Basic Woven Structure | Classification of Basic Woven Structures

The form of interlacing of warp and weft yarns can be divided basically into three categories- plain, twill and satin/sateen weave. These three kinds of forms are called basic weaves.

1. Plain Weave: 

The simplest of all weaves is the plain weave. Each filling yarn passes alternately over and under one warp yarn. Each warp yarn passes alternately over and under each filling yarn. Some examples of plain-weave fabric are crepe, taffeta, organdy, and muslin. The plain weave may also have variations, which include the following:

Warp rib weave- Warp rib weaves may be described as plain weave in which two or more picks are inserted in the same shed. Warp rib weaves are normally used in warp faced constructions. The warp cover factor and the warp crimp are substantially higher than the weft cover factor and the weft crimp. The intention is to produce fabrics with prominent weft-way rib formed by the crowns of the warp threads.
 

Weft rib weave- Weft rib may be described as plain weave in which two or more ends weave together as one. It is difficult to achieve very high weft cover factors in weft faced plain-weave cloths. By using two finer ends weaving as one, it becomes possible to achieve higher weft cover factor. Such cloths are expensive to weave and not very common.
 

Basket, matt or hopsack weave- In matt, basket or hopsack weaves two or more ends and two or more picks weave as one. The simplest and commonest of these weave is 2/2 matt.
(Refer to Annex 2 for weave diagrams)

2. Twill Weave: 

A weave that repeats on 3 or more ends and picks & produces diagonal lines on the face of the fabric. A twill weave is characterized by diagonal rib (twill lines) on the face of the fabric. These twill lines are produced by letting all warp ends interlace in the same way but displacing the interlacing points of each end by one pick relative to that of the previous end. In twill weave line moves sinisterly (Right - Left, Z twill) and dextrally (Left - Right, S twill). Common derivatives of twill weave are as follows:
 

Zigzag Weave- If the direction of the diagonal in a twill fabric is reversed periodically across the width, a zigzag effect is produced. Zigzag weave is achieved by simply combining two S and Z twill weaves of equal repeat.

Diamond weave- Diamond weaves are achieved by combining two symmetrical zigzag weaves of equal repeat. Diamond designs are vertically and horizontally symmetrical.
 

Herringbone weave- In Herringbone weave also the twill direction is reversed periodically like zigzag weave but at the point of reversal the order of interlacement is also reversed and then twill line commence as usual.
 

Diaper weave- Diaper weaves are produced when we combine two Herringbone designs. Diaper designs are diagonally symmetrical. (Refer to Annex 2 for weave diagrams)

3. Satin/sateen Weave: 

The satin weave is characterized by floating yarns used to produce a high luster on one side of a fabric. Warp yarns of low twist float or pass over four or more filling yarns. The low twist and the floating of the warp yarns, together with the fiber content, give a high degree of light reflection. Weights of satin fabrics range from chiffon satin to heavy duchesse satin. The sateen weave is similar to a satin construction except that in the sateen weave, the filling yarns float and are visible on the surface of fabric. Examples: cotton sateen, and damask.

Analysis of Fabric | Analysis of Sateen Woven Fabric Stracture

Experiment name: Analysis of woven fabric. (Sateen)

Object:
1. To know about the structure of fabric.
2. To know about the raw material of fabric.
3. To produce exactly the similar fabric.

Sample: 

Apparatus:
1. Counting glass,
2. Needle,
3. Beesleys balance,
4. Twist tester,
5. GSM cutter,
6. Graph paper.

Analysis Sateen Fabric: 

1. Weave plan: In graph the gaps between the lines are considered according to X axis as weft  threads and according to Y axis as warp threads. The up threads are indicated by filling up the gaps and down threads without filling up the gaps.

2. Drafting plan: According to British system drafting plan is drawn at the top of weave plan. Here broken draft is used to draft the plan.

3. Lifting plan: The lifting plan is drawn at the right side of the weave plan.

4. Face side and backside: The face side and back side are not same.

5. Direction of warp and weft: Direction of both warp and weft are indicated by arrow marks by the side of the sample.

6. Raw material: Both warp and weft yarns are filament. 

7. Thread density:

No. of reading	EPI	Average	PPI	Average
1	44	45	42	41
2	45		39
3	46		40
4	43		43
5	47		41

8. Yarn count:

No. of reading	Warp count	Average	Weft count	Average
1	20	21	19	21
2	22		23
3	23		20
4	21		22
5	19		21

9. Yarn twist:

No. of reading	Warp twist	Average	Weft twist	Average
1	X	X	X	X
2	X		X
3	X		X
4	X		X
5	X		X

10. Direction of twist: As the yarns are filament so they have no twist.

11. Design of fabric: As it is a derivative of twill so it has no formula number.

12. GSM calculation: By GSM cutter we get the GSM of fabric is 130 gm/meter2.

13. Repeat size: The repeat size of this fabric is 24X24.

14. Type of loom: Dobby loom is used to produce this fabric.

End Use: This type of fabric is very much used for making towel, bed sheet, pillow, table cloth etc.

Conclusion: 

Analysis of fabric structure is very essential to know about the fabric. Because it gives all kinds of information about the fabric that is needed to reproduce or to change structure or design of fabric. By this practical I learn how to analyse primarily a simple plain structure of woven fabric. Further I will learn more complex fabric analysis. But this basic structure analysis will be very much helpful not only to analyse those but also in my future career.

Analysis of Diamond Woven Fabric Structure | Specification of DiamondWoven Fabric

Experiment name: Analysis of woven fabric(Diamond).

Object:
1.To sketch the structure of fabric.
2.To know about the raw material of fabric.
3.To know about different specifications of fabric.

Sample: 

 

Apparatus:
1. Counting glass,
2. Needle,
3. Beesleys balance,
4. Twist tester,
5. GSM cutter,
6. Graph paper.

Analysis:
1. Weave plan: In graph the gaps between the lines are considered according to X axis as weft threads and according to Y axis as warp threads. The up threads are indicated by filling up the gaps and down threads without filling up the gaps.

2. Drafting plan: According to British system drafting plan is drawn at the top of weave plan. Here pointed draft is used to draft the plan.

3. Lifting plan: The lifting plan is drawn at the right side of the weave plan.

4. Face side and backside: The face and backside can be easily understood.

5. Direction of warp and weft: Direction of both warp and weft are indicated by arrow marks by the side of the sample.

6. Raw material: Both warp and weft yarns are cotton.

7. Thread density:

No. of reading	EPI	Average	PPI	Average
1	56	54	39	40
2	55		40
3	53		37
4	54		38
5	52		41

8. Yarn count:

No. of reading	Warp count	Average	Weft count	Average
1	18	20	7	9
2	19		10
3	21		9
4	20		8
5	22		11

9. Yarn twist:

No. of reading	Warp twist	Average	Weft twist	Average
1	3	4	3	5
2	5		6
3	4		4
4	3		5
5	6		6

10. Direction of twist: Both warp and weft yarns are ‘Z’ twisted.
11. Design of fabric: The formula number of this fabric is .

12. GSM calculation: We take one square inch fabric sample and find its weight 0.1116 gm.
We know 1 inch = 2.54 cm i.e. 0.0254 m. So, 1 sq. inch = 0.02542 sq. m.
Now, 0.02542 sq. m sample wt. = 0.1116 gm.
1 sq. m sample wt. = 173 gm.
Therefore GSM of fabric is 267 gm/meter2.

13. Repeat size: The repeat size of this fabric is 18´18.

14. Type of loom: Tappet loom is used to produce this fabric.

End Use:  

This type of fabric is used for making towel, bedsheet, pillow cover, table cloth and so on.

Conclusion: 

Analysis of fabric structure is very essential to know about the fabric. Because it gives all kinds of information about the fabric that is needed to reproduce or to change structure or design of fabric. By this practical I learn how to analyse primarily a simple plain structure of woven fabric.

Ordinary Honey Comb | Brighton Honey Comb | End Uses of Honey Comb

The honey comb weaves derive their name from their partial resemblance to the hexagonal honey comb cells of wax in which bees store their honey. These weaves form ridges and hollows which give a cell like appearance to the textures. Both warp and weft threads float somewhat on both sides, which coupled with the rough structure, renders this class of fabric readily absorbent of moisture. The weaves are of two classes, namely,

(i) Ordinary honey comb or honey comb proper
(ii) Brighton honey comb

Ordinary Honey Comb

These weaves are characterized by the following features
(a) Cell like appearance with ridges and hollows
(b) Single line crossing a single line or double line crossing a double diagonal line
(c) More warp and weft floats
(d) Moisture absorbent due to floats
(e) Constructed with pointed drafts
(f) A reversible fabric having similar effect on both sides.

Brighton Honey Comb

These weaves are characterized by the following features :
(a) Non-reversible cloths in which face appears different from back side of the cloth
(b) Constructed on straight drafts only
(c) Repeat size is a multiple of 4
(d) Length of longest float is N/2 – 1, where N is the repeat size
(e) A single diagonal line crosses a double diagonal line
(f) Formation of 4 cells per repeat i.e., two large and two small cells (ordinary honey comb forms only one cell per repeat)
(g) The number of threads in a repeat must be a multiple of 4.

End Uses
The fabrics constructed from honey comb weaves have more thread floats on both sides and have a rough structure. This renders more absorption of moisture. The weaves are, therefore, suitable for towels and also in various forms for bed covers and quilts.

Analysis of Woven Fabric Structure (Twill)

Experiment name: Analysis of woven fabric(Twill).

Object:
1. To sketch the structure of fabric.
2. To know about the raw material of fabric.
3. To know about different specifications of fabric.

Sample:
A piece of plain woven fabric.

Apparatus:
1. Counting glass,
2. Needle,
3. Beesleys balance,
4. Twist tester,
5. GSM cutter,
6. Graph paper.

Analysis:
1. Weave plan: In graph the gaps between the lines are considered according to X axis as weft threads and according to Y axis as warp threads. The up threads are indicated by filling up the gaps and down threads without filling up the gaps.

2. Drafting plan: According to British system drafting plan is drawn at the top of weave plan. Here straight draft is used to draft the plan.

3. Lifting plan: The lifting plan is drawn at the right side of the weave plan.

4. Face side and backside: The face and backside can not be easily understood.

5. Direction of warp and weft: Direction of both warp and weft are indicated by arrow marks by the side of the sample.

6. Raw material: Both warp and weft yarns are cotton.

7. Thread density:

No. of reading	EPI	Average	PPI	Average
1	90	90	76	76
2	91		75
3	90		75
4	92		76
5	91		74

8. Yarn count:

No. of reading	Warp count	Average	Weft count	Average
1	55	55	41	42
2	54		42
3	53		40
4	55		43
5	54		41

9. Yarn twist: Both warp and weft yarns have no twist.

10. Design of fabric: Color and weave effect is used to design the fabric and Z twill is used as basic design. Two colors are used in both warp and weft way. In warp color ratios are 4:2, 4:4, 2:4 & 2:2 and in weft 2:2, 4:2 & 4:4.

11. GSM calculation: By GSM cutter we cut the fabric. Then weight by electric balance. We find the GSM of fabric is 124 gm/meter2.

12. Repeat size: The repeat size of this fabric is 4´ 4.

13. Type of loom:  Jacquard loom is used to produce this fabric.

14. End use: This type of fabric is used for making coat and suited cloth. It is used for wear cloth and house furnishing cloth etc.

Conclusion:
Analysis of fabric structure is very essential to know about the fabric. Because it gives all kinds of information about the fabric that is needed to reproduce or to change structure or design of fabric. By this practical I learn how to analyse primarily a simple plain structure of woven fabric. Further I will learn more complex fabric analysis. But this basic structure analysis will be very much helpful not only to analyse those but also in my future career.