and fluorescent light. Observations that should be made while viewing under lights are:

1. the frequency and width of the barré,

2. whether the streaks are dark or light, and

3. the total length of pattern repeat.

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Ultraviolet light, commonly referred to as “black light,” allows the presence of mineral oils to be more easily detected, due to their radiant energy (glow). When observed under UV light, fabrics with streaks that exhibit glow suggest improper or insufficient preparation. A change in composition or content of oil/wax by the spinner or knitter without appropriate adjustments in scouring can create this problem. Fluorescent lighting simulates the mode of observation that is common to most inspection tables in mills and will highlight whether the barré is perceivable in an industry quality control setting.

The function of the Atlas Streak Analyzer is to isolate barré caused by physical differences. A fabric swatch is combined with polystyrene sheet film, and the Atlas Streak Analyzer produces a plastic impression of a fabric surface by incorporating specific conditions of pressure and heat. The absence of color on the plastic impression ensures that only physical streak effects will be seen. The plastic impression is examined to determine whether the streak alignment matches the

streaks observed on the fabric. However, impressions made from spun yarns such as cotton can be difficult to read due to the inherent yarn variation characteristic of spun yarns. Also, a too rapid cooling of the test specimen after making an impression can produce a moiré pattern. From a valid plastic impression, the barré source can be identified as:

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1. physical with all streaks showing on the impression,

2. optical or dyeability variations where none of the color streaks are aligned on the impression, and

3. a combination of physical and dyeability differences where some streaks align with those on the impression, and some do not.

If the streak analyzer indicates the same barré pattern as seen in the fabric, then the barré stripes are physical in nature. This can relate to several physical causes such as yarn tensions, stitch length, yarn count, twist differences, etc.

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Yarn tension causes can be found by raveling adjacent courses and measuring the lengths of yarn removed from each course. If all the lengths raveled from the fabric are the same, the pieces can be weighed to determine if the yarn counts are the same.

If the plastic replica shows no stripes, then the barré is due to chemical causes or to light reflectance differences. Chemical causes relate to improper preparation, and light reflectance differences relate to non-uniform dyestuff penetration or reflectance. The next step is to remove the color and evaluate the stripped sample before re-dyeing to determine if the removal of dye was complete and if the barré is still present. An uneven or incomplete stripping can indicate an additional strip. If the color is stripped uniformly and the barré is gone, then the sample should be re-dyed. If after stripping and over dyeing the fabric no longer has barré, then the barré was caused by improper preparation. If the barré remains, then the problem is related to optical or light reflectance problems.

PHYSICAL BARRÉ ANALYSIS

When the cause of barré is determined or presumed to be physical in nature, physical fabric analysis should be done. Physical barré causes are generally considered to be those which can be linked to yarn or machine differences. Methods of physical barré analysis include fabric dissection, microscopy, and the Roselon Knit Extension Tester.

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To perform accurate fabric dissection analysis, a fabric sample that contains several barré repetitions is required. First, the barré streak boundaries are marked by the placement of straight pins and/or felt markers. Individual yarns are removed from light and dark streak sections, and twist level, twist direction, and cut length

weight determinations are made and recorded. For reliable mean values to be established, data should be collected from at least two light/dark repeats. After compilation of yarn information, the numbers can be compared individually to adjacent yarns as well as by groupings of light and dark shades.

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Microscopic examination is useful for verifying yarn-spinning systems. Yarns from different spinning systems can have different light reflectance and dye absorption properties resulting in barré when mixed. Ring-spinning produces yarn that is smooth with all fibers twisted in a tight helix. Open-end spinning produces yarn with wrapper fibers that form a belt around the diameter of the yarn at irregular intervals. Air jet spinning produces yarn with more wrapper fibers that form a continuous spiraling band around the inner fibers that are more parallel to the axis of the yarn. Microscopy can also reveal a shift in loop formation in knitted fabrics when twist direction (S and Z) differences are present.

Barré produced by knitting machinery is relatively common, is the easiest to see in the greige, and is the easiest to correct. Often uneven yarn tension during knitting may be a cause. To test for uneven tension, the Roselon Knit Extension Tester can be used. For this test, a fabric sample is cut and raveled to yield yarn samples from light and dark streak areas. The yarn ends are taped and clamped

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2 Source: Spinlon Industries Incorporated, 18 S. Fifth Street, Quakertown, Pennsylvania 18951

to the tester. As each yarn is stretched to the maximum extension point, the points are plotted on graph paper. Comparisons are usually made visually rather than mathematically.

CAUSES OF BARRÉ

The varied and diverse causes of barré can generally be summed up in one word – INCONSISTENCY. An inconsistency that leads to barré can originate in one or more of the following categories:

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1. Failure to control fiber diameter (micronaire or denier) from laydown to laydown.

2. Too high a C.V. of micronaire in the laydown for a given mill’s opening line blending efficiency.

3. Failure to control the fiber color in the mix (grayness Rd, yellowness +b).

4. Failure to control maturity/fineness in a laydown

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5. Most, if not all, fiber barré can be controlled by the above four items; however, under certain unusual circumstances, it may be beneficial to also select mixes using ultraviolet reflectance information for each bale of cotton.

Average micronaire must be controlled within a laydown and from laydown to laydown. Controlling average micronaire in the laydown may not be sufficient to completely eliminate barré. Other micronaire related causes of barré are:

! > 0.2 difference in micronaire.

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! > 0.1 change in mix-to-mix average micronaire.

! > 12.0 % CV of micronaire within the laydown.

It may be necessary to change the laydown averages periodically to make use of all the bales in the warehouse. This must be done slowly with no more than a 0.1 change in mix-to-mix averages. Figure 1 shows acceptable changes in micronaire from laydown to laydown.

No barré from micronaire differences should show in knitted fabrics when yarns are mixed on the knitting machine from consecutive laydowns. However, if laydowns vary more than 0.1 micronaire, for example laydowns #1 (4.3 mic.) and #6 (4.6 mic.) in Figure 1, then barré is much more likely to occur.

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Figure 1: Slowing Changing Micronaire Average in Laydown Acceptable Change in Micronaire From Laydown to Laydown3.53.63.73.83.94.04.14.24.34.44.51234567891011121314Laydown NumberMicronarie

Figure 2 shows a high CV% in the micronaire for bales within a laydown. The laydown shown has 24 bales with an average of 4.1 micronaire and a CV% of 17.7. The change in micronaire from bale to bale is more than a 0.1 change. Also, the CV% is more than 12.0% and would probably result in barré. High Micronaire CV% in Laydown3.53.73.94.14.34.54.7123456789101112131415161718192021222324Bale NumberMicronaireAvg. 4.1 CV% 17.7 *

Figure 2: Results of Changing the Micronaire Average too Rapidly

Max +/- 1.0 mic

Although micronaire gives an indication of fiber maturity, it does not directly measure that property. Maturity and fineness related causes of barré include:

Even with proper fiber selection to reduce raw material effects on barré, techniques in the opening, cleaning, blending, and carding areas can have an impact on barré. These variations can occur at carding where different amounts of non-lint content removal from card to card can be a problem. Poor blending of fiber from opening through finisher drawing cannot be overlooked. In ring spinning, the running of different types of spindle tapes and the use of different cots or new and used cots mixed together on the same frame can create barré.

1. Yarn count variations.

2. Yarn twist variation.

3. Wrong yarn – size, color, blend level, twist direction.

4. Mixed yarn lots.

5. Mixed shipment dates of same dye lot.

6. Uneven waxing or oiling of yarn

7. Improper conditioning.

The set-up and operation of a knitting machine is complex and requires precision settings to produce first quality goods. Machine related causes of barré include:

1. Different stitch settings (stitch lengths).

2. Improper tension at a feed.

3. Faulty cylinder or dial cam settings.

4. Malfunctioning of storage or tape feeders.

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5. Improper threading of yarn.

6. Variations at take-down or spreader system.

7. Machine vibration.

8. Dirt, lint, and/or yarn fragments in the camming system, tricks, needles, or sinkers.

9. Variation in oil content.

10. Worn needles, which generally produce length direction streaks.

11. Uneven cylinder height needles (wavy barré).

12. Worn cylinder and/or dial.

Even with a properly set-up machine, barré can still occur at knitting due to poor yarn management. Examples of poor yarn management at knitting include:

1. Mixing yarns of different counts.

2. Mixing yarns from different spinning systems.

3. Mixing yarns with different blend levels.

4. Mixing yarns from different suppliers.

5. Mixing yarns with different twist level/twist direction.

6. Mixing yarns with different degrees of hairiness.

7. Mixing yarns with different amounts of wax.

8. Mercerization differences.

9. Excessive backwinding or abrasion during this process.

10. If yarns are conditioned, then each lot must be uniformly conditioned.

Normally, dyehouses have standard preparation procedures and formulas that work very well in terms of removal of non-fibrous contaminants and natural fiber pigmentation. However, some fabrics can exhibit barré that is caused by either optical or dyeability issues. Often, the barré is not created in dyeing, but can be highlighted. In this scenario, the dyeing is not the cause but the “messenger” of the problem.

Typically, barré is not a problem in whites, only in dyed fabrics. Therefore, if a fabric is known to have barré, then that roll should be processed into a white.

Preparation can help “mask” barré, but cannot and will not eliminate it. The cause of the barré must be eliminated for future rolls to be free of the defect.

The scour and/or bleach procedure can be intensified to mask the barré. This can be done by combinations of using a higher temperature or longer processing times. Usually the chemistry will remain the same; however, in some cases, it may have to be increased or changed.

If any changes are made in the preparation procedure, the fabric and resultant shade will possibly change in whiteness, strength, and appearance. In fact, the whiteness will almost always change. If whiter, the old dye formula will need to be adjusted. The strength of the fabric may be affected to the point where it becomes a problem. Finally, the surface of the fabric may change so that it may not match previous lots. As a result of more aggressive preparation to cover barré, it is important to evaluate such changes on small samples in the lab or a sample machine.

Tension can play an integral role in not only the formation of the fabric, but also during preparation, dyeing, and finishing. As with all variables, it must be controlled to known parameters and be consistent. Any inconsistencies in tension could change the morphology of the cotton (i.e. during mercerization), level of dye pick-

up, or surface appearance (i.e. during mechanical finishing such as brushing or sanding).

PREVENTION OF BARRÉ

As discussed in the text, barré is caused by inconsistencies in materials, equipment, or processing. To prevent barré from occurring, consistency must be maintained through all phases of textile production. Stock yarns should be properly and carefully labeled to avoid mix-ups. Fugitive tints and/or marked cones can be useful for accurate yarn segregation. Inventory should be controlled on a first in/first out basis. All equipment should be properly maintained and periodically checked. In spinning and knitting before beginning full-scale production, sample dyeings can be done to check for barré. Knit machine operators should be trained to look for barré as it occurs in the greige. If spotted, the machine should be stopped until the cause is eliminated.

Salvaging a fabric lot with a barré problem may be possible through careful dye selection. Color differences can be masked by using shades with very low light reflectance (navy blue, black) or high light reflectance (light yellow, orange, or finished white). Dye suppliers should be able to offer assistance in this area. Also, if the cause of the barré is an uneven distribution of oil or wax, a more thorough preparation of the fabric before dyeing may result in more uniform dye coverage.

With close cooperation between production and quality control personnel, barré problems can be successfully analyzed and solved. Recommendations to minimize barré include:

CASE STUDY IN BARRÉ

A 100% cotton, ring-spun single jersey style T-shirt is knitting in production with a yarn that does not have a barré problem. This style has been knitting for numerous days and no more of the yarn is available for creeling on the machine as the yarns are knitting out. Some yarn packages are “skinners” and others are full five-pound packages. The machine is 24-inch diameter with 80 feeds.

When the new yarn is creeled onto one of the 80 positions, the mixing of yarn shipment dates begins to take place. For this discussion, we will assume that this new yarn will cause barré when mixed with the old yarn. Once all positions are knitting the new yarn, there will be no barré. How many rolls of fabric will have barré when both these yarns are present in the rolls?

If the knitter is making 50 pound rolls, then each yarn package will supply 1/80th of the 50-pound roll or 0.625 pounds of yarn. Therefore, the new yarn will make 8.0 rolls of fabric with barré (5-pound package divided by 0.625 pounds per package for a 50 pound roll). It is important to realize that while this new package is knitting, other old yarn positions on the creel are also being replaced by new yarns. By the time the first new package has knitted out, all feeds will be using the new yarn. When the last old package is replaced and all positions have new yarn, the barré will disappear.

Often, many machines will be knitting the same style. If ten machines are knitting this style and are using the old yarn and new yarns are placed on these 80 feed machines, then the total number of rolls knitted with barré will be 80. A total of 4,000 pounds of fabric will be made with barré. If the style in question weighs 5.8 ounces per linear yarn, then a total of 11,035 yards of fabric will be made. Further, if it can be assumed that each yard of fabric can make 1.2 shirts, then a total of 13,240 defective T-shirts will be made. This is 1,103 dozen

garments. If the cost per shirt is $2.05 per unit, then a loss of $27,142 plus is realized.

If open-end yarn was used for this case study instead of ring-spun yarns, then 8-pound packages of yarn could be used. This would result in 128 rolls containing 6,400 pounds and 17,655 yards of fabric. From this, 21,186 T-shirts (1766 dozens) would have been made. Based on a cost per shirt of $1.86, the loss would be $39,405. The result is that bigger packages mean bigger losses.

1. When mixing yarn shipment dates of only one week, try to reduce the number of machines using the old and new yarns.

2. As more machines are expending the old yarn, consolidate the old packages to fewer machines. This means removing the yarns from one creel and using them on other machines that are still knitting the old yarn.

3. Knit dye lots from a single machine if possible.

4. When a roll is known to have mixed yarns, a laboratory dyeing should be done on a swatch from the roll to determine if barré is present. If not, then proceed as normal. If barré is present, then the roll should be processed in

CONCLUSIONS

It is evident that barré is a problem that results from inconsistencies and is a result of poor management of fiber, yarn, and/or related knitting processes. The spinner, the knitter, and the dyer must communicate and work as a team to reduce the potential for barré to occur. A well planned and executed system of monitoring the spinning, knitting, dyeing, and finishing systems in the mill can provide for defect free fabrics.

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