Introduction
When writing garment specifications, you should not neglect specifying the proper number of
stitches per inch that should be used in your sewn products. Why? Because the number of stitchesper inch can have a direct influence on the following: 1) the seam strength; 2) the stitch appearance;and 3) the seam elasticity on stretch fabrics.
An estimated seam strength formula was developed years ago for woven seams where one piece of fabric is placed on top of another with a specific seam margin and stitched with either a 301lockstitch or 401 chainstitch.
Obviously, the seam strength is dependent on a number of factors including:
Type & Weight of the Fabric
Stitch & Seam Construction
Stitches Per Inch
Thread Type and Size
Stitch Balance (Thread Tensioning)
Formula for Estimating Seam Strength on Woven Fabrics
301 Lockstitch - Estimated Seam Strength
= SPI X Thread Strength (lbs.) X 1.5*
* 1.5 is a factor based on the average loop strength ratio of most sewing threads.
= 10 SPI X 4.0 lbs. X 1.5 = 60 lb. strength
401 Chainstitch – Estimated Seam Strength
= SPI X Thread Strength (lbs.) X 1.7 *
* This factor is higher than a lockstitch because almost twice as much thread is consumed per inch of seam using a
chainstitch.
= 10 SPI X 4.0 lbs. X 1.7 = 68 lb. strength
From this formula, you can see the impact that stitches per inch, thread strength and stitch selectionhave on the strength of the seam. Generally, the more stitches per inch, the greater the seamstrength. There are rare cases where adding stitches per inch can actually damage the fabric so thatthe seam is weakened, however, this only happens on specific fabrics that can be damaged by excessive needle penetrations.
Given:
- 301 Lockstitch Superimposed Seam
- Thread Used Top & Bottom = T-24 Perma Core – Strength: 2.6 lbs.
SPI
|
6
|
8
|
10
|
12
|
Estimated Seam
Strength
|
23.4 lbs
|
31.2 lbs
|
39 lbs
|
46.8 lbs
|
As you can see from the chart above, the stitches per inch has a tremendous impact on the strength of the seam, as long as the fabric doesn’t rupture before the thread. If the same seams were sewn with a lower tenacity spun polyester thread, this also will effect the resulting seam strength.
Given:
- 301 Lockstitch Superimposed Seam
- Thread Used Top & Bottom = T-27 Spun Poly – Strength: 2.2 lbs.
SPI
|
6
|
8
|
10
|
12
|
Estimated Seam
Strength
|
20 lbs
|
26 lbs
|
33 lbs
|
40 lbs
|
Some manufacturers substitute a smaller bobbin thread when sewing lockstitch seams to minimize the number of times it takes the sewing operator to change the bobbin. Remember, however, that the resulting seam strength will be much less and will be determined by the strength of the bobbin thread and not the needle thread.
How to Measure the Stitch Length or Stitches Per Inch?
The stitch length is measured by measuring the number of lengths of thread found within one inch.Stitch counters are available from A&E that make this measurement easier, however, you can place a ruler next to the seam and perform the same task.
SPI is measured by counting the number of lengths of thread found within one inch. As you can see here, there are approximately 9 SPI sewn in this seam.
SPI Recommendations for Wovens & Knits
Below is a list of garments and the typical number of Stitches Per Inch recommended for each of them.
WOVEN GARMENTS
Garments
|
SPI
|
Comments
|
Garments
|
SPI
|
Comments
|
Denim Jeans,
Jackets, Skirts
|
7 – 8
|
Fewer stitches per inch
generally will give a more contrast stitch appearance.
|
Childrenswear
|
8 - 10
|
Usually 8 to 10 spi is
adequate to provide
adequate seam strength
and at the same time allow for quicker cycle
times.
|
Twill Pants or
Shorts
|
8 – 10
|
More stitches per inch
will help minimize seam grinning.
|
Dresses, Skirts
|
10-12
|
Due to many of the
operations being
lockstitch, usually 10 –
12 spi is required to
provide adequate seam
strength.
|
Trousers,
Dress Pants,
Slacks
|
10-12
|
On some operations like serge panels, it may be desirable to use a longer stitch length.
|
Blindstitch
Operations on
Slacks,Dresses
Skirts, etc.
|
3-5
|
A long stitch length is
desirable to minimize
the dimple or appearance of the needle penetration on
the outside of the garment.
|
Dress Shirt or
Blouse
|
14-20
|
Using more SPI llows
the use of smaller
diameter threads that will minimize seam
puckering.
|
Buttonsew
(4 hole button)
|
16
|
Buttonsew machines are cycle machines with a predetermined number of stitches per cycle.
|
Casual Shirts,
Blouses, Tops
|
10-14
|
Using more SPI will give more of a tailored stitch
appearance and better seam coverage when serging.
|
Buttonhole
(1/2” purl or
whip stitch)
|
85-90
|
Generally sewn
vertically – approx. 85-
90 stitches with a
lockstitch buttonhole
machine.
|
When setting standards for stitches per inch, you should always keep in mind that more stitches per inch used in a seam requires longer sewing cycles to complete the seam. Longer sewing cycles translates in to higher labor costs and lower production levels. A sewing machine sewing at 5,000 SPM (stitches per minute) at 8 SPI will sew 17.4 yards of seam per minute. A sewing machine sewing at 5,000 SPM at 14 SPI will sew 9.9 yards of seam per minute.
More stitches per inch will also consume for thread per inch of seam. This will contribute to higher seam strength and more elastic seams, but will also increase the consumption of thread required to sew the garment.
Therefore, the recommendations listed above are common stitch levels that provide adequate seam strength but also take into consideration the factors just mentioned.
When sewing knit fabrics, you should always check for excessive “seam grinning” of the seam; and also check for “stitch cracking”. “Seam grinning” occurs when thread stitch balance is too loose allowing the seam to open up too much when stress is applied to it. “Stitch Cracking” is checked by applying pressure on the seam in the stitching direction. If the thread tensions are too tight or if you are not using enough stitches per inch, the threads will rupture as stress is applied on the seam. Therefore, the following recommendations have been made for the number of stitches per inch to be used on the following garments.
KNIT GARMENTS
Garments
|
SPI
|
Comments
|
Garments
|
SPI
|
Comments
|
Jersey T-shirts, Tops, Polos
|
10-12
|
Using more SPI increases the chance of needle cutting.
|
Swimwear
|
12 - 16
|
The more elastic the seam, the more SPI that should be used to minimize stitch
cracking.
|
Underwear
|
12-14
|
The more elastic the seam, the more SPI that should be used to minimize stitch cracking.
|
Dresses, Skirts
|
10 - 12
|
The more elastic the seam, the more SPI that should be used to minimize stitch
cracking.
|
In fantwear
|
10-12
|
The more elastic the seam, the more SPI that should be used to minimize stitch cracking.
|
Intimates
|
12 -16
|
The more elastic the seam, the more SPI that should be used to minimize stitch
cracking.
|
Fleece
|
10-12
|
More stitches per inch are required to provide the proper seam coverage on fleece.
|
Stretch Knits
(Lycra®,
Spandex®, etc.)
|
14-18
|
More stitches per inch are required to provide the proper seam coverage on fleece.
|
Sweaters (Med. To Hvy.)
|
8-10
|
The more elastic the
seam, the more SPI that
should be used to
minimize stitch cracking.
|
Hosiery, Socks
|
35-50
|
Usually sewn with very
fine thread. More spi
are required to minimize
seam grinning and
seam elasticity.
|
Summary
From the comments and information listed above, you can see how important adding specifications for Stitches Per Inch to your garment specification instructions. Using the correct number of stitches per inch can greatly enhance the strength, appearance and performance of the seam for a given fabric type and application.
Bipul,I saw that in each technical sheet ,each clien has many different abbriviated words.I wonder "pkzt" show in order, what does it mean?i supposed that it abbriviates of placket?is it right?
ReplyDeletehow does this "lb" mean?
ReplyDelete