Geometrical Model to Determine Sewing Thread Consumption for Stitch Class 406

ur Rehman, Ateeq; Rasheed, Abher; Javed, Zafar; Naeem, M. Salman; Ramzan, Babar; Karahan, Mehmet

doi:10.5604/01.3001.0015.2726

Artykuł - szczegóły

Tytuł artykułu

Geometrical Model to Determine Sewing Thread Consumption for Stitch Class 406

Autorzy

ur Rehman Ateeq , Rasheed Abher , Javed Zafar , Naeem M. Salman , Ramzan Babar , Karahan Mehmet

Treść / Zawartość

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DOI

10.5604/01.3001.0015.2726

Warianty tytułu

Języki publikacji

Abstrakty

This study aimed at developing a geometrical model for predicting the sewing thread consumption of stitch class 406. Stitch class 400 is a multi-thread chain stitch which consumes a less amount of thread as compared with stitch class 500 but more thread as compared with stitch class 300. Sewing thread calculation plays a significant role in determining the exact amount of thread for completing a garment and predicting the right quantity of thread for bulk production. The geometrical model developed was used for predicting sewing thread consumption by using different factors like stitch density (8 and 12 SPI), material thickness (2, 4 and 6 layers of fabric), and type of material (denim, knitted and fleece). The model was validated with a total of 18 samples sewn with different kinds of fabric, SPI, and material thickness. It was concluded that the model could predict sewing thread consumption with more than 97.18% accuracy.

Słowa kluczowe

sewing thread consumption stitch class stitch density geometric model

Wydawca

Sieć Badawcza Łukasiewicz - Łódzki Instytut Technologiczny

Czasopismo

Fibres & Textiles in Eastern Europe

Rocznik

2021

Tom

Vol. 29, no. 6 (150)

Strony

72--76

Opis fizyczny

Bibliogr. 18 poz., rys., tab.

Twórcy

autor

ur Rehman Ateeq

National Textile University, Department of Garments Manufacturing, Faisalabad, Pakistan

autor

Rasheed Abher

National Textile University, Department of Garments Manufacturing, Faisalabad, Pakistan

autor

Javed Zafar

National Textile University, Department of Design, Faisalabad, Pakistan

autor

Naeem M. Salman

National Textile University, Department of Design, Faisalabad, Pakistan

autor

Ramzan Babar

babar_ramzan@yahoo.com

National Textile University, Department of Garments Manufacturing, Faisalabad, Pakistan

autor

Karahan Mehmet

mkarahan@uludag.edu.tr

Udulağ University, Vocational School of Technical Sciences, Görükle-Bursa, Turkey

Bibliografia

1. Mangat M, Rasheed A, editors. Correlation Between Stitching Thread Parameters and Garment Productivity. International Conference on Textile and Clothing, Lahore, Pakistan; 2006.
2. Iftikhar F, Hussain T, Malik M, Ali Z, Nazir A. Fabric Structural Parameters Effect on Seam Efficiency-Effect of Woven Fabric Structural Parameters on Seam Efficiency. J Textile Sci Eng. 2018; 8(358): 2.
3. Sülar V, Meşegül C, Kefsiz H, Seki Y. A Comparative Study on Seam Performance of Cotton and Polyester Woven Fabrics. The Journal of the Textile Institute 2015;106(1): 19-30.
4. Farhana K, Syduzzaman M, Yeasmin D. Effect of Sewing Thread Linear Density on Apparel Seam Strength: A research on Lapped & Superimposed seam.
5. Ebrahim FFS. Influence of Mechanical Properties of Cotton Fabrics on Seam Quality. Life Science Journal 2012; 9(2).
6. Rajput B, Kakde M, Gulhane S, Mohite S, PP R. Effect of Sewing Parameters on Seam Strength and Seam Efficiency. Trends in Textile Engineering and Fashion Technology 2018; 4(1): 1-5.
7. Ali N, Rehan AM, Ahmed Z, Memon H, Hussain A. Effect of Different Types of Seam, Stitch Class and Stitch Density on Seam Performance. Journal of Applied and Emerging Sciences 2016; 5(1): 32-43.
8. Frydrych I, Greszta A. Analysis of Lockstitch Seam Strength and Its Efficiency. International Journal of Clothing Science and Technology, 2016.
9. Glock RE, Kunz GI. Apparel Manufacturing: Sewn Product Analysis: Pearson/Prentice Hall Upper Saddle River, NJ; 2005.
10. Abeysooriya RP, Wickramasinghe GLD. Regression Model to Predict Thread Consumption Incorporating Thread-Tension Constraint: Study on Lock-Stitch 301 and Chain-Stitch 401. Fashion and Textiles 2014; 1(1): 14.
11. Jaouadi M, Msahli S, Babay A, Zitouni B. Analysis of the Modeling Methodologies for Predicting the Sewing Thread Consumption. International Journal of Clothing Science and Technology 2006.
12. Jaouachi B, Khedher F. Evaluating Sewing Thread Consumption of Jean Pants Using Fuzzy and Regression Methods. Journal of the Textile Institute 2013; 104(10): 1065-70.
13. Ukponmwan J, Mukhopadhyay A, Chatterjee K. Sewing Threads. Textile Progress. 2000; 30(3-4): 1-91.
14. Jaouachi B, Khedher F, Mili F. Consumption of the Sewing Thread of Jean Pant Using Taguchi Design Analysis. AUTEX Research Journal 2012; 12(4): 81-6.
15. Rasheed A, Ahmad S, Mohsin M, Ahmad F, Afzal A. Geometrical Model to Calculate The Consumption of Sewing Thread for 301 Lockstitch. The Journal of The Textile Institute 2014; 105(12): 1259-64.
16. Rasheed A, Ahmad S, Ali N, ur Rehman A, Ramzan MB. Geometrical Model to Calculate the Consumption of Sewing Thread for 504 Over-Edge Stitch. The Journal of the Textile Institute 2018; 109(11): 1418-23.
17. Jaouadi M, Msahli S, Sakli F. Contribution to Measurement of Real Yarn Diameter. The Journal of The Textile Institute 2009; 100(2): 158-64.
18. Das S, Hossain M, Rony MSH, Hashan MM, Haque AU, Majumder M. Analyzing Technical Relationships among GSM, Count and Stitch Length of (1x1) Ri b and (1x1) Grey Interlock Fabric. Int J Text Sci. 2017; 6: 64-71.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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