Byung Seon Yoon scite author profile

Byung Seon Yoon

5Publications

44Citation Statements Received

0Citation Statements Given

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Ajou University

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Studies on the physical properties of modified starch-filled HDPE film

Kang

Yoon

Lee

et al. 1996

J. Appl. Polym. Sci.

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SYNOPSISTo improve the physical properties of starch-filled polyolefin, starch was modified into more hydrophobic material by the introduction of cholesterol unit, and the different starchcompositioned high-density polyethylene (HDPE) films were prepared with addition of either native starch or modified starch to compare their physical properties. The addition of either native starch or modified starch resulted in decreased crystallinities in all the different composite films containing starch. Interestingly, HDPE-blown films containing more than 10% native starch (HDPE/ST) showed a steeper decrease in crystallinity than correspondent HDPE containing the modified starch (HDPE/MS). Improvement of the dispersion and adhesion in HDPE/MS and HDPE/ST were also observed; but at high starch content, the HDPE/MS films showed higher tensile strength and elongation than the HDPE/ST. The degradation of HDPE/MS films in active sludge condition was much faster than that of the HDPE/ST films, although the degradation rate of HDPE/MS films in a-amylase condition were slower than the one of HDPE/ST films. 0 1996 John Wiley & Sons, Inc.

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Studies on the degradable polyethylenes: Use of coated photodegradants with biopolymers

Yoon

Suh

Cheong

et al. 1996

J. Appl. Polym. Sci.

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SYNOPSISThree degradable polymer materials such as starch-polyethylene (PE) binary blends, P E containing starch and a photoactivator, and PE containing starch and a photoactivator which was coated with gelatin were prepared and their degrees of photodegradation and/ or photodegradation after biodegradation were investigated. The addition of the gelatincoated ferric salt in PE extended the induction period of degradation and accelerated photodegradation after the removal of coating material by biodegradation. This result suggested that the degradation rate of P E could be controlled if more powerful photoactivators and/ or coating material are developed and their contents are optimized. 0 1996

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Mechanical properties of polypropylene/polyamide 6 blends: Effect of manufacturing processes and compatibilization

et al. 1997

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The properties of polypropylene (PP)/polyamide 6 (PA) blends, obtained by the following two different blending methods, were investigated. Blends of PP/PA and PP/PA/maleic anhydride have been prepared using a twin screw extruder and a fiber cutting, flying and mixing apparatus that directly commingles PP fiber and PA fiber. The properties measured include rheological properties by means of a capillary rheometer, morphologies by scanning electron microscopy, and mechanical properties by a universal testing machine and a high rate impact tester. In the presence of compatibilizer, a marked dispersibility of the polymer blends of PP and PA was observed, and mechanical properties were found to increase as a result of improvement of the interfacial adhesion and the dispersibility. The properties of PP/PA blends manufactured by two different pieces of equipment were shown to be similar in the case of melting both resins. But in particular, superior impact properties were obtained in blends not melting PA fibers as a dispersed phase rather than blends using maleic anhydride grafted polypropylene (PP‐g‐MA) as a compatibilizer.

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Effects of preferential encapsulation of glass fiber on the properties of ternary GF/PA/PP blends

et al. 2000

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Long fiber molding materials are expected to play an important role in the near future. This paper describes a series of experiments performed to examine properties of ternary blends containing glass fiber (GF), polyamide (PA), and polypropylene (PP). The continuous glass fiber was impregnated with one of the blend constituent polymers by our specially designed impregnation apparatus and cut into chips of 6 mm length. These chips and the other polymer were used to produce various testing specimens in a twin screw extruder or in injection molding machine. The results indicated that the effect of fiber addition on the mechanical and rheological properties is clearly dependent on the order of impregnation process. In the blends containing the GF/PA + PP, the GFs are preferentially encapsulated with PA, and therefore the mechanical properties are superior to the blends with the GF/PP + PA in which the PP phase is located surrounding the GFs. This improved wetting of fibers by sequential impregnation not only resulted in better properties but also protected the fibers from shear action of the screw, thereby allowing significant increase in average fiber length to be achieved in the injection molding process.

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Interfacial component of glass fiber in ternary composites of GF/PC/PP: effect of the preferential encapsulation of glass fiber

Noh

Yoon

Suh

et al. 2001

Polymer

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Byung Seon Yoon

Studies on the physical properties of modified starch-filled HDPE film

Studies on the degradable polyethylenes: Use of coated photodegradants with biopolymers

Mechanical properties of polypropylene/polyamide 6 blends: Effect of manufacturing processes and compatibilization

Effects of preferential encapsulation of glass fiber on the properties of ternary GF/PA/PP blends

Interfacial component of glass fiber in ternary composites of GF/PC/PP: effect of the preferential encapsulation of glass fiber

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