Christine Sun scite author profile

Polypropylene (PP)/poly(ethylene terephthalate) (PET) bicomponent (bico) fibres are successfully melt blown in the Reicofil® meltblown (MB) pilot line commissioned at the Textiles and Nonwovens Development Center (TANDEC), the University of Tennessee, Knoxville. The bico fibers possess a cross‐sectional side‐by‐side configuration. The originally expected greater fiber crimp due to density and fine structure gradients on the different sides of the bico fibers was not commonly observed in the normal MB webs. These fabrics were exposed to dry heat for a period of time. The properties before and after the heat treatment were determined and compared to investigate the effects of heat on their properties. It was found that the bico webs are thermal dimensionally stable and many of their properties were not significantly affected. A mechanism is suggested on the thermal dimensional stability of the PP/PET bico MB webs. © 2003 Society of Chemical Industry

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An investigation of fiber splitting of bicomponent meltblown/microfiber nonwovens by water treatment

Dong

Sun

Hua

2004

J of Applied Polymer Sci

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ABSTRACT:Meltblowing is a most versatile and costeffective process commercially available worldwide to produce microfiber nonwovens directly from thermoplastic resins. The new bicomponent (bico) meltblown technology opens a great possibility to make even finer microfibers by subsequently fiber splitting. Water-dispersive Eastman AQ polymers were initially introduced to the meltblown process to make the mono-and bicomponent meltblown webs at Textiles and Nonwovens Development Center (TANDEC), University of Tennessee, Knoxville. The postwater treatment was performed on the fabrics, which resulted in the dispersive part (AQ polymer) being dispersed in water and only the other part remaining in the bico web. A process-structure-property study is provided toward the research reported in this article.

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Development and characterization of poly(trimethylene terephthalate)‐based bicomponent meltblown nonwovens

Zhang

Sun

Beard

et al. 2001

J of Applied Polymer Sci

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Poly(trimethylene terephthalate) (PTT)-based mono and bico meltblown webs have been produced by using a Reicofil® Bi-Component Meltblown Line at TANDEC, located at the University of Tennessee, Knoxville, TN. Thermal and flow properties of PTT were first examined by DSC (differential scanning calorimetry) and with a Melt Indexer for an effective experimental design through the Surface Response Methodology (SRM). The processability of meltblowing in a wide range of operating windows was extensively investigated. Melt temperature, melt throughput, air temperature, airflow rate, and DCD (distance of collector to die) were considered as primary process control variables. The produced webs were characterized for fiber diameter, bulk density, air permeability, hydrostatic head, tensile properties, and heat shrinkage. Non-round and curly or twisted fibers were observed in the bico PP/PTT webs by SEM (scanning electrical microscope). The PTT grade studied is quite suitable for the meltblown process. The PTT/PP-based bico webs showed enhanced barrier properties and heat resistance.

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Corona treatment of polyolefin films?A review

Sun

Zhang

Wadsworth

1999

Adv. Polym. Technol.

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Corona discharge introduces polar groups into the polymeric surfaces and, as a consequence, improves the surface energy, wettability, and adhesion characteristics. The main chemical mechanism of corona treatment is oxidation. This article further discusses some special problems that are related to corona treatment of polyolefin films by reviewing the recent developments in this field, such as effect of corona treatment on adhesion, effect of resin additives on corona treatment, insufficient treatment and over‐treatment of corona discharge, aging, and re‐treatment. © 1999 John Wiley & Sons, Inc. Adv Polym Techn 18: 171–180, 1999

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Preliminary study on fiber splitting of bicomponent meltblown fibers

Sun

Zhang

Liu

et al. 2004

J of Applied Polymer Sci

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Side-by-side bicomponent meltblown fiber webs were developed on REICOFIL ® bicomponent (bico) meltblown line at The University of Tennessee's Textiles and Nonwovens Development Center (TANDEC), using polypropylene (PP), polyethylene (PE), polyethylene terephthalate (PET), polybutylene terephthalate (PBT), polyamide (PA), polytrimethylene terephthalate (PTT), and so forth. The posttreatment was performed by hydroentanglement to investigate the fiber-splitting behavior in this research. Microscopy analysis and SEM were applied to examine the web structure. The change in web property after posttreatment and the adhesion mechanism of the polymer interface were also addressed.

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Christine Sun

Properties of PP/PET bicomponent melt blown microfiber nonwovens after heat‐treatment

An investigation of fiber splitting of bicomponent meltblown/microfiber nonwovens by water treatment

Development and characterization of poly(trimethylene terephthalate)‐based bicomponent meltblown nonwovens

Corona treatment of polyolefin films?A review

Preliminary study on fiber splitting of bicomponent meltblown fibers

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