Environment Corresponding Package by Quantitative Mixing System with Functional Inorganic Material and Polyolefin Resin (기능성 무기물과 폴리올레핀계 수지의 정량적 혼합시스템에 의한 환경대응형 포장소재 개발)

Hisam Kim (김희삼); Hyunju Lim (임현주); 박영미

Environment Corresponding Package by Quantitative Mixing System with Functional Inorganic Material and Polyolefin Resin

Textile Coloration and Finishing
Abbr : Text. Color. and Finish.
2009, 21(1), pp.1-9
Publisher : The Korean Society Of Dyers And Finishers
Research Area : Engineering > Fiber Engineering > Dyeing Engineering

Hisam Kim ¹, Hyunju Lim ², 박영미 ³

¹한국폴리텍섬유패션대학
²경북대학교
³University of California

Accredited

ABSTRACT

A lot of research has been made over the recent decade to develop testing packages with antimicrobial properties to improve food safety. In this study, a new method, experimental device and technology for environmental corresponding packages of polypropylene (PP) film has been developed to provide effective temperature buffering during the transport/long-term storage of grains or foodstuffs from the supplier to the market. This quantitatively optimized mixing system enabled to produce PP films with the 700~1,400d (width;1.5~3㎜, thickness;0.01~0.5㎜). In the whole mixing systems, the finely-granulated inorganic illite and PP virgin chip for master batch (M/B) chip was calculated by digital measurement methods, and then the M/B chip for PP film was adapted through a air jet and PP grinding method. The prepared PP film was characterized with tensile strength and elongation, far infrared radiation (FIR) emissivity, antimicrobial activity and deodorization properties. The results revealed that the two differently grain-sized illite could be show homogeneously dispersed on PP chip surface, and as the increasing of illite content, the FIR emissivity and the anion emission rate of film was increasingly improved. In both of 325 and 1,500 mesh-sized illite contained PP chip, of course the antimicrobial activity was good. But the ultimate deodorization rate for ammonia gas of PP film were found to be approximately the same.

KEYWORDS

polypropylene film, illite, functional inorganic material, master batch chip, quantitative mixing system

Citation status

* References for papers published after 2023 are currently being built.

[journal] G. Natta / 1957 / / Gazz. Chim 87 : 570~

[journal] Y. S. Jeong / 1980 / / Polypropylene, Polymer 4(4) : 337~343

[other] D. W. Lim / 1996 / KR Pat. 0003672

[other] S. J. Choi / 2002 / KR Pat. 0005951

[journal] M. Yani / 1998 / Ammonia Gas Removal Characteristics Using Biofilter with Activated Carbon Fiber as a Packing Material / Environ. Technol 19 : 709~715

[journal] D. J. Lee / 1997 / A Study on the Geological Occurrence, the Mineralogical and Physico - Chemical Properties of the Yucheon Sericite Ore in Chungha Area / The Mineralogical Society of Korea 10(2) : 114~125

[journal] S. U. Aja / 1991 / Illite Stability Equilibria in Solution : I. Phase Relationships in the System K2O-Al2O3- SiO2-H2O between 25 and 250 Co / Geochimica et Cosmochimica Acta 55 : 1353~1364

[journal] Q. Du / 1997 / Adsorption of Copper at Aqueous Illite Surfaces / Journal of Colloid and Interface Science 187 : 232~242

[other] H. S. Kim / 2005 / KR Pat. 0098930

[journal] Y. H. Lee / 1996 / Far-infrared Finish / J. Korean Soc. Dyers & Finishers 8 : 71~77

[journal] V. Hopfea / 1995 / In-situ FTIR Emission Spectroscopy in a Technological Environment: Chemical Vapour Infiltration (CVI) of SiC composites / Journal of Molecular Structure 347(1) : 331~342

[journal] 이현경 / 2006 / Far Infrared Radiation Characteristics of Germanium Compounds / 공업화학 / 한국공업화학회 17(6) : 597~603

[journal] 박영미 / 2007 / Waterproof and Breathable Textiles for Improvement of Thermal Comfort by Dual Complex Coating of Ceramics / 한국섬유공학회지 / 한국섬유공학회 44(4) : 211~219

[journal] H. S. Shim / 2006 / Far IR Emission and Thermal Properties of Ceramic Coated Fabrics by IR Thermography / Key Engineering Materials 321 : 849~852

[journal] K. Vaideki / 2007 / Investigation on the effect of RF Air Plasma and Neem Leaf Extract Treatment on the Surface Modification and Antimicrobial Activity of Cotton Fabric / Surface Science

[other] H. S. Kim / 2001 / KR. Pat. 0048614

This paper was written with support from the National Research Foundation of Korea.

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