Role of fiber morphology in thermal bonding

Author

Subhash Chand

Date of Award

12-1999

Degree Type

Thesis

Degree Name

Master of Science

Major

Textiles, Retail, and Consumer Sciences

Major Professor

Gajanan S. Bhat

Committee Members

Joseph E. Spruiell, Kermit E. Duckett

Abstract

The aim of this research was to investigate the thermal point bonding process. Primary objectives were to carefully understand the changes taking place in the fiber structure due to applied heat and pressure, and the role of fiber morphology in determining optimum process conditions and the properties of the webs. To study fibers with varying morphology, i.e., from partially drawn as in spunbonding to fully drawn as in staple fiber nonwovens, fibers with a wide range of crystallinity and orientation were spun and characterized from a polypropylene resin. Thermally bonded carded webs were produced using these fibers and characterized in order to understand thermal bonding behavior of fibers with different morphology. The fibers with different morphologies differed in their bonding behavior. The fibers with higher molecular orientation and crystallinity tended to form a weak and brittle bond due to lack of polymer flow and fibrillation of the fibers in the bonded regions. In general, fibers with lower molecular orientation and lower crystallinity yielded stronger and tougher webs. Fibers with relatively less developed morphology also exhibited lower optimum bonding temperature. Significant morphological changes in fibers were observed during the thermal bonding process, in bonded as well as unbonded regions of the web. As a final step to see how the observations from staple fiber study translate to one of the relevant process during scale-up, spunbond studies were also conducted.

Recommended Citation

Chand, Subhash, "Role of fiber morphology in thermal bonding. " Master's Thesis, University of Tennessee, 1999.
https://trace.tennessee.edu/utk_gradthes/9800