2 0 0 7 Proceedings of the Korean Textile Conference Vol. 40, No. 1 www.fiber.or.kr
1 ( ) 5 ( ) IN1-1 IN1-2 IN1-3 IN1-4 IN1-5 IN2-1 IN2-2 IN2-3 IN2-4 IN2-5 IN3-1 IN3-2 7,, *, (, * ) 10, (, ) / 12 CNT- 16,,, *, * (, * ) Multi-walled carbon nanotube 18,,, ( ) 22,, *, ** (, *, ** ) 24,,,, (,, ) PHBV 26 ( ) Electrospun Polymer Nanofibers for Biomedical Applications 30 ( ) 32, *,, ** (, *, ** ) IT 36 ( ) 39 i
IN3-3 IN3-4 IN3-5 (( ) ) IT/ 42 ( ) 45,,,, ( ) 48,, *, **, (, *, ** ) CO1-1 CO1-2 CO1-3 CO1-4 CO1-5 CO1-6 CO1-7 CO1-8 CO1-9 CO1-10 CO2-1 CO2-2 51 R. N. Jana, * (, * ) polyacrylonitrile bead in-situ polyacrylonitrile/hydroxyapatite bead 55, ( ) 59 ( SDI ) 61,, * (, *( ) ) PET/Silica Nanocomposites 65 1,2, 1, 1, 1, 1, 2, 2, 3 ( 1, 2, 3 ) In-situ / 69 1,2, 1,2, 1, 3 ( 1, 2, 3 ) 73,, 77,, (FITI ) 81, ( ) PET /PP 83 87, *,, (( ), * ) 91,,, * (( ), * ) ii
CO2-3 CO2-4 CO2-5 CO2-6 CO2-7 CO2-8 CO2-9 CO2-10 CO3-1 CO3-2 CO3-3 CO3-4 CO3-5 CO3-6 CO3-7 CO3-8 CO3-9 95,,, * (( ), * ) 99,, * (( ), * ) 103,, (( ) ) 107,,,,, * (, * ) Relaxer 111,,,, * (( ), * ) 115 ( ) PET/Nylon 119,, *, ** (, *, **( ) ) 123 Poly(vinylidene fluoride)/lucentite 127,, ( ) P(VDF/TrFE)(72/28) 131 Arun Anand Prabu, ( ) P(VDF/TrFE) 135,, *, (, * ) 139 143 147, ( ) 151, *, ** (, *, ** ) 155, *, *, Beata Lehmann** (, *, ** ) 159, *, ** (, *, ** ) iii
CO3-10 163 1PS-1 1PS-2 1PS-3 1PS-4 1PS-5 1PS-6 1PS-7 1PS-8 1PS-9 1PS-10 1PS-11 1PS-12 1PS-13 1PS-14 1PS-15 1PS-16 1PS-17 PP 167,,, ( ) UV/O 3 PLA 169,, * (, *( ) ) Dual Complex Microporous 171,,,,, ( ( ) ) 173,, *, *, * (, * ) Chitosan/ 175, * (, * ) 177,,, Porphyrazine 179, ( ) Electrospinning thermoplastic polyurethane 181 1, 1,2, 2,3, 3 ( 1, 2, 3 ) 183 185 187 *,, (*, ) 189,,, * ( ) 191 Fullerene Polyaniline Peltier 193 Poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) salt co-solvent 195,,,, ( ) / 197,, ( ) DSSC 199 iv
1PS-18 1PS-19 1PS-20 1PS-21 1PS-22 1PS-23 1PS-24 1PS-25 1PS-26 1PS-27 1PS-28 1PS-29 1PS-30 1PS-31 1PS-32 1PS-33 201,, ( ) 203, ( ) Poly(vinyl alcohol)/hydroxyapatite Cryogel Column 205,,, * (, *( ) ) RGDS 207, 209, *,,, (, * ) Green Chemical Functionalization Carbon nanotubes/polypropylene, 211,,,, * (, *( ) ) Poly(trimethylene terephthalate) Bio-Poly(trimethylene terephthalate) 213, ( ) 3 skeleton coreless 215,,, * (, *( ) ) 217,,,,,, ( ) / 219,,,, ( ) POSS PVA 221, *, **,,, (, *, ** ) / 223,, ( ) 225, *, (, *( ) ) PP/Poly(L-actic acid) 227, *, (, * ) FTIR 1.4-phenylene diisocyanate based PU 229 - Plating Hybrid 231 v
1PS-34 1PS-35 1PS-36 1PS-37 1PS-38 1PS-39 1PS-40 1PS-41 1PS-42 1PS-43 1PS-44 1PS-45 1PS-46 1PS-47 1PS-48 1PS-49 1PS-50 Poly(pentamethylene 2,6-naphthalate) 233, *, (, * ) poly(ethylene 2,6-naphthalate) 235,, ( / ) Hard-segment sodium alginate 237,,,,, ( ) 6 Layer-by-Layer 239, *, **,, (, *, ** ) Polyacrylonitrile/PCM 241,,, *, * (, * ( ) ) 243 PBN/PEG-EPE PEG EPE 245,, TiO 2/CNT 247,, *, * (, * ) 249,, *, *, * (, * ) Click Chemistry 251 Sravendra Rana, Indresh Kumar*, Chandrashakher V. Rode*, (, *National Chemical Laboratory, Pune, India) PVA/Sericin blending yarn 253, *, (, * ) Electrospun PLGA5050 scaffold pore adipose-derived stem cell seeding proliferation 255, *, **, *, *, (, *, ** ) 257,,,,, ( ) ATRP 259,, *, (, * ) Poly(L-lactic acid) 261,, *, (, * ) Poly(ethylene 2,6-naphthalate) 263,, ( / ) / 265, *, **, * (, **, * ) vi
1PS-51 1PS-52 1PS-53 1PS-54 1PS-55 1PS-56 1PS-57 1PS-58 1PS-59 1PS-60 1PS-61 1PS-62 1PS-63 1PS-64 1PS-65 1PS-66 2PS-1 267, 269,,,, *, *, (, * ) 271 1,2, 1,2, 1, 1 ( 1, 2 ) Poly(N-isopropylacrylamide) 273 BaTiO 3 PEO(poly ethylene oxide) 275 Polyacrylonitrile/Hydroxyapatite bead column 277,, ( ) Coumarin 6 Nile red PVK-based PLED 279,, *, *, ** (, *, ** ) 281, *, **, *** (, *, **( ), *** ) 283,, *, (, * ) 285,, * (, * ) 287 Ti poly(ethylene 2,6-naphthalate) 289, ( ) / 291, ( ) ZrC 293, *, **, (, *, ** BK21 ) Human hair 295, **, **, **, * (, *, ** ) Poly(N-isopropylacrylamide) MWNT 297 3 299,,, ( ) vii
2PS-2 2PS-3 2PS-4 2PS-5 2PS-6 2PS-7 2PS-8 2PS-9 2PS-10 2PS-11 2PS-12 2PS-13 2PS-14 2PS-15 2PS-16 2PS-17 2PS-18 PU PET 301 1 303,,,,, ( ( ) ) 305,, * (, * ) 307, *,,,, ** (, * ( ), ** ) 309,, *, *, **, ** ( ( ), *, ** ) PVA/DMSO 311, *, (, * ) PVA/ 313,,,,, ( ) 315 ( ) PET/CoPET 317 PET Awing ATY 319,, * (, *( ) ) Nylon ATY 321,, * (, *( ) ) PET Car-Seat ATY 323,, * (, *( ) ) PVA 325,,,, *, (, *( ) ) 327,, * (( ), * ) 331, Herath C. N., *, ** (, *, ** ) PVA 333, *, **, (, *, ** BK21 ) Magnetite/ 335, *,, (, * ) viii
2PS-19 2PS-20 2PS-21 2PS-22 2PS-23 2PS-24 2PS-25 2PS-26 2PS-27 2PS-28 2PS-29 2PS-30 2PS-31 2PS-32 2PS-33 2PS-34 2PS-35 Silk-apatite 337,,, ( ) Melamine Formaldehyde microcapsule encapsulation efficiency 339, (, ) / 341,, ( ) chain extender 343,,,,,, ( ) 345,,,,, *, ** (, *, **( )E&H) 347,,,, ( ) Poly(3,4-ethylenedioxythiophene) (PEDOT) 349,,,, ( ) PTT(poly(trimethylene terephthalate)) 351,,,, ( ) PLGA / 3-D 353, ( ) Sol-gel process PDMS/TEOS 355,, *, **, (, *, ** BK21 ) 357, *,, ** (, *, ** ) Chemical Condition 359,, *, **, *** (FITI, *, **FITI, *** ) Mono Melt blown Vertical HEPA Filter 361,,,, ( ) Poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) (PHBHHx) 363,, *,, (, * ) PTFE RF Sputtering 365,,, * (, * ) 367, ( ) 369,, *, ** (, *, ix
2PS-36 2PS-37 2PS-38 2PS-39 2PS-40 2PS-41 2PS-42 2PS-43 2PS-44 2PS-45 2PS-46 2PS-47 2PS-48 2PS-49 2PS-50 ** ) 371,,, ( ) N-Substituted Poly(p-phenylene terephthalamide) 373, ( ) 375,, 377, *, (, * ) (Geosynthetics) 379,, *, **, *** (, *, **( ), *** ) PP/F-MWNT, 381,,, *, * (, *, **( ) ) HDPE 383,, *, **, *** (, *, **, *** ) 385,,, *, *, **, ** (, *, ** ) PEDOT 387, *, *,, * (, * ) ARGET ATRP PMMA 389,, *, *, **, (, *, ** ) 391,, * (, * ) PVA 393, *, **, (, *, ** ) (I) - 395,, *, *,,, (, * ) / / 397, *, **, (, *, ** ) poly(ethylene oxide) 399 x
2PS-51 2PS-52 2PS-53 2PS-54 2PS-55 2PS-56 2PS-57 2PS-58 2PS-59 2PS-60 2PS-61 2PS-62 2PS-63 2PS-64 2PS-65 2PS-66,,, ( ) Poly(vinylidene fluoride) (II) 401,, ( ) PHB-HHx/PBS ionomer metal ion-carbonly interaction 403, ( ) Post-Peak 405, *,, **, ** (, *( ), ** ) 407 409, *, **, *** (, *, **, *** ) Chemical Degradation 411, *, *, **, *** (, *FITI, **FITI, *** ) 413,,,, ( ) RA-FTIR GIXRD Poly(trimethylene 2,6-naphthalate) thin film 415, Carbon fabric/poly(3,4-ethylenedioxythiophene) 417,,, ( ) PET Creep 419, * (( ), * ) 421, *, **, * (, *, ** ) 423, ( ) 425 427, *, (, * ) Polymer nanofiber Coalescence 429, G.G Chase*, D.H Reneker** ( SDI, *Microscale Physiochemical Engineering Center, The University of Akron, **Polymer Science Department, The University of Akron, USA) Pristine MMT and modified MMT / Poly(ehtylene terephthalate) nanocomposites 431, ( ) xi