Abstract
In nature hydrophilic products like protein, keratin or wool are responsible for water vapor permeability. The easiest way to obtain water vapor permeability for a chemist should be the of use a hydrophilic polymer. There are a lot of existing polymeric materials which are hydrophilic, e.g. materials of natural, semi-natural or of synthetic origin. Examples of those hydrophilic materials are proteins, cellulose, polyethylene glycol ethers, polyamides, polyacrylic amides, polyurethanes with polyethylene glycol ether soft segments, ethoxylated graft polymers, etc. Polymers which have a nonhydrophilic structure may be hydrophilized by mixing them physically or reacting them chemically with hydrophilic products or components. For example, ethoxy or polyacrylamide groups increase the hydrophilic properties of a polymer.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Reference
See also: 9. 3 [3, 11], 11. 2 [6o], 23. 1 [5]
Träubel H, Tork L, Zorn B, Wenzel W (1987) Vernetzbare Bindersysteme. Das Leder 38:177
Schröer W, Schütze D-I, Thoma W (1992) Wasserdampfdurchlässige kompakte Textilbe-schichtungen mit Polyurethanen. Coating September, pp 290–296
WO 95/30 793 (Gore; A Dutta, R Henn; 5. 5. 94/16. 11. 95)
JA 06 297 648 (94, 297, 648) (Fujimori Kogyo Co.; R Ichikawa, T Kobayashi, K Hashimoto; 19–4–93/25. 10. 94); JA 07 24, 978 (95 24, 978) (Fujimori Kogyo Co; R Ichikawa, T Kobayashi, H Terui, S Kishi; 7. 7. 93/27. 1. 95)
Saito N, et al. (1996) Synthese und Hydrophilie multifunktionell hydroxylierter Polyacrylamide. Macromolecules 29:313
Haidankar GS, Spencer HG (1989) Properties of bound water in poly (acrylic acid) and its sodium and potassium salts determined by differential scanning calorimetry. J Appl Polm Sci 37:3137
Shibukawa M, Ohta N, Onda N (1990) Investigation of the states of water in water-swollen hydrogels by liquid chromatography and differential scanning calorimetry. Bull Chem Soc Jpn 63:3450
JA 91 04 828 (Toyo Ink Mfg. Co., K. Shiozawa, T. Sato,3. 10. 94/23. 4. 96)
Kerres B (1996) Superabsorber für wäßrige Flüssigkeiten. Textilveredlung 31:238
DDR-Pat 235 470 (Akad. der Wiss. der DDR; 15. 3. 85/7. 5. 86); DDR-Pat. 235 468 (Akad. der Wiss. der DDR; 15. 3. 85/7. 5. 86)
FR 1 161 575 (Ions Exchange and Chemical Corp.; M Mendelsohn, C Horowitz; US Prior. 25. 10. 55; 25. io. 56/2. 9. 58)=GB 812 460
DOS 2 355 537 (Bayer; W v Bonin, H Striegler; 7. 11. 73/22. 5. 75)
DOS 1 444 056 (Eastman; JR Caldwell, CC Dannelby; US Prior. 20. 11. 62; 29. 10. 63/21. 11. 68) =BE 640 081=FR 1 405 830=GB 1 072 874=US 3 265 529
FR 1 427 852 (Westo GmbH; D Prior. 4. 1. 64 and 21. 10. 64; 23. 10. 64/3. 1. 66)=NE 6 415 169 =BE 657 661
RA 161 683 (AD Zaionckovskij et al.; 25. 4. 61/July 64)
OS 2 257 393 (BASF; R Gäth, R Linke; 23. 11. 72/20. 6. 74)
Anon. (1977) Dichte und Wasserdampfdurchlässigkeit von formalisierten und Säure behandelten PVA. Membranen. Konbushu Ronbushu 34(7):475
OS 1 965 587 (BASF; R Gäth et al.; 30. 12. 69/15. 7. 71)
OS 2114 371 (BASF; R Linke, R Gäth; 25. 3. 71/5. 10. 72)
OS 1 938284 (Kanegafushi Boseki KK; T Tensho; JA Prior. 27. 7. 68; JA 68–52 824; 28. 7. 69/ 26. 3. 7O)=GB 1 257 095=US 3 627 567 and US 3 575 753 (Kanegafushi Boseki KK; M Maruya et al.; 15. 11. 68/20. 4. 71)
OS 1812 746 (Kanegafushi Boseki KK; M Maruya et al.; JA Prior. 4. 12. 67; JA 77 782/67; 4. 12. 68/3. 7. 69)
DOS 19 653 301 (Akzo Nobel N. V.; MG Haderlein, JCW. Spijkers, A Zoepfl; 25. 4. 96/ 30. 10. 97)
18. 1 Incorporation of Hydrophilic Materials
See also: 8. 1 [29–32, 45, 64, 681, 8. 6 [29, 30, 32, 34, 37–45, 601, 9. 2 [20], 10 [11], 11. 1 [13, 14, 641, 15 [2, 3,6–9, 11, 12, 18]
DP Appl. 13 417/8h (Degussa; 25. 10. 52/12. 4. 56)=FR 1 091 060
DAS 1008 706 (Bennecke; W Kühn; 20. 4. 54)
DAS 1 254 115 (Göppinger Kaliko; W Gräbner; 20. 2. 60/16. n. 67)=GB 960 445=FR 1 281 070 =OE 213 367
US 3198 690 (US Rubber; JC Starke; 10. 7. 59); cip 7. 11. 60/3. 8. 65
RA 127 232 (K M Skirodova; 18. 5. 59/25. 3. 60)
DOS 1 635 557 (Nino; O Honegger; 8. 5. 64/2. 1. 70)
BE 597 860 (Lantor Ltd.; GB Prior. 9. 12. 59; 6. 12. 60/30. 12. 60)
GB 1 160 237 (Kurashiki Rayon; Kubashiki Kaisha; JA Prior. 15. 10. 65; 13. 10. 66/6. 8. 69) =JA 63 436/65
US 3 393 188 (National Polychemicals; R Strauss et al.; 20. 10. 65/16. 7. 68)
JA 14 559 (Nisshin Vinyl Kogyo KK; 16. 9. 66/19. 4. 71)
JA 37 412/71 (Showa Rubber Co. Ltd.; 31. 5. 67/4. 11. 71)
RU 2 010 862 (Zantsev V. K.,VI Gusev, VM Malov, VK Zantsev; 15. 1. 92/15. 4. 94)
DOS 2 502 468 (Holzstoff S. A.; JL Baron et al.; SZ Prior. 23. 1. 74; 22. 1. 75/24. 7. 75)
FR 2 016 394 (3M Company; AE Raymond; US Prior. 26. 8. 68; 25. 8. 69/8. 5–7o)=OS 1 943 975
NE 6 906 886 (SVUK; CZ Prior. 6. 5. 68; 6. 5. 69/10. 11. 69)
US 3 663 472 (3M Company; AE Raymond; 15. 3. 71/16. 5. 72)
FR 1378 064 (Soc. des Produits Tiffine; 18. 7. 63/5. 10. 64)
JA 50 93 373 (Nippon Burakah Kogyo KK; Nippon Miractoran KK; 26. 9. 91/16. 4. 93)
FR 2 482 144 (Toray Ind.; I Nakajima, S Sugawara, T Oishi, K Hamada; 7. 5. 80/13. 11. 81)=JA 80–59522
OS 2 324 960 (BASF; F Miksovsky et al.; 15. 5. 73/12. 12. 74)
FR 1 510 180 (M Gorce, M Moreau; 9. 12. 66/19. 1. 68)
US 3 137 664 (AD Little Inc.; J Shulman, JT Howarth; 21. 6. 60/16. 6. 64)
OE 221 280 (O. Zwoboda; 14. 6. 60/15. 10. 61)
JA 14 993/64 (T. Izeki; 5. 2. 62/29. 7. 64)
JA 13 640/66 (Hiroshima Kasei Co. Ltd.; 19. 12. 63/30. 7. 66)
JA 27 555 (A Tomikawa; 19. 2. 63/4. 12. 65)
OS 2 012 662 (Dainippon Ink and Chem. Inc.; H Shirota et al.; JA Prior. 17. 3. 69; JA 69–19 551 and 7. 4. 69; JA 69–26 173; 17. 3. 70/24. 9. 70)
US 3 660 218 (Nat. Patent Devel. Corp.; Th Shepherd, EJ Jacot; 15. 10. 68/2. 5. 72)
FR 1 453 978 (AJG Baudou; 16. 8. 65/22. 8. 66)
JA 1357/67 (Nippon Rubber Co.; 16. 8. 63/23. 1. 67)
FR 1461755 (Union Carbide; CL Purcell, LG Imhoff; US Prior. 20. 11. 64; I8. II. 65/2. II. 66)=NE 6 515 055
JA 73–20 283 (Honey Kasei KK; 20. 2. 70/20. 6. 73)
JA 24 677/67 (Kurare Plastics Co. Ltd.; 20. 4. 64/27. 11. 67)
OS 2 253 926 (Tschech. Akademie; V Heidingsfeld et al.; CZ Prior. 5. 11. 71; 3. 11. 72/10. 5. 73)
DDR 116 070 (VEB Chemiefaserkombinat Schwarza; H Alsleben; 10. 7. 74/5. n. 75)=(WP 179 829) and OS 2 521211
GB 1325 676 (AB Ehrnberg; JE Otterstedt; 3. 9. 69 and 19. 9. 69/8. 8. 73)
OS 1 811 593 (BASF; R Gäth et al.; 29. 11. 68/9. 7. 70)
OS 2 404 794 (BASF; R Fikentscher et al.; 1. 2. 74/ 7. 8. 75)
JA 06, 330, 472 (94, 330, 472) (Showa Denko KK; T Wada, Y Maeda, M Ookuba; 20. 5. 93/29. 11. 94)
WO 95 33 007 [WL Gore and Ass. Inc.; A Dutta; 26. 5. 94 (US94–249 912) and 24. 6. 94/7. 12. 95]
JA 070 70 600 (Showa Denko KK; 2. 9. 93/14. 3. 95)
JA 060 16 951 (Aroma Kagaku Kikai Kogyo KK; 2. 7. 92/25. 1. 95)
DDR 78 547 (Forschungsinst. f. Textiltechnologie; G Schmidt et al.; 6. 11. 69/20. 12. 70) (WP 143 539)
18. 2 Hydrophilic Polyurethanes
See also: 8. 1 [24], 8. 2 [10, 23, 34, 35, 36],9. 3 [11, 12, 18, 29, 35, 36],10 [19], 11 [13, 14, 64], 11. 1 [13, 64],15 [3, 5–9, 11], 16. 1 [3, 18, 19, 23, 25], 18 [92], 18. 3 [9–11, 16], 22 [37, 48], 24 [16], 27 [10, 11]
DOS 4 339 475 (Wolff Walsrode; D Schultze, N Hagarter, fl-W Funk, R Kunold; 19. 11. 93/ 24. 5. 95)
Petrik S, Hadobas F, Simek L, Bohdanecky M (1992) Sorption of water vapour by segmented polyurethanes. Eur Polym J 28:15
OS 1 936 787 (Et. Pennel & Flipo; RH de Broutelles, L Duchene; FR Prior. 22. 7. 68; 19. 7. 69/ IO. 9. 7O)=NE 6 911 229
FR 2116 306 (Omnium de Prospective Industrielle; J Davidovits, M Lefebre; 7. 12. 70/13. 7. 72)
DOS 4 027 797 (H von Blücher, E de Ruiter; 1. 9. 90/5. 3. 92) addition to DOS 4 003 764
JA 32 60 181 (Hosokawa Micron KK; Daüchi Lace KK; 1. 3. 90/20. 11. 91)
BE 697 617 (Amicon Corp.; US Prior. 26. 4. 66; 26. 4. 67/2. 10. 67)
DAS 1 226 071 (Bayer; J Peter, E Müller; 6. 4. 62/6. 10. 66)=BE 630 578=FR 1362 538
BE 626 803 (Bayer; J Peter, E Müller; D Prior. 5. 1. 62; 4. 1. 63/2. 5. 63)=FR 1350 900
FR 1348 959 (Bayer; J Peter, E Müller; D Prior. 3. 3. 62; 1. 3. 63/2. 12. 63)= DAS 1220 384=GB 989 760
US 3 384 506 (Thiokol Chem. Corp.; HL Elkin; 18. 5. 64/21. 5. 68)
JA 15 754/70 (Sanyo Chem. Ind. Co. Ltd.; 21. 6. 65/2. 6. 70)
US 3 719 726 (Kuraray Co. Ltd.; K Hara, T Yoshitake; JA Prior. 27. 3. 70,JA 45/26 186+45/26 187; 18. 3. 71/6. 3. 73)=OS 2113 865
Desai VM, Athawale VD (1995) Water resistant, breathable hydrophilic polyurethane coatings. J Coated Fabr 25:39
JA 07 149 869 (Dainippon Ink & Chem Inc.; 30. n. 93/13. 6. 95)=JA 93–02 99 758
BE 639 578 (Bayer; J Peter, E Müller; D Prior. 6. 4. 62; 4. 4. 63/31. 7. 63)
EP 609 730 (Th Goldschmidt AG; E Yilgoer, I Yilgoer, EO Yilgoer; 5. 2. 93/15. 9. 94)=US 5 389 430=US 5 461 122
JA 60 162 872 (Unitika KK; 26. 1. 84/24. 8. 85MA 84–13 081
Yen M-S, Cheng K-L (1995) The effect on the physical properties of the chitin-added polyurethane cast films and coated fabrics. J Coated Fabr 25:87
Krishnan K (1995) New applications for breathable hydrophilic and non-hydrophilic coatings. J Coated Fabr 25:103
FR 2 001 438 (AKU; NL Prior. 7. 2. 68; 3. 2. 69/26. 9. 69)
The reaction of hexamethylene düsocyanate with sodium bisulfite is described in Petersen S (1949) Niedermolekulare Umsetzungsprodukte aliphatischer düsocyanate 5. Mitteilung über Polyurethane. Ann. 562:205
Phaneuf MD et al. (1997) Chemical and physical characterization of a novel poly (carbonate urea) urethane surface with protein crosslinker sites. J Biomater. Appl. 12(2):100
JA 73 20 283 (Honey Kasei KK; 20. 2. 70/20. 6. 73)
RU 2 023 098 (Film Materials Synth. Leather Res. Inst.; LF Golovkina, AA Kasyanova, AV Stapanova; 4. 6. 91/15. 11. 94)
EP 684 286 (BASF; U Licht, H Seibert, R Hummerich; 25. 5. 94/29. n. 95)=DOS 4 418 157
JA 08059981 (Tonen Kagaku KK; H Ishizuka, H Toda, K Myasaka; 18. 8. 94/5. 3. 96) (=JA 94 215 210)
JA 51 06 173 (Hosokawa Micron KK; 11. 10. 91/27. 4. 93)
Belokurova AP, Vladychina SV, Makarov AS, Koifman OI (1996) Moisture permeability of thermoplastic polyurethanes and their blends with PVC. Plast Massy 3:9
Belokurova AP, Bratter AM, Koifman OI (1996) Moisture permeability of film materials based on photocured oligourethane acrylate compositions. Plast Massy 3:11
Träubel H, Schütze D-I, Pedain J (1994) Bessere Tragehygiene durch wasserdampfdurchlässige Polyurethane. Textilveredlung 29:171
EP 339 435 (Asahi Glass Co. Ltd., Y Matsumoto, N Kunii; 26. 4. 88/2. 11. 89)
Nepyshnevskii VM et al. (1979) Hydrophile Polyurethanharnstoffe für synthetisches Leder. Colloid J USSR 41(2):204
JA 61 072 032 and JA 61 072 033 (Dainichiseika Color Chem.; 17. 9. 84/14. 4. 86)
JA 61086 250 [Dainichiseika Color Chem.; 5. 10. 84/1. 9. 86 (208 379)]; JA 61 086 249 [Dainichiseika Color Chem.; 5. 10. 84/1. 5. 86 (206 378)]
EP o 052 915 (Shirley Institute; JR Holker et al.; 23. 6. 81/2. 6. 82; UK Prior. 22. 11. 80)
JA 57 005 [Dainichiseika Color Chem.; 16. 8. 80/12. 1. 82 (80 295)]
JA 58 036 [Dainippon Ink Chem. KK; 21. 8. 81/3. 3. 83 (130 124)]
Lomax GR (1985) Der Aufbau wasserdichter, wasserdampfdurcülässiger Gewebe. J Coated Fabr, 15(7)140
Lomax GR (1990) Hydrophilic polyurethane coatings. J Coated Fabr Oct, pp 88–107
EP o 165 345 [Toray Ind. Inc., T Nishikawa et al.; 16. 6. 84/27. 12. 85 (304 074)]
DE 3 815 720 (H von Blücher, E de Ruiter; 7. 5. 88/16. 11. 89)
DOS 3 903 704 (Frauenhofer-Ges.; St Meinhard, O v Stetten, H Hasenfratz-Schreier, H Schmidt; 8. 2. 89/9. 8. 90)
DOS 3 705 025 (Daüchi Kogyo Seiyaku Co. Ltd.; K Sato, M Komori; 17. 2. 86 + 26. 2. 86 + 26. 2. 86/ 10. 9. 87MA 86–33616 + JA 86–42645 + JA 86–42646
EP 313 951 (Bayer; 29. 10. 87/3. 5. 89)
DOS 2 244 231 (CPC Intern. Inc.; JP Mudde; 8. 9. 72/23. 8. 73; US Prior. 14. 2. 72, 14. 4. 72 and 26. 6. 72)
JA 61 086 250A (Dainichiseika Color Chem; 5. 10. 84/1. 5. 86)
DE 2 319 706 (WR Grace 8c Co.; LL Wood et al.; 18. 4. 73/15. 11. 73; US Prior. 3. 5. 72) + DE 2 506 576 + DE 2 621126 + US 3 903 232
US 4 no 508 (WR Grace 8c Co.; 9. 2. 76/29. 8. 78)
US 4182 649 (WR Grace 8c Co.; 9. 2. 76/8. 1. 80)
DE 1 943 975 (3M Corp; AE Raymond; 25. 8. 69/5. 3. 70; US Prior. 26. 8. 68)
GB 2157 703 (Shirley Inst.; 19. 4. 84 + 18. 4. 85/30. 10. 85)
DE 2 020 153 (Teijin Ltd.; 24. 4. 69/27. 12. 70)
DE 2 544 068 [Teijin Cordley Ltd.; 3. 10. 74/8. 4. 76; JA Prior. 3. 10. 74) (113 292)] and JA 1124 687 (Tejin KK; 28. 9. 84/17. 5. 89)
WO 8 505 322 (Thoratec Lab. Corp.; 21. 5. 84/5. 10. 85)
JA 57 155 241 [Toray Ind. Inc.; 23. 3. 81/25. 9. 82 (40 479)]; JA 86 195 117 (Toray Ind. Inc. ; 26. 2. 85/ 29. 8. 86)
JA 58 222 840 (Toyo Rubber Ind. KK; 19. 6. 82/24. 12. 83)
JA 61 009 423 (Toyo Rubber Ind. KK; 22. 6. 84/17. 1. 86); JA 62 271 740 (Toyo Rubber Ind. KK; 21. 5. 86/26. 11. 87)
Nepyeshnevskii VM (1979) Hydrophile Polyetherurethanharnstoffe für synthetische Leder. Colloid J USSR 41:204
Hayashi S, Ishikawa N, Giordano C (1993) High moisture permeability polyurethane for textile applications. PUR World Congr. Proc, pp 400–404
JA 62 270 667 (Dainippon Ink and Chemikals Inc. ; T Masuda, H Ozawa; 19. 5. 86/25. 11. 87) =JA 86 112 539
JA 59 064 620 (Achilles Corp; 6. 10. 86/12. 4. 84)=JA 82–175 481
US 4182 649 (WR Grace 8c Co. ; IE Isgur, AB Holmstrem, B Andrews, J Norman; 9. 2. 76/8. 1. 80); cip from US 4110 508
US 5 238 732 (Surface Coatings Inc. ; S Krishnan; 16. 7. 92; US 5 239 036 [Surface Coatings Inc. ; S Krishnan; 16. 7. 92 (US 92–914 871) + 11. 1. 93 (US 93–2 640)724. 8. 93 + 11. 1. 93 (US 93–2 640)724. 8. 93)]; US 5 239 037 (Surface Coatings Inc. ; S Krishnan; 16. 7. 92 (US 92–914871) + 11. 1. 93 (US 93–2747)/24–8. 93)
JA 52 02 286 (Nitta Gelatine KK; 24. 1. 92/10. 8. 93)=JA 92–11145; JA 52 02 298 (Nitta Gelatine KK. ; 28. 1. 92/10. 8. 93)=JA 92–13 408
JA 52 22 293 (Ajinomoto KK; Ajinomoto Takara Corp KK; 11. 3. 91/31. 8. 93)= JA 91–125 660
JA 52 22 681 (Achilles Corp. ; 13. 2. 92/31. 8. 93)=JA 92–59 392
JA 53 02 275 (Daicel Huels KK; 23. 4. 92/16. n. 93)=JA 92–104 897; JA 53 02 276 (Daicel Huels KK; 24. 4. 92/16. 11. 93)=JA 92–107 025; JA 53 02 277 (Daicel Huels KK; 24. 4. 92/16. 11. 93)=JA 92–107 026
EP 494 381 (P Bocciardo, S Bocciardo; 9. 12. 91/15. 7. 92)=EP 01–121 074
JA 42 02 482 (Idemitsu Petrochem. Co. ; 30. 11. 90/23. 7. 92)=JA 90–336 588; JA 95 047 701 (Idemitsu Petrochem. Co.)
JA 81–112 578 (Teijin; 7. 2. 80/4. 9. 81)=JA 80–13 034
JA 86–072032 (Dainichiseika Color Chem. Co. ; 17. 9. 84/14. 4. 86)=JA 84–192 630
JA 81–11787 (Kuraray; 7. 5. 73/17. 3. 81MA 73–51 030
JA 81–112 578 (Teijin; 7. 2. 80/4. 9. 81)=JA 80–13 034
US 4192 928 (Teijin; A Tanaka, T Shinoda, M Mimura; 23. 3. 77/30. 12. 76)=JA 77–31 122
JA 80–82154 (Kanebo; 19. 12. 78/20. 6. 80)=JA 78–157 877; see also JA 80–81 135 and JA 80–82155
JA 9228253 (Toray Industries Inc. and Daüchi Lace Mfg. Co. Ltd. ; T Takahashi, T Nakano, M Uemoto, F Masanori, T Furuya; 14. 2. 96/2. 9. 97)=JA 96–50836
WO 97 38 854 (Gore & Ass. Inc. ; A Dutta; 17. 4. 96/23. 10. 97)=US 96–633 714
Johnson L, Samms J (1997) Thermoplastic polyurethane technologies for the textile industry. J Coated Fabr, 27(7)148
Schledjewski R, Schultze D, Imbach K-P (1997) Breathable protective clothings with hydro-philic thermoplastic elastomer membrane films. J Coated Fabr 27(10):105
CN114 512 (Nanya Plastic Industry Stock-Sharing Co. Ltd. ; Y Liu; 15. 7. 96/12. 2. 97)
PCT WO 98 11 854 (Tyndale Plains-Hunter Ltd. ; MH Reich, K Nelson; 20. 9. 96/26. 3. 98) =US 96–717 356
18. 3 Polyglutamic Acid Containing Compounds
See also: 8. 2 [23]
JA 20 311 (Ajinomoto; 13. 6. 66/10. 7. 70)
GB 1 217 215 (Kyowa Hakko Kogyo Co. Ltd. ; JA Prior. 20. 10. 67 and 4. 6. 68; 30. 7. 68/31. 12. 70)
OS 1794 066 (Kyowa Hakko Kogyo Co. Ltd. ; YM Fujimoto et al. ; 2. 9. 68/13. 5. 71)
OS 2 018 189 (Ajinomoto Co. Ind. ; A Akamatsu et al. ; JA Prior. 16. 4. 69; 16. 4. 70/29. 10. 70) =JA 29 519–69
OS 2 152 538 (Kyowa Hakko Kogyo Co. Ltd. ; Y Fujimoto et al. ; JA Prior. 26. 10. 70; 21. 10. 71/ 27. 4. 72)
DOS 2 124 042 (Kyowa Hakko Kogyo Co. Ltd., Y Fujimoto, M Teranishi; JA Prior. 20. 4. 70; 14. 3. 71/2. 12. 71)=JA 42 410/70
US 3 594 351 (Hitachi Chemical; Sh Uchida, Y Sone; JA Prior. 10. 4. 67; 26. 3. 68/20. 7. 71)=FR 1567 338=JA 67/22 419 and JA 67/22 422
US 3 729 366 (Kyowa Hakko Kogyo Co. Ltd. ; Y Fujimoto et al. ; JA Prior. 22. 11. 67; 15. 1. 71/24. 4. 73; cip i8. n. 68)=JA 74 709/67=DOS 1 810 728
JA 73 11 923 (Dainichiseika Colour and Chem. Mfg. Co. Ltd. ; 14. 5. 69/17. 4. 73)
ib. JA 28 914 (Ajinomoto Inc. ; 29. 12. 67/21. 8. 71)
JA 1715/72 (Ajinomoto Inc. ; 25. 12. 67/18. 1. 72)
JA 73–23 882 (Honey Chemicals; 6. 11. 68/17. 7. 73)
JA 19 714/72 (Honey Chemicals; 23. 1. 69/5. 6. 72); JA 19 713/72 (Honey Chemicals; 22. 3. 69/ 5. 6. 72)
OS 2 223 080 (Ajinomoto; K Toogoo et al. ; JA Prior. n. 5. 7i)=JA 71/31 434; 12. 5. 72/16. 11. 72; describing mainly a finish for artificial PVC leather
OS 1 469 572 (K Shibata; JA Prior. 12. 8. 64)=JA 64/46 637; 29. 7. 65/23. i. 69=FR 1 455 985
JA 73–05 262 (Kyowa Leather Cloth Co. Ltd. ; 14. 12. 70/15. 2. 73)
JA 49 074 798 (Daüchi Lace Co. Ltd. ; 20. 11. 72/18. 7. 74)
JA 39 329/72 (Toyo Cloth Co. Ltd. ; 27. 9. 68/4. 10. 72)
JA 73 500 1 (Ajinomoto Inc. ; 25. 12. 67/13. 2. 73)
JA 75 034 081 (Ajinomoto Inc. ; 4. 9. 64/6. 11. 75)
JA 75 034 082 (Kyowa Leather Cloth; 19. 2. 66/6. 11. 75)
JA 74 031 081 (Honey Chem. Co. Ltd. ; 1. 9. 69/19. 8. 74)
JA 60 173175 (Unitika KK; 13. 2. 84/6. 9. 85)
JA 59 036 781 [Seiko Kasei KK; 23. 8. 82/29. 2. 84 (146 036)]
EP o 104 049 [Kanebo Ltd.,K Sato et al. ; 14. 9. 83/28. 3. 84; JA Prior. 17. 9. 82 (162 995–82)]; JA 01 192 882 [Kanebo KK; 26. 1. 88/2. 8. 89 (15 303)]
JA 59 157 386 [Toyo Cloth KK; 22. 2. 83/6. 9. 84 (28 950)]
JA 59 140 219 [Mitsubishi Chem. Ind. KK; 31. 1. 83/11. 8. 84 (13 888)]; see also JA 59 140 217
JA 62 215 080 [Aichi Hikaku Kogyo KK; 10. 3. 86/21. 9. 87 (51995)]
JA 62162 518 [Mitsubishi Chem. Ind. KK; 23. 1. 86/18. 7. 87 (4 676)]
JA 5043792 (Ajinomoto KK; Seiko Kasei KK; 15. 8. 91/23. 2. 93)
DOS 3 816 648 [Ajinomoto; JA Prior. 15. 5. 87 (119 954)/24. n. 88]
EP 225 060 (Toray Ind. Inc. ; J Amano, M Shimada et al. ; 31. 10. 85/10. 6. 87)=JA 85–242 960 (31. 10. 85) + JA 86–45 328 (4. 3. 86) + JA 86–112 773 (19. 5. 86)
EP 151963 (Unitika KK; 23. 1. 84/21. 8. 85MA 84–10 853 (Prior. 23. 1. 84) + JA 84–1029 232 (Prior. 17. 2. 84) + JA 84–183 277 (Prior. 31. 8. 84) + JA 84–183 378 (Prior. 31. 8. 84) + JA 84–188 435 (Prior. 7. 9. 84) + JA 84–191 932 (Prior. 13. 9. 84)
JA 1 113 230 (Unitika KK; 27. 10. 87/1. 5. 89); JA 1 221 577 (Unitika KK; 29. 2. 88/5. 9. 89)
JA 2 026 735 (Unitika KK; 18. 7. 88/29. 1. 90)
US 4145 266 (Honey Chemicals; K Hayasaka, Y Zamaoka; 21. 12. 76/20. 3. 79)=JA 76–152921 (JA Prior. 21. 12. 76)=JA 77–10719 (JA Prior. 4. 2. 77)=JA 77–10720 (JA Prior. 4. 2. 77)
JA 61000 679 (Unitika KK; 12. 6. 84/6. 1. 86)=JA 84–121067; JA 63165 584 (Unitika KK; 25. 12. 86/ 8. 7. 88)=JA 86–314 237
18. 4 Other Hydrophilic Products of Natural Origin
See also: 9. 3 [39],10. 6 [3]
DE 2124 042 [Kyowa Hakko Kogyo Co. Ltd. ; Y Fujimoto, M Teranishi; 14. 5. 71/2. 12. 71; JA Prior. 20. 5. 70 (42 410–70)]
JA 072 47 373 (Ajinomoto Takara Corp. ; 9. 3. 94/26. 9. 95)
JA 53 39 507 (Sumitomo Seika Chem. Co. Ltd. ; M Yasui; 12. 6. 92/21. 12. 93)=JA 92–179 024
RU 2 004 553 (Film Material Res. Inst. Mosc. Light Ind. Techn. Inst. ; MM Kukharchik, LV Moiseeva, IA Shalabanova; 30. 4. 91/15. 12. 93)=RU 91–4 938 273
EP 470 399 (Showa Denko KK; T Wada, T Yamaguchi; 8. 8. 90/12. 2. 92)=JA 90–211416
JA 4153 378 (Japan Steel Works Ltd. ; 15. 10. 90/26. 5. 92)=JA 90–275 667
JA 41 63 377 (Toyo Cloth Co. ; 25. 10. 90/8. 6. 92)=JA 90–287 953
JA 4175369 (Ajinomoto KK; Seiko Kasei KK; 8. n. 9o/23. 6. 92)=JA 90–302 896
JA 92 28 249 (Kurashiki Spinning Corp and Shohikagaku Kenkyusho KK; M Yamada, K Tamahisa, T Hagiwara; 19. 2. 96/2. 9. 97)=JA 96–56 714
JA 09 310 286 (Toray Ind. Inc. ; K Okamoto, A Muratsu; 24. 5. 96/2. 12. 97)=JA 96–129 750
DOS 19 704 651 (Fraunhofer Ges. e. V. ; J Wissler et al. ; 11. 9. 96/12. 3. 98)
Skarja GA, Woodhouse KA (1998) Synthesis and characterization of degradable polyure-thane elastomers containing an amino acid based chain extender. J Biomater Sci Polym Ed 9(3):271
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 1999 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Träubel, H. (1999). Hydrophilic Polymers. In: New Materials Permeable to Water Vapor. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-59978-1_18
Download citation
DOI: https://doi.org/10.1007/978-3-642-59978-1_18
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-64206-7
Online ISBN: 978-3-642-59978-1
eBook Packages: Springer Book Archive