Author(s)

Umme Magreba Takebira, A. T. M. Mohibullah^*, Md. Zawadul Hossain, Shajidul Islam Tanim, Md. Sharif Ahammad Redoy, Md. Lutfar Rahman, Md. Shakib Rejwan

Department of Apparel Manufacturing & Technology, BGMEA University of Fashion & Technology, Dhaka, Bangladesh.

Sizing is an inherent part of weaving works, consisting in the coating of the warp yarn with a polymeric adhesive, such as starch, in order to assist efficient weaving. The study is aimed to assess the effects of squeezed roller pressure, dryer temperature, yarn count, machine speed (rpm) on cotton fabric weaving. Coarser and finer cotton yarn samples were prepared using sizing solution BENSIZE 850. Different size box temperature, yarn count, fabric construction, machine speed, squeeze roller pressure were considered to construct different weaving designs to study yarn breakages parameter. A warping plan was designed on TAROKO V5.4 (190325) software. The results established that size box lower temperature and higher machine speed provide the smallest amount yarn break during weaving for coarser cotton yarn and the highest for finer cotton yarn. Size box higher temperature and lower machine speed provide maximum yarn breakage during weaving coarser cotton yarn and minimum for fine yarn. Size penetration is uniform, which provides a higher strength of the yarn to less breakage. This aspect of the research suggested that higher yarn strength gives a lesser amount of breakage.

Sizing Material, Machine Parameters, Different Counts, Sizing Efficiency

Takebira, U. , Mohibullah, A. , Hossain, M. , Tanim, S. , Redoy, M. , Rahman, M. and Rejwan, M. (2020) A Regular Study on Yarn Count, Size Box Temperature and Machine Speed to Increase Weaving Efficiency of Cotton Fabric. Journal of Textile Science and Technology, 6, 168-176. doi: 10.4236/jtst.2020.64014.