# Units of textile measurement

## Fiber/Fibre

### Denier

Denier is a unit of measure for the linear mass density of fibers. It is defined as the mass in grams per 9,000 meters. In the International System of Units the tex is used instead (see below). The denier is based on a natural standard: a single strand of silk is one denier. A 9,000 meter strand of silk weighs one gram. The term denier is from a French coin of small value (worth 1/12th of a sou). Applied to yarn, a denier was held to be equal in weight to 1/24th oz.

The term micro-denier is used to describe filaments that weigh less than one gram per 9,000 meter length.

One can distinguish between Filament and Total denier. Both are defined as above but the first only relates to a single filament of fiber (also commonly known as Denier per Filament or D.P.F) whereas the second relates to a yarn, an agglomeration of filaments.

The following relationship applies to straight, uniform filaments:

D.P.F. = Total Denier / Quantity of Uniform Filaments

The denier system of measurement is used on two and single filament fibers. Some common calculations are as follows:

 1 denier = 1 gram per 9 000 meters = 0.05 grams per 450 meters (1/20 of above)

In practice measuring 9,000 meters is both time-consuming and wasteful. Usually a sample of 900 meters is weighed and the result multiplied by 10 to obtain the denier weight.

• A fiber is generally considered a microfiber if it is 1 denier or less.
• A 1-denier polyester fiber has a diameter of about 10 micrometers.
• Denier is used as the measure of density of weave in tights and pantyhose, which defines their opacity.

### Tex

Tex is a unit of measure for the linear mass density of fibers and is defined as the mass in grams per 1000 meters. Tex is more likely to be used in Canada and Continental Europe, while denier remains more common in the United States and United Kingdom. The unit code is "tex". The most commonly used unit is actually the decitex, abbreviated dtex, which is the mass in grams per 10,000 meters. When measuring objects that consist of multiple fibers the term "filament tex" is sometimes used, referring to the mass in grams per 1000 meters of a single filament.

Tex is used for measuring fiber size in many products, including cigarette filters, optical cable, yarn, and fabric.

One can calculate the diameter of a filament given its weight in dtex with the following formula:

$\varnothing= \sqrt{\frac{4\times 10^{-6}\cdot \mathrm{dtex}}{\pi\rho}}$

where $\rho$ represents the material's density in grams per cubic centimeter and the diameter is in cm.

Tex (g/km) Yield (yards/#)
550 900
735 675
1100 450
1200 413
2000 250
2200 225
2400 207
4400 113

### S or super S number

Super S or S number is a direct measure of the fineness of the wool fiber. It is most commonly seen as a label on wool suits and other tailored wool apparel to indicate the fineness of the wool fiber used in the making of the apparel. The numbers may also be found on wool fabric and yarn.

### Worsted count

Worsted count (or spinning count) is an indirect measure of the fineness of the fiber in a worsted wool yarn expressed as the number of 560-yard [1] (1 yard = 0.9144 meters) lengths (hanks) of worsted yarn that a pound (0.45359237 kilograms) of wool yields. The finer the wool, the more yarn and the higher the count. It has been largely replaced by direct measures.

### Yield

Similar to tex and denier, yield is a term that helps describe the linear density of a roving of fibers. However, unlike tex and denier, yield is the inverse of linear density and is usually expressed in yards/lb.

### Cotton count

• Cotton Counts: The number of hanks of 840 yds in one pound of weight i.e 10 count cotton means that 10x840 yds weighs = 1lb. This is coarser than 40 count cotton where 40x840 yards are needed. In the United Kingdom, ones to 40s are coarse counts (Oldham Counts), 40 to 80s are medium counts and above 80 is a fine count. In the United States ones to 20s are coarse counts.
• Hank: A length of 7 leas or 840 yards

One Lea - 120 yds (yarn is strength tested in lea strength) Cotton yarn may be spun is S twist (recverse or Z twist (normal) twist is imparted to produce the strength. To calculate. Length in Yards over weight in grains * 7000 over 840 (7000 grains in a pound - 840 yds in a hank)

Cotton count is an indirect counting system i.e the higher the number the finer the yarn.

• Thread: A length of 54 in (the circumference of a warp beam)
• Bundle: Usually 10 lbs
• Lea: A length of 80 threads or 120 yards[2]
• Denier: this is an alternative method. It is defined as a number that is equivalent to the weight in grams of 9000m of a single yarn. 15 denier is finer than 30 denier.
• Tex: is the weight in grams of 1km of yarn.[3]

To covert Denier to Cotton Count *5315 - from Tex * 590.5 Tex is 1/9th Denier

Thread is a cotton yarn measure, equal to 54 inches.

### Yarn density conversion

 Approx. Yarn Measurement Comparison Denier m/g Tex Worsted Cotton Woolen(Run) Linen(Lea) 50 180 5.6 160 106 56 298 75 120 8.3 106 72 37 198 100 90 11.1 80 53 28 149 150 60 16.6 53 35 19 99 200 45 22.2 40 27 14 74 300 30 33.4 27 18 9.3 50 400 22.5 44.4 20 13 7.0 37 500 18 55.5 16 11 5.6 30 700 12.9 77.7 11.4 7.6 4.0 2 1000 9 11 8.0 5.3 2.8 15 1500 6 166 5.3 3.5 1.9 10 2000 4.5 222 4.0 2.7 1.4 7

## Fabric

### Mommes

Mommes (mm) are units of weight traditionally used to measure the density of silk. It is similar to the use of thread count for cotton fabrics. Mommes express the weight in pounds, of a piece of material of size 45 inches by 100 yards. Silk is measured by weight either by grams or by mommes (mm). Therefore 1 momme = 4.340 g/m^2; 8 momme is close to 1 oz per square yard or 34 g/m^2.

The usual range of momme weight for different weaves of silk are:

File:TwistPerInch2.jpg
Image showing how to determine the number of twists per inch in a piece of yarn

Thread count is a measure of the coarseness or fineness of fabric, and is also known as the number of threads per inch or TPI. It is measured by counting the number of threads contained in one square inch of fabric or one square centimeter, including both the length (warp) and width (weft) threads. The thread count is the number of threads counted along two sides (up and across) of the square inch, added together.[4] It is used especially in regard to cotton linens such as bed sheets, and has been known to be used in the classification of towels.

### Ends per inch

Ends per inch (or e.p.i.) is the number of warp threads per inch of woven fabric.[9] In general, the higher the ends per inch, the finer the fabric is.

Ends per inch is very commonly used by weavers who must use the number of ends per inch in order to pick the right reed to weave with. The number of ends per inch varies on the pattern to be woven and the thickness of the thread. Plain weaves generally use half the number of wraps per inch for the number of ends per inch, whereas denser weaves like a twill weave will use a higher ratio like two thirds of the number of wraps per inch. Finer threads require more threads per inch than thick ones, and thus result in a higher number of ends per inch.

The number of ends per inch in a piece of woven cloth varies depending on what stage the cloth is at. Before the cloth is woven the warp has a certain number of ends per inch, which is directly related to what size reed is being used. After weaving the number of ends per inch will increase, and it will increase again after being washed. This increase in the number of ends per inch (and picks per inch) and shrinkage in the size of the fabric is known as the take-up. The take-up is dependent on many factors, including the material and how tightly the cloth is woven. Tightly woven fabric shrinks more (and thus the number of ends per inch increases more) than loosely woven fabric, as do more elastic yarns and fibers.

### Picks per inch

Picks per inch (or p.p.i.) is the number of weft threads per inch of woven fabric.[9] A pick is a single weft thread,[9][10] hence the term. In general, the higher the picks per inch, the finer the fabric is.

## References

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## Bibliography

• Collier, Ann M (1970), A Handbook of Textiles, Pergamon Press, p. 258, ISBN 0 08 018057 4, 0 08 018056 6 Check |isbn= value: invalid character (help) Check date values in: |access-date= (help);
• Curtis, H P (1921), "Glossary of Textile Terms", Arthur Roberts Black Book., Manchester: Marsden & Company, Ltd. 1921, retrieved 2009-01-11