平成 2年 3月
Contents
1.2.
3.
4. 10 ma
5. 1 2 25y PRE KS KRE EOZ lt ORE EAEE 1 Kneclt
6. 85
7. 5 1 2 1 A B 2
8. 2 1 p 122 1981 2 B kB 2V7V EM 25 25 1987 3 p 81 1987 4 HISI p
9. m RA pH
10. e o mg A n e 4 D C I Acid Orange 7 0 RI
11. 30 1 EL L T7 ERK s E SEL LC Ems w n pn Gs SNERRE Sal CS HeeRL CH zo CS o DP
12. 3 C 1 Acia Orange
13. RR Elend A ME Eege A EL Acid Fast Yellow MR p
14. 3 6 3 6 1 3 3 1 3 1 Gilbert Rideal Au Scatchard s plots S A Au 3 1 3
15. 40 0 RI A UKRANE S 3 9 15 o w f 5 o w f 3 9 C I Acid Orange 7 S e AN C X10 mol kg kcal mol 15 o w f BIS EECH 5 o w f E 0 3 4 2
16. 3 4 3 4 1 40 3 1 8 3 1 Au S e A AH 3 8 O Control A Treated 0 Dj X10 5 mol 1 25 3 18 40C 3 8 6 I Acid Orange 7 e S e Au AH x10 mol kg kcal mol kcal mol
17. EF Rk NB HE E C I Acid Ora nge 7 0 RI 2
18. 3 26 15 o w pH7 5 1 0 0 75 u O o Absorptivity 0 20 300 400 Wavelength nm 3 24 0 15 P V 0 50 Absorptivity CH 240 300 400 Wavelength nm 3 25 o RARR boR Absorptivity Sulfonated ricinoleic acid mn A Extract solution 0 20 3
19. 10 cm2 min Ka 1 0 wm 600 2 7 A S Ct C 0 va RI e 2 8 Ct C Yt A C1 C Y 0 D D D Dmax
20. 10 mm REHN O ERC RARE EEL FRH 5 1 SU O O 2
21. D D X103 cm2 min D ma LL CT i em es ffr i 05 600 ac P FL ST KE 3 35 64 D Dmax Dmax Dmax 3 35 CHE V 83 330 D 3 3 4 D
22. 1 RERA MERED o THT 2 3 k N PE
23. SiO K O 2 pH p H
24. 4 0 RI S i O K O
25. A Hi1l D 3 6 3 7 CI C Y 3 8 3 9 D CC Y t 3 8 3 9 0 EV D 2
26. 0 RI 0 RI O 3 4 0 RI el EE AE KEE S ASLbuCU P2ECSOTRH E M ERERECMEREANT WRO pH pH 5
27. P H 3 C I Reactive Blue 19 Spe dt RER On LE ELE Et akker
28. 1 20g 8S 00m1 5 10 6o w f 200 10 o w f 1 100 9 0 95 2 RTENE OHR 10 o w 10 o w f 8 1 0 Oramge HL C I Acid Oramge7
29. log K HRA Zens 3 0 3 1 6 1 Tempwelvin 17 vg 3 17 IogK 1 Temp Kelvin 3 7 K o LS x107 SSES SSES Sab 5 DL D 3 5 L KATIT or ERHRR e SREK
30. MAXIMUM 400rpm 1 3 2 1 2 A 2 4 10mm B 1 3 3 10mum B 2 5 2 2 1 2 A
31. K c GEI EF MS EZte L bt Dn Rii WOARE AWA L E o F LART
32. Kortschagin TEE TE E TEE 4 B
33. 3 3 1 3 1 1 3 2 3 3 Gilbert Rideal 1 Ag 2 Scatchard s plot S Aw AH 3 1 D Au 2 R T inTC 2R T IinID 1 Die e Dle e le Kr D e 2 R T eg 60 D e S e D S D K Oo gt O mol kg e O 21 SS SEKR ef CH A 0 PET X10 mol l 50 3 2 60 1 10 x102 D o E o O Ax THA A RORA 00 Bes X105 mol 1 50 3 3 6 0
34. C C Y C C 0 ED D 21 3 2 1
35. pH 3 4 D 771A 3 9 T 260 1982 2 27V tM 25 25 1987 228A 1984 5 2 3 26 11 1988
36. 3 65mI min B AA O R 1 2 Spogen E 3 4 5 pH
37. p H 4 1 2 2 3 2 p H O PH4 0 O outer portion A middle portion pH4 5 outer portion A middle portion D X103 mol kg 0 Time sec 900 4 1 pPH 3 2 GH re EL LA RG A 40 50 60 900 4 2 4 4 pH4 pH4 pH 4
38. Ct C V T777 3 33 3 3 1 S i 0
39. 3 d Zara A4 SIb beem St dr ZS 27 2 VA L EI LRALNEDOTHZ O ET E E TEE ANTH ERR ZEIL Lt Eet o WERN street e Eleng BIEL
40. 1 Son p 107 1981 2 PIRH Hess 56 422 1947 3 KER ORERE k B Rtt R H 57 114 1988 4 MBEE WER SL L en HER 57 129 1988 5 Tetsuo Nakajima Yoshiaki Shimizu Masayoshi Shikata and Mitsuo Rimura Imflne nce of Turkey Red Oil on the Dyeing Properties of Silk with Acid Dye J Seri cult Sci Japan 58 20 1989 6 PISHE ZS HEW 58 175 1989 7 GAR WHER Hess 57 196 1988 H D e 8 Rani EE RAR 2 Des 56 522 1987 9 HAREK ROREHE HEW 57 49 1988 10 KERKEE An 1956 1 G
41. 5 6 422 1987 2 3 2 kuk Dress 56 522 1987 2 3 3 HISE BD 5 AKERE WHER 2 4 4 CG 10 11 12 HEERE Gi 49 1988 3 5 7 114 1988 3 5 7 129 1988 3
42. 2 p H 86 p
43. 60 2 1 40 LN O 2 1 x Sen De mol kg 8 d 4 0 480 3 4 6 0TC 30 vg o E D ww O an AOHA 8 Gi Ei 0 E 3 5 60C H gt O tO ww cm2 min O 2 1 D 2 1 EE det A ROHA 900 CH 0 3 6 60 1 10 X109 cm min R WE Se ES D x 0 0 900 3 7 60C l O 21 O 2 1 x O Sp O x 0 0 SEIT 25 3 9 60C C C Y TORR II 4 3 D 1 i
44. 3 3 3 A 40C 3 1 5 E CH ep e P X10 mol kg War Si FE 600 3 15 40C e d RS FE 25 3 1 6 40C 1 C l e D V TO C C Ct C Y 3 16 K K 3 1 7 3 7
45. DEN TH 00 25 Je Ser 3 3 3 70C Ct C V 1 D Zb D x103 cm27min 8 0 De rm FP 600 3 3 4 70C D D 3 34 C C C1 C d Y 0 W NOD PETIR EE Te EE RIA DAKETA D
46. A 10mm A B A 3 65ml minm Ch BIN kV Do ZIL OC OUT a Ss
47. B 400rpm 486 0mm 2 3 2 3 1 A UL 40 50 60C 2 6 50 1 1 10 3 mol kg 0 Hm 600 2 6 AM 2 6 Ct wm lt gn 20 C Hi11
48. K pH 3 4 E PAART b O 10
49. 3 4 3 3 3 3 1 2 1 200 10m 60 5 C 80 10m ARAE 30 5 C STM T 100BP JIS 1073 1977
50. Dmax t Dmsx 2 7 C1 C Y K 2 9 1 1 3 0 3 1 1 Temp kelvin ZZ x10 3 2 9 logK 1 Temp Kelvin A 2 3 K c A v g DE TARRO TRENJ Rh E L TO Bo ERR adr 4 2 3 B 30 40 50
51. 1 A B 2 p 3 1 Acid Orange 7 RS 0 RI Zb Zi EREMAN Stot Lrrzbito xi LS gg 0 RI
52. 0 RH 4 0 RI KEHE 4 2 pH pH 2
53. 2 2 SS S 2 1 14 H C 18 1 80C 30 3 21 KK Orange II C I Acid Oramge7 Sea p 2 2 2
54. 40 O CH3COOH A CH3COOH CH3COONa D X10 mol kg 0 0 Time sec 90 4 5 3 21 B 4 6 4 1 1 CH commercial race C 21 Kankosekken D X103 mol kg 0 Time sec 900 4 6 CH o Commercial race A C21 o Kankosekken D X103 mol kg 0 Time sec 900 4 7 40 o outer portion a middle portion D X10 mol ka 0 Time sec 900 4 8 O
55. 3 2 BERARI DREHEN 3 2 1 200 2 874 500 3 05d 1000 2 274 STM 100BP JIS 1073 1977 17 3 2 3 2 WER HRR A Wt k g d 3 2 2 60C 3 10 0 S A A
56. 3 29 3 2 K 3 30 gt 3 1 2 0 75 30 3 1 3 1 Temp kelvin 27 vg 3 30 logK 1 Temp Kelvinm 3 12 K oc DD 5 D
57. 3 5 4 3 5 S R CO vs mp e X102 mol kg CH 0 ge zs om me 10 moUU50 3 14 50C 3 6 C I Acid Orange 7 1 a S e NiS AH C x10 mol kg kcal mol kcal mol 19 1 2 3 3 2 50 3 1 4 3 1 A S xx AH 3 6
58. 1 S E 1 Santos k D gengbe egt eg 1 Sr Gi A 2 1 11 2 LS 2 LS 2 2 l 1 gt a EE 20 1 Se 20 2 Rp 26 3 27 4 29 5 31 Di N MM WM WW Ww ti 1 2 35 3 38 3 1 38 3 2
59. Bakker 2V TO RSR KAREN K 2R VW
60. p 78 1987 34 34 T 323 1978 35 12 p 131 1966 36 12 p 125 1966 37 HISH 5 2079 ty 25 25 1987 38 5 2 3 26 11 1988 EAR II RH Sin E E e DER St Ets EDERREI S FSE 1 1 1 S Wl 1
61. C C Ct C Y t 3 1 2 0 Jee Eet 25 3 12 50 C C Y t log K N CLC Oo 23 a a a oe S dd 17 Tempt kelvin 32 x103 3 13 ogK 1 Temp Kelvin K 3 1 3 d 3 4 K oc K CC x10
62. 3 EE Nk KR KAPOT HENDRER CI Acid Drang 7 5 0 RI 2 0 RI 0 RI
63. 2 A 50mm 30mg HU 10 6 5cm B 15mm 0 5mg lmg 10 Orange C I Aeid 0range
64. Gleysteen HCL KO Kertschagin Virmik Bakker EIER et MERL orl EORR BUDR KARREZ L WAT D D EE EE EE NET D 28 29 80kcal mol 30C
65. ey 1 5 1 2 3 A 2 3 2 1 1 0 15 5 2 Program 2 PC9801 e 10 CONSOLE 0 1 SCREEN 0 0 WIDTH 80 25 PRINT CHR 12 COLOR 4 100 N 0 110 PRINTsiFRINTs INFUT Sample Name NA FRINT 120 LFRINT LFRINT LPRINT LFRINT Sample Name gNQ sLPRINT 130 INFUT Initial Dye Bath ml sy 140 LFRINT Init
66. 12 223 1964 p 58 106 1981 J Crank The Mathematics of Diffusion Oxford Univ Press England p 66 1956 T Vickerstaff p 120 1961 BASIC p 103 1981 T Vickcrstaff 3 4 5 6 ww 7 8 9 10 p 123 1961 p 115 1966 12 p 127 1966 4 120 p 142 1972 p 89 1979 EBH p 86 1980 11 2 8 1986
67. A 3 3 3 AT 3 4 51 3 3 5 6 REMERA Seege u uT HX ASROR EE 1 S tech se 2 ES 3 G 3 J ENE EEE 1 Sir Hinne LETE 2 p HR EL e LETHE 3 D Kk E Rr E E EE E BE EIEN ESS Ea 58 6 1 6 5 69 70 73 73 74 74 75 76 80 81 3 SS Le 1 Pkl TA
68. I AN 3 1 C I Acid Orange 7 A A S e Au AH X10 mol kg kcal mol kcal mol G L Aas E EE Zeg 1 32 x 10 zl CC N N ESIKE et TH 19 6 9 80 fer 20 15 9 1 32 X103 cm W H 17 1 7 0 9 80 L2 5 16 1 1 22 X10 cm xx 18 7 7 0 e 16 0 1 24 x10 cm 9 35 LG A K Ales ed 1 20 x 10 cm 0 3 1 2 480 3 4 3 5
69. p 74 1977 12 1 2 0 3 2 1981 13 R BT ERRA HER 52 226 1983 BEREN E SHORES ROPE Des 54 143 1985 15 p 69 1979 14 16 RENERE MERAH ran 1979 17 p 186 1961 1 III p 166 1980 i 18 AZIS 1 HEW 39 359 1970 T H 4 4 220 1975 SI p 115 1981 gg a SS Zoning HEW 55 461 1986 19
70. MR BRITESCH Eden RDAR ez MNISL CH ARM LA eege REEL e DIR REEL A ER HF SEILER LE Ehe RER at eat 2 R i 2 1 Sne nts 2 1 MORN 2 1 x X IR ER S DEZ VOSNE REENEN di E Du 10 o w f 10 o w f 200 90 95C 2 X 2 0 1 125m 300 400 700 800 1200 2 1 Saa LS But o LP EIERE ALE LA RS NL SR OR GLEN 5 0 w f 159 0 w
71. Sg Son RARE K pH 3 4 10
72. A S A AH 3 1 1 3 5 2 A 60 C 3 28 nt X103 mol kg 2 A ta wz Ca 0 pp 1 900 3 28 60 Je Se 30 3 2 9 60 Ct C Y TORR 59 H i 3 2 Ct C Ct C
73. 30 1 ULI al ERAN AAR
74. 2 1 2 A 1 2 1 2 1 9 cm Seite Re KK LR 41D RHR 4 R4 0 2 5cm Sein ogz BL 000m1OD
75. eiis 1981 20 SR 1 ER E DREEM We 23 477 1967 21 p 65 1981 II 22 p 58 1981 WME p 12 1987 23 p 477 1981 24 7147PD1fyO 2PWZ V DREI LS 714704 DRALoNVT HE 22 117 1953 25 AROME p 166 1957 26 p 300 1956 EA E S j i SES A SS Ss PE LC Sz ME B E Era ez I OT 1 S Di Set BIREN ENER DI RED H SAIL Aen PERLI TEL A neg Re E TITKAT pH p
76. 200rpm SD 500 KK M P 3 1 mm Wg 10 3 65ml min 22 ECEn LL lt d i CL NN 257 Witz a L BE zeen ii gt i i MENE Rig O ET WEA 2 1 A 1 2 2 2 2 a 2 2 1
77. LU 4 0 RI
78. 1 4 diazo 2 2 2 bicyclooctane Viraik 5himizu et alld YE BAH
79. yo1 33 MNo 7 2 1985 Knecht E Ber 37 348 1904 3 4 5 Gleysten L F Harris M Tetile Rec 182A 335 1940 6 Kertchagin MN Pigusowa Je A Ssemetschkina A W Seide 10 20 1940 7 URF 8 p 571 1942 8 Virinik AD Tschuekalin M A Tech Textil lmdus USSR 6 112 1969 E Bakker BGH Johnson A J Soc Dvers Col 89 203 1973 10 3 1 T 168 1975 11 WFE 31 T 232 1975 12 d ECHT ORRENDO RFE 34 1 323 1978 13 p 107 1981 p 137 191 Ip Se OD p 158 1981 5 3pb 1981 14 15 SS mm WS M HEM 17 E W ZS 55 314 198p 18 KAZ D Ston LBE D ZS Se 457 1987 19
80. A B 5 x10 mol aaa 50C 1 20 000 p pH4 0 002mol 1 200rpm 900 WAWE S5 Xx10 5mo1 1 40 1 3 000 pH 4 0 4 5 0 002mol I pH4 400rpm 900 3 3 1 pH 2 p H pH 3
81. BS ugi btk wW RG 0 ap z pe e X10 mol U 50 3 3 1 60C 3 1 3 C I Acid Orange 7 S S e Au AH C xi1i02 mol kg kcal mol kcal mol 7o az wi 19 2 7 0 9 61 13 4 14 3 9 9 70 12 9 11 8 19 7 f L5 3 2o see 10 15 12 6 u 7 0 10 15 LAS 14 5 18 4 ku AE CH Ki gt z SE e ke Zei e N a K Nat gt K N a gt K Ca Fe Fe K gt Na Naf 3 6 2
82. 3 5 6 4 K 6 4K RAM 2 4K BASTIC ROM AD dy gege i es mn D r e e lt sc E Ge 1 Program 28 DEFUSR Z UEFUSR 48 DEFUSR 35 PERYd 68 SI 3 rop LD Wd SD
83. 60 A 3 3 2 Ke Tu Gid Se amp 3 96 B PE Si 00 3 32 60C 3 1 Hll Ct C Ct C FARER Yt 3 33 0 EW k z F
84. p H 2 2 KMEORNCI RERE ZARAI RERO LUIXRRHK DREE BEA ERER RO WART H AE 1 3 000 MERE TCT URRE SUE 1 E ER TORES 10m 10ml 60 0 p H 4 1 10 000 40 50 60C 24 e 2 3
85. np HER 57 68 1988 20 H 1 4 6 103 1977 21 R H 46 108 1977 8 22 R BREE AAL LML TDMA I ERR SEI Dem AT 166 1978 23 R H IV 4 7 472 1978 24 R L gt ZIT ERORIS DN V HER 48 291 1979 25 R VW A AE 2 Ligne HEM 48 355 1979 26 I Reactive Blue 19 3 1 T 180 1975 27 Yoshiaki Shimizu Tetsuo Nakajima and Mitsuo Kimura lyeing of Silk with Pis perse Azo Dyes J Sericutt Sci Japan 58 106 1989 28 BEREH
86. 0 2 40 o E 9 o outer portion x a middle portion 0 0 Time sec 900 4 9 CH o Control A turky red oil D X103 mol kg Time Sec 300 4 10 CH o Control A turky red oil D X10 mol kg 0 Time sec 300 4 11 0 002mel HT 3 4
87. 1 l H i t H 1 H e K e S a Aen AE ys e BE E EE 3 ik E i vn Tu e es ma dis hd ls A Dy r aa ro aay fs Abom SA e Tean E EN oe S SS Sy sqy S E S SS me H G Gd bo Ze b R s mo OF m nn l NO E a um S oN OT IT ORO nN On On S E Ex e S x x 25 Us Ch SC SEEEEEE E NAN Nn oO SZ QQQ Se a d 3 La Ke dal ei e A ZR K SE i E E R ZE oo By S m x DC E S 5 S N w pk N N Sk 2 N ZS a D p H 2 2 S 2 2 1 RERE 28 Lat AGERROR LORSE ER UE Sen EJEA Ao RS 10 o w f 1 100 90 95
88. HS 58 216 1989 5 p 144 1973 6 p 94 1987 7 L en HE 58 w rt D Des 56 422 1987 9 pIE Hess 57 114 1988 10 Tetsuo Nakajima Yoshiaki Shimizu Masayoshi Shikata and Mitsuo Kimura Infiue nce of Turkey Red Oil on the Dyeing Properties of Silk with Acid Dye Seri cult Sci Japan 58 20 1989 W CG SS es Sp 1 Kneclt Gleysteem HCL KOH Kertschagim Virnik
89. 35 1 20 4 100 KK 2 8 38 RE 2 0 3 1 om gd p 0 10 20 ven s ll 30 3 1 Hi ij 102 STM T 100BP 20C 602 10 2 8
90. B 900 p H 4 5 X10 5mol 1 3 000 40C A 5x10 Smol 1 40 50 60C pH4 1 20 000 200rpm 2 4 STM T 100BP JIS L 1073 1977 2 5 pH7 5 1 200 90 95C 2
91. 2 1 0 ST X107 mol kg g 2 10 B belha EE KE et ETC E HEET UC HEEN 2 1 1 C1 C Y 2 1 2 X107 cm 2 min S SC P Ka 0 Sg ng m 2 11 B 3 Ct C V K 2 1 3 gw K 2 4 8 CCe
92. D a cm C C D a OW Vickerstaff 3 E Hill Ct 4 DN Di 1 D a a Program 3 PC9801 10 CONS LE 0 1 SCREEN O 0 WIDTH 80 25 PRINT CHR 12 COLOR 4 90 DIM X 17 Y 17 100 FOR I 1 TO 17 110 READ X 1 Y 1I 120 NEXT I 130 DATA 998 1 000 988 700 961 500 932 400 879 300 782 200 709 150 60L 100 524 070 453 050 410 040 361 0 O 299 020 216 010 183 007 159 005 130 003 140 COLOR S PRINT PRINT INFUT e Sample Name N 150 LPRINT e Sample Name sN sLFRINT 160 FRINT INFUT C i mol kg 5CM 170 LPRINT C G rt mol kg SCH 180 PRINT INFUT Fiber cm tb 190 LPRINT Fiber 7 r tem sR LPRINT 200 COLOR Z3 FPRINT FRINT FPRINT INPUT t sec T 1 210 LPRINT t mec T 220 PRINT FRINT C oatani mol kg 3 INFUT CT 230 LPRINT Catani mol kg iCT 3 240 CX CT CH 250 FRINTiCOLDR 6 FRINT e Wait a moment please GOSUB Z360 260 D FX R R T 270 COLOR 3 FRINT FRINT FRINT N72 D 3604D
93. S CC C i VR 2 27 CI C Y AW 31 3 ml 1 A 10mW A B A
94. K O TTT EE ETC EE 1 3 3 7 DZ 3 7 1 3 36 60 6Gilbert Rideal Ag Scatchard s plots S A AH 3 1 4 KEXARI NAZAR ERRADA EERON gt lt Om WER mol kg 0 MARE xi0 s mol 50 3 36 60 3 14 C 1 Acid Orange 7 Slsssnnie XS 8 vue ER att kc
95. 10mm 701 b 3 5 1 2 PMT vs 6 W ss Lk GC z 2 CRT 3 2 2 BASIC CRT BAS I C
96. A E CHC 25 0 V 2 15 Ct C J TORR AW 26 1 B 2 1 6 Ct C LV To 2 1 7 pH4 0 pH3 0 K 2 17 A K p X107 mol kg 0 900 d m men 2 16 RA p HPWH LITE BM ME 2 17 Ct C EN TORR B 2 3 3 2 3 1 A 2 18 CC Y 2 1 9 cn O O 1 25X10 Smol l A 2 50x10 5mol 1 5 00X10 5mol 10 mol kg k H 2 18 A E O 1 25X10 smol l A 2 50X10 5mol O 5 00X10 5mol 1 CM C
97. 25 e ve CR 2 1 9 Ct Co Y ORR AW 8 A 2 50X1075 mol l O 5 00x10 5 mol l X107 mol kg m mm 2 20 B S Sam K mo b x107 CUCc A 2 50X10 5 mol l 5 00x10 5 mol i RS 2 21 CU C y TORR B BB 2 20 Ct C d t 2 21 B 1 3000 K 2 19 21 13 VULR 7 RRARD GA LRSL SZ khhkk 2 3 4 2 3 1 A 2 22 1 10 000 K 2 23 1 20 000 cn X10 3 mol kg 9 pm 900 2 22 AW e i O 1 10 000 A 1 20 000 1 40 000 O 1 80 000 V RG 2 23 C C
98. Y TARR AW 8 x10 3 mol kg 0 DR wu 2 24 WEEK AER 8 C Cs 9 2 25 Ct C Y B i B 2 24 2 25 Ct C EV t A K 2 25 2 3 5 SIE de IER SREL GG LG d Re A 2 3 1 2 2 6 CUC YV 2 2 7 K 400rpm cm CH X10 3 mol kg A 200rpm 300rpm g a O 400rpm V 600rpm 0 mm 600 2 26 A
99. 5 7 196 1988 3 2 3 26 11 1988 2 4 Iofluence of Turkey Red Oil on the Dyeing Properties of Silk with Acid Dye Tetsuo Nakajima Yoshiaki Shimizu Masayoshi Shikata and Mitsuo Kimura The Journal of Sericultural Seience of Japan 58 20 1989 3 5 8 175 1989 3 BERENT k DEORECE T p 5 8 216 1989 4 2 4 D p 58 1981 2 R GRIER p 549 1980
100. cm cm min 280 LPRINT D 604D 7 cm cm min d 285 COLOR 3 FRINT FRINT Dy emtcm sec 286 LPRINT Di cm cm sec 2970 PRINT PRINT D Z 10000 mkm s 00 LPRINT D Z 10000 mm s LFRINT 10 COLOR 4 FRINT FRINT sample 5 continue space key ts 320 F TNEEY IF Ff THEN GOTO 320 330 IF F s THEN GOTO 140 340 IF F THEN GOTO z200 350 GOTO 310 3460 S70 i zgo s 390 FX Q 400 FUR 1 1 TO 17 410 C 1 420 FOR J 1 TO 17 430 IF I J GOTO 450 440 C C CX X J X I X J 450 NEXT J 460 FX FX CXYK I 470 NEXT I 480 i 4970 E ND MM S00 510 RETURN imne bw 3 2 7 CC 2 8 0 E D D Hill
101. 60C 3 19 3 2 Ct C Ct C Y 1 3 20 K K 3 21 oc 3 1 0 40 O Control A Treated CD X10 3 mot k 0 Time sec 600 3 1 9 60 100 O Control A Treated C Ca la 0 CH V Time sec 25 3 20 40 C t C VY Top O Control A Treated log K 3 0 3 3 2 0 1 Temp kelvin 3
102. 1 2 TEE EE EEN ET 40 CH3COOH o outer portion a middle porti CH3COOH Na2504 e outer portion a middle portion D X103 mol kg f 0 Time sec 900 4 12 4 Di p pH 2 pH p HH
103. 21 logK 1 Temp Kelvin 3 1 0 K oc 40C B 3 2 2 BA EE EE CH Control Sulfonated ricinoleic acid a Turky red oil D iX 103 mol kd Time sec 300 3 22 40C 3 2 C C Ct C Y 3 2 3 100 o Control K 3 42 X10 a Sulfonated ricinoleic acid K 3 32X10 a Turky red o
104. 1 0X10 mol 1 pH4 8 8 10 mol1 1 1 2 CH COOH CHI COG Si 1 H 0 3 Sid Raas HS NH 2 1 2 2 40 E E o CH3COOH 2 a HCL gt x lt S J 0 Time sec 900 4 2 4 0 O o CHCOOH a HCL D X10 mol kg Time sec 900 4
105. 3 50 40 o CH3 COOH a HCL DJiX10 mol kg Time sec 900 4 4 60 3 3 ER OUR AELK LG d S Aer RER DI pH4 0 002mol 1 pH4 5 0 900 4 5 4 0 6 0 8 80X10 mol 1 17X10 mol 1 1 5 geng
106. k DEORE TIR HE 54 143 1985 Hee 56 116 1987 T Vickerstaff p 112 1961 MMB RERREE WE HELK 12 223 1964 p 103 1966 R 12 p 124 1966 4 120 p 141 1972 OEB RIES p 66 1973 D p 85 1980 A Mon LRI ER BARES IER p57 1980 E WF 39 T 260 1982 29 30 E 31 H IV Des 47 472 1978 32 BARE 33 2 1985 33
107. ve M 2 12 Ct C YV t B log K 3 1 3 2 3 3 1 Temp kelvin X107 13 logK 1 Temp Kelvin B 2 4 K o B K o 2 3 2 pH A 2 1 4 C Ct C LV TO 2 1 5 H pH4 5 1 6868X10 mol kg pH4 0 3 6097X102 mol kg pH3 5 6 5038X107 mol kg pH3 0 8 9304X10 mol kg K 2 1 5 5 X10 mol kg SS 2 14 pH
108. 00 400 Wavelength nm 3 26 57 3 5 3 5 1 40C 3 2 7 O A MARRE w ae E X107 mol kg OH H se om xi05 mo l 50 3 27 40C 3 1 1 C I Acid Orange 7 A S e AAA AH x107 mol kg kcal mol kcal mol 3 1
109. 12 p 323 1966 13 4 120 p 196 1972 SS 2 Se ABD Ss SSES ZS EG rge tgir CC Bio SZ GIS 1 S mi HMHI Bebe IARU L CAE eeh SE AR ER DELT REI eg EL LA LETO drot RE em gi Ri Rm Hoer NIE g RADORE BIREN ER Mh MA RA HN Han C I Acid Orange 7 5 0 RI VT BERIS LR bierg lt I D REEOREE 0 KAB reegt gt
110. E e K i Wi a at el a 3 2 K 3 39 g 3 1 5 K ew 3 15 K o K a TE ET
111. F G r T TN Ou El E E E H N T IF F ExEC Ee ho ia USEt s gtje Z Hg1 EE AR D a Paen du HS d 8 TNPHT TNTEBUBL PRLHTELSA 3 LHE 1 3 5 e Pk FEINTE IT D seuckicu PhIiINHT I E 5 H 3 gt er E CT T Of nl Wil fen Hi tan Sei A CD e HE7F2 VH 157EG Leg d CO ee Bk BEEP BEEP BEEP RUN 1 MYPREUG Ap TIR m LI 4 J CATA HSIN r H HHRH IN OT 7 f THEH op 8hsRHHT1EHNEST1 Time min 2 3 A 40C 2 1 gt ooo anacan OO onongto tU ei mE Oooo lr or 1 OO O Q oo mmw in oo oo 1 HANNAN xX zl z Px DAND THOO NOONAN FANANN A NNANAN QQQQQGQ F EEE a au Aa wl EE ECA vt SS HD KA S SS Er oino lrenocno nor one nonono E NAR lebt oO i D S EE GE mm 1 DL SA
112. H 3 3 0 x107 mp ZS PE mol kg CH s a op me x105 mol l 50 3 10 60C 3 3 I Acid Orange 7 Ze ZS Au S KS SE E kcal7mel kcal mol BS 23 7 17 3 15 2 3 2 3 50 A 3 1 1 40 x103 w we St mol kg 3 11 50
113. T mos Can p 2 2 2 A 40 50 60 B 30 40 50 3 pH A 3 0 3 5 4 0 4 5 B 3 0 4 0 62 mmm remm A 1 25x10 5 2 5 X10 5 5 x10 smol l B 2 5 X107 5 10 5mol A 1 80 000 7 5mg 600ml 1 40 000 15mg 600ml 1 20 000 30mg 600mI 1 10 000 60mg 600ml B 1 3 000 1 mg 3ml 1 6 000 0 5mg 3ml A 100 200 300 400 600rpm
114. al mol i D 3 7 2 O 3 37 A 60C 3 2 C1 C Ct C 3 38 H ZS SG 17 7 1 52x 10 cm 17 7 1 52x10 cm gt 3g mol kg EE 0 eg rg 900 3 37 60 100 h 8 L AXAREK 0 E 0 Jea 9 3 38 60 Ct C V tT log K Vu 3 0 2 go 1 3 1 Temp Kavin 3 39 logK 1 Temp Kelvin lei Ai eh a mme E E
115. ial Dye Bath syVs ml 150 FRINTs INPUT Fiber Weights g sW 160 LFRINT Fiber Weights 33LPRINT USING gp gange LFRINT g UI 170 FRINT IiNFUT Initial Absorbance soi 180 LFRINT Initial Absorbance soi 170 FRINTs INPUT What intervals of time sec do you print ssSi PRINT 200 LPRINT LPFRINT LFRINT Ngee se abs 4 7 CD Jf E 3mol k g LFRINT 210 COLOR 6 FRINT FRINT Na INPUT REDUcD DYE EATH ABSORBANCE u 3 A2 220 230 GOSUE 2970 240 DF CINT 100000 DBX 1 10QO VV 1 1000 W 10Q 250 COLOR 2sPRINTgFRINT CD f poer uan 3 DF E 3mol kg 260 LPRINT s 241 LPRINT USING N LPRINT d 262 LFRINT USING 3A2 LFRINT ne 263 LFRINT USING n g DES a LERINT u 270 N N S1 280 GOTO 210 290 Z300 310 DS1 4 74288E 05 A1 5 80585E 07 320 DS2 4 74288E 05 A2 5 80585E 07 330 DS DS1 DS2 340 RETURN KI 4 1 3 10mm B 1 3 1 2 4 1 2 ss te T ZS 3ml 10mm
116. il K 3 31X10 H CilCa l 0 Time sec 30 3 23 40 C 1 C K 3 2 K 3 23 3 4 3 3 24 0 15 3 25 2
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