Feeder stripe, Engineering stripe and Auto stripe mechanismAzmir Latif Beg
Auto stripe machine give stable structure with auto-stripper device, which could get various colors. Auto stripe & Engineering is commonly mark in use that does not goes with their definition. Today I will discuss regarding knit stripe patter.
Effect of machine parameters on knit fabric specificationstawfik_hussein
Effect of Machine Parameters on Knit Fabric Specifications
Cotton knit fabrics of yarn count 16Ne, 20Ne, 26Ne, 30Ne, 40Ne and 120-200 GSM for plain, 165-280 GSM for rib, 205-250 GSM for interlock were investigated with different machine parameters. The investigation developed a way so that it can be visualized or can forecast the resulting fabric specification with required configuration. The research emphasized on the adjustable points on which fabric GSM, stitch length, fabric width, and compactness directly or indirectly depends. It can be approached that the yarn count increases with the machine gauge. At different ranges of GSM the variation of the finished fabric diameter with the machine diameter is different. From a constant, VDQ number can be obtained for a particular stitch length and fabric design. Key Words: GSM, Stitch length, Yarn count, Fabric Width, Machine gauge, Needle.
Basic knowledge about blend dyeing
Dyeing of Blended Fibres & Fabrics
Blends:
Blends are any textile material from fiber through yarn to fabric which are deliberate combination of chemically or physically different fibrous polymer. Cotton and Polyester blend is an example of chemically different blend and Cotton and Viscose is physically different blend because both are cellulosic.
Reason for blending:
1.Economy: The dilution of an expensive fibre by blending with a cheaper substitute.
2.Durability: The incorporation of a more durable component to extend the useful life of a relatively fragile fibre.
3.Physical properties: A compromise to take advantage of desirable performance charactristics contribuition by both fibre components.
4.Color: The development of new fabric design for garments incorporating multicolor effect.
5.Appearance: The attainment of attractive appearance & perceptible qualities using combinations of yarns of different lusture, crimp or denier which still differ in appearance even when dyed with same color.
6.Other reasons-
Blending develops fibre properties.
Colorant modification is possible by blending.
Finishing process modification.
Improved moisture absorption, antistatic characteristics, reduced pilling, improved abrasion resistance.
Dyeing Possibilities with Blends:
1.Union Dyeing:
• This is suitable for fabrics containing two fibres to dye them in a single uniform colour, each dye suitable for one kind of fibre in the blend.
• Union dyeing is same as cross dyeing except that instead of multi-colour effects. One solid colour is produced. The dyer accomplishes this by using two or more classes of dye, each of the same colours.
• Different fibres may require different dyes to obtain the same colour; this may be done by putting the appropriate colour dye that is specific to each type of fibre in to one dye bath.
• For eg: a fabric composed of rayon and acetate can be dyed with a solid colour green by using a direct dye for the rayon, and a disperse dye of the same colour for the acetate.
2.Resist/Reserve dyeing:
• In resist dyeing at least one (but not all) of the components of the blend remains essentially undyed i.e almost white.
3.Cross dyeing:
• Cross dyeing produces fibres of contrasting color
• This is two types-
a)Shadow effect/Tone-in-Tone dyeing:
Two fibres are dyed in same hue & brightness but the depth is different. It is called tone-in-tone or shadow effect.
b)Contrast effect:
Two fibres are dyed with strong difference in hue, brightness & depth.This is called contrast effect. Pleasing final appearance is important here.
Denim is a sturdy cotton warp-faced textile in which the weft passes under two or more warp threads. This twill weaving produces a diagonal ribbing that distinguishes it from cotton duck.
Denim is available in a range of colors, but the most common denim is indigo denim in which the warp thread is dyed while the weft thread is left white. As a result of the warp-faced twill weaving, one side of the textile is dominated by the blue warp threads and the other side is dominated by the white weft threads. Jeans fabricated from this cloth are thus predominantly white on the inside.
Bahauddin Zakariya University College of Textile Engineering.
In this presentation , i am trying to present some basic information about terry towel. Such as - Manufacturing flow chart,Types of yarn used , different parts of towel, pile structure, Design of terry through CAD software, types of selvage etc.
Feeder stripe, Engineering stripe and Auto stripe mechanismAzmir Latif Beg
Auto stripe machine give stable structure with auto-stripper device, which could get various colors. Auto stripe & Engineering is commonly mark in use that does not goes with their definition. Today I will discuss regarding knit stripe patter.
Effect of machine parameters on knit fabric specificationstawfik_hussein
Effect of Machine Parameters on Knit Fabric Specifications
Cotton knit fabrics of yarn count 16Ne, 20Ne, 26Ne, 30Ne, 40Ne and 120-200 GSM for plain, 165-280 GSM for rib, 205-250 GSM for interlock were investigated with different machine parameters. The investigation developed a way so that it can be visualized or can forecast the resulting fabric specification with required configuration. The research emphasized on the adjustable points on which fabric GSM, stitch length, fabric width, and compactness directly or indirectly depends. It can be approached that the yarn count increases with the machine gauge. At different ranges of GSM the variation of the finished fabric diameter with the machine diameter is different. From a constant, VDQ number can be obtained for a particular stitch length and fabric design. Key Words: GSM, Stitch length, Yarn count, Fabric Width, Machine gauge, Needle.
Basic knowledge about blend dyeing
Dyeing of Blended Fibres & Fabrics
Blends:
Blends are any textile material from fiber through yarn to fabric which are deliberate combination of chemically or physically different fibrous polymer. Cotton and Polyester blend is an example of chemically different blend and Cotton and Viscose is physically different blend because both are cellulosic.
Reason for blending:
1.Economy: The dilution of an expensive fibre by blending with a cheaper substitute.
2.Durability: The incorporation of a more durable component to extend the useful life of a relatively fragile fibre.
3.Physical properties: A compromise to take advantage of desirable performance charactristics contribuition by both fibre components.
4.Color: The development of new fabric design for garments incorporating multicolor effect.
5.Appearance: The attainment of attractive appearance & perceptible qualities using combinations of yarns of different lusture, crimp or denier which still differ in appearance even when dyed with same color.
6.Other reasons-
Blending develops fibre properties.
Colorant modification is possible by blending.
Finishing process modification.
Improved moisture absorption, antistatic characteristics, reduced pilling, improved abrasion resistance.
Dyeing Possibilities with Blends:
1.Union Dyeing:
• This is suitable for fabrics containing two fibres to dye them in a single uniform colour, each dye suitable for one kind of fibre in the blend.
• Union dyeing is same as cross dyeing except that instead of multi-colour effects. One solid colour is produced. The dyer accomplishes this by using two or more classes of dye, each of the same colours.
• Different fibres may require different dyes to obtain the same colour; this may be done by putting the appropriate colour dye that is specific to each type of fibre in to one dye bath.
• For eg: a fabric composed of rayon and acetate can be dyed with a solid colour green by using a direct dye for the rayon, and a disperse dye of the same colour for the acetate.
2.Resist/Reserve dyeing:
• In resist dyeing at least one (but not all) of the components of the blend remains essentially undyed i.e almost white.
3.Cross dyeing:
• Cross dyeing produces fibres of contrasting color
• This is two types-
a)Shadow effect/Tone-in-Tone dyeing:
Two fibres are dyed in same hue & brightness but the depth is different. It is called tone-in-tone or shadow effect.
b)Contrast effect:
Two fibres are dyed with strong difference in hue, brightness & depth.This is called contrast effect. Pleasing final appearance is important here.
Denim is a sturdy cotton warp-faced textile in which the weft passes under two or more warp threads. This twill weaving produces a diagonal ribbing that distinguishes it from cotton duck.
Denim is available in a range of colors, but the most common denim is indigo denim in which the warp thread is dyed while the weft thread is left white. As a result of the warp-faced twill weaving, one side of the textile is dominated by the blue warp threads and the other side is dominated by the white weft threads. Jeans fabricated from this cloth are thus predominantly white on the inside.
Bahauddin Zakariya University College of Textile Engineering.
In this presentation , i am trying to present some basic information about terry towel. Such as - Manufacturing flow chart,Types of yarn used , different parts of towel, pile structure, Design of terry through CAD software, types of selvage etc.
CSS is the 2nd step of coding for web designing after HTML. Here is the basic coding terms of CSS that I learnt during my web designing course. This may help you too. Thank you :)
HTML is the first step of coding for web designing. Here is the basic coding terms of HTML that I learnt during my web designing course. It may help you too. Thank you :)
The Impact of Artificial Intelligence on Modern Society.pdfssuser3e63fc
Just a game Assignment 3
1. What has made Louis Vuitton's business model successful in the Japanese luxury market?
2. What are the opportunities and challenges for Louis Vuitton in Japan?
3. What are the specifics of the Japanese fashion luxury market?
4. How did Louis Vuitton enter into the Japanese market originally? What were the other entry strategies it adopted later to strengthen its presence?
5. Will Louis Vuitton have any new challenges arise due to the global financial crisis? How does it overcome the new challenges?Assignment 3
1. What has made Louis Vuitton's business model successful in the Japanese luxury market?
2. What are the opportunities and challenges for Louis Vuitton in Japan?
3. What are the specifics of the Japanese fashion luxury market?
4. How did Louis Vuitton enter into the Japanese market originally? What were the other entry strategies it adopted later to strengthen its presence?
5. Will Louis Vuitton have any new challenges arise due to the global financial crisis? How does it overcome the new challenges?Assignment 3
1. What has made Louis Vuitton's business model successful in the Japanese luxury market?
2. What are the opportunities and challenges for Louis Vuitton in Japan?
3. What are the specifics of the Japanese fashion luxury market?
4. How did Louis Vuitton enter into the Japanese market originally? What were the other entry strategies it adopted later to strengthen its presence?
5. Will Louis Vuitton have any new challenges arise due to the global financial crisis? How does it overcome the new challenges?
New Explore Careers and College Majors 2024.pdfDr. Mary Askew
Explore Careers and College Majors is a new online, interactive, self-guided career, major and college planning system.
The career system works on all devices!
For more Information, go to https://bit.ly/3SW5w8W
Exploring Career Paths in Cybersecurity for Technical CommunicatorsBen Woelk, CISSP, CPTC
Brief overview of career options in cybersecurity for technical communicators. Includes discussion of my career path, certification options, NICE and NIST resources.
2. Name Measurement (CM) Description
Chest Width 52 2.5 Cm from underarm
Body Length 70 From hsp to hem
Shoulder Length 42 From CB to end of cuff
Shoulder slop 3.5 From CB to end of cuff
Hem Width 40 seam to seam
Sleeve Length overarm 64 seam to seam
Sleeve Width 18 2.5 CM below armhole
Armhole 24 Armhole straight
Welt Depth 6 Perpendicular from HPS
Cuff Depth 6 at Bottom
Cuff width 9 at Bottom
Collar Depth 2
Neck Drop front 9 from HSP to seam
Neck Drop Back 2 from HSP to seam
Neck Width 18 Seam to seam
Half moon width 18
Half moon height 17
Zipper length 19
Minimum Neck Stretch 31
Measurement Points
Name Measurement (CM) Description
Chest Width 52 2.5 Cm from underarm
Body Length 70 From hsp to hem
Shoulder Width 42 Seam to seam
Shoulder slop 3.5
Hem Width 40
Half span 64 From CB to end of cuff
Sleeve Width 18 2.5 CM below armhole
Armhole 24 Armhole straight
Welt Depth 6
Cuff Depth 6
Cuff width 9 at Bottom
Collar Depth 2
Neck Drop front 9 from HSP to seam
Neck Drop Back 2 from HSP to seam
Neck Width 18 Seam to seam
Half moon width 18
Half moon height 17
Zipper length 19
Minimum Neck Stretch 31