THE INFLUENCE OF STITCH DENSITY ON THE STRENGTH, ELONGATION AND EFFICIENCY OF PLAIN SEAM IN A REAL WAX PRINTED FABRIC

Authors

  • P. A. Danquah Department of Vocational and technical education , University of Cape Coast, Ghana
  • M. E. Gavor Department of Vocational and technical education, University of Cape Coast, Ghana

Keywords:

Strength, Stitch, Density, Efficiency, Elongation

Abstract

This paper studied the performance of seams in a real wax printed fabric. The purpose of this research was to find out the impact of three stitch densities on the strength, elongation and efficiency of plain seam in a Real Wax cotton print. Warp seams were used in the investigations. The stitch densities used ranged from 8-12 stitches per inch (SPI). A tensile testing machine (Hounsfield H5K-S) was used in the determination of the strength and elongation of fabric and seams. The thread used for the stitching was a Sunflag brand polyester thread, which is commonly used by Ghanaian seamstresses and tailors. Means, standard deviations and One-Way Analysis of Variance (at 0.05 alpha levels) were used in the analysis of the data. The outcome of the investigations indicated that differences existed between stitch densities used in the making of the plain seams on the Real Wax print chosen with regard to seam efficiency, strength and elongation. In all the parameters investigated, 12 stitches per inch had the highest values with 8 stitches per inch having the least values. It was also noted in the study that the fabric had higher strength than that of the seam stitched in 8 SPI, but for 10 and 12 SPIs the seams were stronger than the fabric. It is recommended that further research be conducted into the performance of threads on the Ghanaian market in seams and also the performance of seams in real wax prints after washing to determine how seams behave in wax prints during use.

Author Biographies

P. A. Danquah, Department of Vocational and technical education , University of Cape Coast, Ghana

A lecturer at Department of Vocational and technical education, University of Cape Coast, Ghana

M. E. Gavor, Department of Vocational and technical education, University of Cape Coast, Ghana

A Lecturer at the Department of Vocational and technical education, University of Cape Coast, Ghana

References

American & Efird, Inc (2002). Selecting the right SPI. Retrieved May 9, 2010 from http://www.amefird com/selecting spi.pdf.

American & Efird (2009). Seam engineering. Retrieved May 9, 2010 from http://www.fibre2fashion.com/industry-article/technology-industry-article/seam-engineering/seam-engineering4.asp.

ASTM D6193-09 (1996). ASTMD 6193-09 Standard practice for stitches and seams. Retrieved May 9, 2010 from http://www.astm.org/standards/D 6193.htm.

Chowdhary, U., and Poynor, D. (2006). Impact of stitch density on seam strength, seam elongation and seam efficiency. International Journal of Consumer Studies, 30, 561-568.

Gaurav, D. (2006). Essentials for enhanced seam strength. Retrieved May 9, 2010 from http://ezineArticles.com/?expert=Gaurav Doshi.

Ghana Standards Authority GS ISO 139 (2005). Textiles- standard atmosphere for conditioning and testing. Accra, Ghana: Ghana Standards Authority.

International Organization for Standardization 13934-1 (1999). Textiles- Tensile properties of

fabrics-Part 1: Determination of maximum force and elongation at maximum force using the strip test method. Switzerland: International Organization for Standardization.

International Organization for Standardization 13935-1 (1999). Seam tensile properties of fabrics and made-up textile articles. Part 1: Determination of maximum force to seam rupture using the strip method. Switzerland: International Organization for Standardization.

Mehta, P.V., and Bhardwaj, K.S. (1998). Managing quality in the apparel industry. New Age International, U.S. A.

Mukhopadhyay, A., Sikka, M., and Karmaker, A. K. (2004). Impact of laundering on the seam tensile properties of suiting fabric. International Journal of Clothing Science and Technology,16, 394-403.

Nassif, N. A. A. (2013). Investigation of the effect of sewing machine parameters on the seam quality. Life Science Journal, 10(2), 1427-1435.

Olsen, T. (2008). Developments in testing seams. Retrieved May 9, 2010 from http://www.tstingtextiles.com/inder.php.

Pizzuto, J. J. (2012). Fabric science (10th ed.). New York: Fiarchild.

Stamper, A.A., Sharp, S. H., and Donnell, L. B. (1991). Evaluating apparel quality. New York: Fiarchild.

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Published

2016-11-05

How to Cite

Danquah, P. A., & Gavor, M. E. (2016). THE INFLUENCE OF STITCH DENSITY ON THE STRENGTH, ELONGATION AND EFFICIENCY OF PLAIN SEAM IN A REAL WAX PRINTED FABRIC. AFRICAN JOURNAL OF APPLIED RESEARCH, 2(2). Retrieved from https://ajaronline.com/index.php/AJAR/article/view/181