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Handbook of Solvents - George Wypych - ChemTech - Ventech!
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338 Vasiliy V. Tereshatov, Valery Yu. Senichev<br />
4 V.V. Tereshatov, Vysokomol. soed., 37A, 1529 (1995).<br />
5 U.S. Aithal, T.M. Aminabhavi, R.H. Balundgi, and S.S. Shukla, JMS - Rev. Macromol. Chem. Phys., 30C<br />
(1), 43 (1990).<br />
6 P.J. Flory, Principles <strong>of</strong> Polymer Chemistry, Cornell Univ. Press, Ithaca, 1953.<br />
7 G.M. Bristow, and W.F. Watson, Trans. Faraday. Soc., 54, 1731 (1958).<br />
8 L.N. Mizerovsky, L.N. Vasnyatskaya, and G.M. Smurova, Vysokomol. Soed., 29A, 1512 (1987).<br />
9 D. Cohen, A. Siegman, and M. Narcis, Polym. Eng. Sci., 27, 286 (1987).<br />
10 E. Konton, G. Spathis, M. Niaounakis and V. Kefals, Colloid Polym. Sci., 26B, 636 (1990).<br />
11 V.V. Tereshatov, E.N. Tereshatova, and E.R. Volkova, Polym. Sci., 37A, 1157 (1995).<br />
12 E.E. Cluff, E.K. Gladding, and R. Pariser, J. Polym. Sci., 45, 341 (1960).<br />
13 Yu.Yu. Kercha, Z.V. Onishchenko, I.S. Kutyanina, and L.A. Shelkovnikova, Structural and Chemical<br />
Modification <strong>of</strong> Elastomers, Naukova Dumka, Kiev, 1989.<br />
14 Yu.Yu. Kercha, Physical Chemistry <strong>of</strong> Polyurethanes, Naukova Dumka, Kiev, 1979.<br />
15 V.N. Vatulev, S.V. Laptii, and Yu.Yu. Kercha, Infrared Spectra and Structure <strong>of</strong> Polyurethanes,<br />
Naukova Dumka, Kiev, 1987.<br />
16 S.V. Tereshatov, Yu.S. Klachkin, and E.N. Tereshatova, Plastmassy, 7, 43 (1998).
6.4 Influence <strong>of</strong> structure on equilibrium swelling 337 (v e/V 0) x, <strong>of</strong> SPU-1. It means that DBCF breaks down the physical network <strong>of</strong> elastomer; thus, the values <strong>of</strong> Q v in DBCF do not depend on the tensile strain. In all other cases, swelling <strong>of</strong> SPU-1 in toluene differs only marginally from the initial swelling <strong>of</strong> respective samples in toluene alone. Therefore, these solvents are unable to cause the breakdown <strong>of</strong> the physical network. Table 6.4.5. Equilibrium swelling <strong>of</strong> SPU-1 samples in various solvents before and after stretching at 25 o C (calculated and experimental data). [Adapted, by permission, from V.V. Tereshatov, Vysokomol. soed., 37A, 1529 (1995).] Solvent ρ1, kg/m 3 V1×10 3 , m 3 /kmol QV (ε=0) χ 1 (ε=0) QV (ε=700%) T QV calc exp Toluene 862 107 3.54 0.32 5.06 4.87 (ε=700%) T QV (ε=0) DBP 1043 266 1.12 0.56 1.47 1.53 4.85 3.49 n-Octane 698 164 0.79 0.75 0.90 0.93 4.94 3.60 Cyclohexane 774 109 1.46 0.60 1.78 1.95 4.99 3.63 p-Xylene 858 124 2.94 0.36 4.17 3.93 4.81 3.52 Butyl acetate 876 133 2.28 0.44 3.13 2.97 5.12 3.69 DOS 912 468 1.21 0.38 1.60 1.71 5.10 3.63 DOA 924 402 1.49 0.32 2.19 2.18 5.00 3.61 DHS 923 340 1.74 0.30 2.55 2.44 5.01 3.59 DHP 1001 334 1.25 0.47 1.71 1.74 4.79 3.47 DBCP 976 347 4.48 4.51 9.92 9.98 The calculation <strong>of</strong> equilibrium swelling <strong>of</strong> SPU-1 (after its deformation up to 700 % and subsequent unloading) in a given solvent was carried out using the Flory - Rehner equation. In our calculations we used values <strong>of</strong> the χ1 parameter <strong>of</strong> interaction between solvents and elastomer calculated from experimental data <strong>of</strong> equilibrium swelling <strong>of</strong> initial sample (ε=0) in these solvents. The diference between calculated and experimental data on equilibrium swelling <strong>of</strong> SPU-1 samples after their deformation does not exceed 9%. Therefore, the increase in swelling <strong>of</strong> SPU-1 is not related to the change <strong>of</strong> the χ1 parameter but it is related to a decrease in the (ve/V0) dx value <strong>of</strong> its three-dimensional network, caused by restructure <strong>of</strong> material by effect <strong>of</strong> strain. The change <strong>of</strong> the domain structure <strong>of</strong> SPU exposed to increased temperature (~200 o C) and consequent storage <strong>of</strong> an elastomer at room temperature may also cause a change in equilibrium swelling <strong>of</strong> material. 16 REFERENCES 1 V.P. Begishev, V.V. Tereshatov, E.N. Tereshatova, Int. Conf. Polymers in extreme environments, Nottingham, July 9-10, 1991, Univ. Press, Nottingham, 1991, pp. 1-6. 2 E.N. Tereshatova, V.V. Tereshatov, V.P. Begishev, and M.A. Makarova, Vysokomol. Soed., 34B, 22 (1992). 3 V.V. Tereshatov, E.N. Tereshatova, V.P. Begishev, V.I. Karmanov, and I.V. Baranets, Polym. Sci., 36A, 1680 (1994).
338 Vasiliy V. Tereshatov, Valery Yu. Senichev 4 V.V. Tereshatov, Vysokomol. soed., 37A, 1529 (1995). 5 U.S. Aithal, T.M. Aminabhavi, R.H. Balundgi, and S.S. Shukla, JMS - Rev. Macromol. Chem. Phys., 30C (1), 43 (1990). 6 P.J. Flory, Principles <strong>of</strong> Polymer Chemistry, Cornell Univ. Press, Ithaca, 1953. 7 G.M. Bristow, and W.F. Watson, Trans. Faraday. Soc., 54, 1731 (1958). 8 L.N. Mizerovsky, L.N. Vasnyatskaya, and G.M. Smurova, Vysokomol. Soed., 29A, 1512 (1987). 9 D. Cohen, A. Siegman, and M. Narcis, Polym. Eng. Sci., 27, 286 (1987). 10 E. Konton, G. Spathis, M. Niaounakis and V. Kefals, Colloid Polym. Sci., 26B, 636 (1990). 11 V.V. Tereshatov, E.N. Tereshatova, and E.R. Volkova, Polym. Sci., 37A, 1157 (1995). 12 E.E. Cluff, E.K. Gladding, and R. Pariser, J. Polym. Sci., 45, 341 (1960). 13 Yu.Yu. Kercha, Z.V. Onishchenko, I.S. Kutyanina, and L.A. Shelkovnikova, Structural and Chemical Modification <strong>of</strong> Elastomers, Naukova Dumka, Kiev, 1989. 14 Yu.Yu. Kercha, Physical Chemistry <strong>of</strong> Polyurethanes, Naukova Dumka, Kiev, 1979. 15 V.N. Vatulev, S.V. Laptii, and Yu.Yu. Kercha, Infrared Spectra and Structure <strong>of</strong> Polyurethanes, Naukova Dumka, Kiev, 1987. 16 S.V. Tereshatov, Yu.S. Klachkin, and E.N. Tereshatova, Plastmassy, 7, 43 (1998).
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HANDBOOK OF SOLVENTS George Wypych,
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Preface Although the chemical indus
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Preface xxix contain or to have use
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1654 Acknowledgments 10.3 Solvent e
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Table of Contents Preface .........
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Table of contents iii 4.3 Polar sol
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Table of contents v 7.2.1.1 Rheolog
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Table of contents vii 9.4.4 Solvent
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Table of contents ix 12.2.2.1 Chemi
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Table of contents xi 14.4.3.1 Intro
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Table of contents xiii 14.19 Paints
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Table of contents xv 15.1.20 Gas ch
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Table of contents xvii 17.2.2 Movem
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Table of contents xix 18.4.7 Dry cl
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Table of contents xxi 20.7.1 Introd
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Table of contents xxiii 21.4.1.3 Pr
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Table of contents xxv 23.2.1.3 Sour
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2 Christian Reichardt aliphatic nit
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4 Christian Reichardt the knowledge
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2 Fundamental Principles Governing
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.1 Solvent effects on chemical sys
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2.2 Molecular design of solvents 37
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2.2 Molecular design of solvents 39
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2.2 Molecular design of solvents 41
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2.3 Basic physical and chemical pro
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2.3 Basic physical and chemical pro
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2.3 Basic physical and chemical pro
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2.3 Basic physical and chemical pro
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2.3 Basic physical and chemical pro
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2.3 Basic physical and chemical pro
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2.3 Basic physical and chemical pro
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2.3 Basic physical and chemical pro
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2.3 Basic physical and chemical pro
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2.3 Basic physical and chemical pro
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2.3 Basic physical and chemical pro
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66 George Wypych Aprotic/Protic Ter
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68 George Wypych Biodegradability T
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70 George Wypych Figure 3.2.1. Sche
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72 George Wypych Figure 3.3.4. Simp
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74 George Wypych Synthetic routes a
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76 George Wypych Property minimum V
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78 George Wypych Property minimum V
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80 George Wypych Property minimum V
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82 George Wypych Property minimum V
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84 George Wypych Property minimum V
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86 George Wypych Property minimum V
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88 George Wypych Property minimum V
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90 George Wypych Property minimum V
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92 George Wypych Property minimum V
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94 George Wypych Property minimum V
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96 Tilman Hahn, Konrad Botzenhart,
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98 Tilman Hahn, Konrad Botzenhart,
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General Principles Governing Dissol
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4.1 Simple solvent characteristics
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4.1 Simple solvent characteristics
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4.1 Simple solvent characteristics
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4.1 Simple solvent characteristics
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4.1 Simple solvent characteristics
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4.1 Simple solvent characteristics
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4.1 Simple solvent characteristics
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4.1 Simple solvent characteristics
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4.1 Simple solvent characteristics
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4.1 Simple solvent characteristics
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4.1 Simple solvent characteristics
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4.2 Effect of system variables on s
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4.2 Effect of system variables on s
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4.2 Effect of system variables on s
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4.2 Effect of system variables on s
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4.3 Polar solvation dynamics 133 tr
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4.3 Polar solvation dynamics 135 Fo
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4.3 Polar solvation dynamics 137 at
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4.3 Polar solvation dynamics 139 li
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4.3 Polar solvation dynamics 141 Fi
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4.3 Polar solvation dynamics 143 Fi
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4.3 Polar solvation dynamics 145 ta
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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4.4 Measurement of solvent activity
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Solubility of Selected Systems and
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5.1 Solubility parameters 245 ln P
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5.1 Solubility parameters 247 Accep
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5.1 Solubility parameters 249 media
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5.1 Solubility parameters 251 Polym
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5.2 Prediction of solubility parame
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5.2 Prediction of solubility parame
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5.2 Prediction of solubility parame
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5.2 Prediction of solubility parame
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5.3 Methods of calculation of solub
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5.3 Methods of calculation of solub
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5.3 Methods of calculation of solub
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5.4 Mixed solvents - polymer solubi
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5.4 Mixed solvents - polymer solubi
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5.4 Mixed solvents - polymer solubi
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5.4 Mixed solvents - polymer solubi
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5.4 Mixed solvents - polymer solubi
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5.4 Mixed solvents - polymer solubi
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5.4 Mixed solvents - polymer solubi
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5.5 The phenomenological theory of
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5.5 The phenomenological theory of
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- Page 357 and 358: 328 Vasiliy V. Tereshatov, Valery Y
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388 Seung Su Kim, Jae Chun Hyun rat
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390 Seung Su Kim, Jae Chun Hyun The
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392 Seung Su Kim, Jae Chun Hyun whe
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394 Seung Su Kim, Jae Chun Hyun beg
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396 Seung Su Kim, Jae Chun Hyun 7.3
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398 Seung Su Kim, Jae Chun Hyun Fig
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400 Seung Su Kim, Jae Chun Hyun Fig
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402 Seung Su Kim, Jae Chun Hyun Fig
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404 Seung Su Kim, Jae Chun Hyun sol
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406 Seung Su Kim, Jae Chun Hyun Tab
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408 Seung Su Kim, Jae Chun Hyun and
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410 Seung Su Kim, Jae Chun Hyun to
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412 Seung Su Kim, Jae Chun Hyun The
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414 Seung Su Kim, Jae Chun Hyun cau
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416 Seung Su Kim, Jae Chun Hyun Nu
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Interactions in Solvents and Soluti
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8.2 Basic simplifications of quantu
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8.2 Basic simplifications of quantu
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8.4 Two-body interaction energy 425
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8.4 Two-body interaction energy 447
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8.4 Two-body interaction energy 449
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8.5 Three- and many-body interactio
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8.5 Three- and many-body interactio
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8.5 Three- and many-body interactio
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8.6 The variety of interaction pote
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8.6 The variety of interaction pote
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8.7 Theoretical and computing model
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8.7 Theoretical and computing model
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8.7 Theoretical and computing model
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8.7 Theoretical and computing model
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8.7 Theoretical and computing model
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8.7 Theoretical and computing model
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8.7 Theoretical and computing model
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8.8 Practical applications of model
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8.8 Practical applications of model
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8.8 Practical applications of model
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8.9 Liquid surfaces 493 to study th
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8.9 Liquid surfaces 495 The potenti
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8.9 Liquid surfaces 497 out of equi
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8.9 Liquid surfaces 499 tions) of t
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8 Interactions in solvents and solu
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8 Interactions in solvents and solu
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9 Mixed Solvents Y. Y. Fialkov, V.
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9.2 Chemical interaction between co
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9.2 Chemical interaction between co
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9.3 Physical properties of mixed so
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9.3 Physical properties of mixed so
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9.3 Physical properties of mixed so
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9.3 Physical properties of mixed so
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9.3 Physical properties of mixed so
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9.3 Physical properties of mixed so
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9.3 Physical properties of mixed so
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9.3 Physical properties of mixed so
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9.4 Mixed solvent influence on the
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9.5 The mixed solvent effect on the
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9.5 The mixed solvent effect on the
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9.5 The mixed solvent effect on the
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9 Mixed solvents 563 22 Minkin V.,
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10 Acid-base Interactions 10.1 GENE
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10.1 General concept of acid-base i
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10.2 Effect of polymer/solvent acid
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10.2 Effect of polymer/solvent acid
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10.3 Solvent effects based on pure
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10.3 Solvent effects based on pure
- Page 615 and 616:
10.3 Solvent effects based on pure
- Page 617 and 618:
10.3 Solvent effects based on pure
- Page 619 and 620:
10.3 Solvent effects based on pure
- Page 621 and 622:
10.3 Solvent effects based on pure
- Page 623 and 624:
10.3 Solvent effects based on pure
- Page 625 and 626:
10.3 Solvent effects based on pure
- Page 627 and 628:
10.3 Solvent effects based on pure
- Page 629 and 630:
10.3 Solvent effects based on pure
- Page 631 and 632:
10.3 Solvent effects based on pure
- Page 633 and 634:
10.3 Solvent effects based on pure
- Page 635 and 636:
10.3 Solvent effects based on pure
- Page 637 and 638:
10.3 Solvent effects based on pure
- Page 639 and 640:
10.3 Solvent effects based on pure
- Page 641 and 642:
10.3 Solvent effects based on pure
- Page 643 and 644:
10.3 Solvent effects based on pure
- Page 645 and 646:
10.4 Acid-base equilibria in ionic
- Page 647 and 648:
10.4 Acid-base equilibria in ionic
- Page 649 and 650:
10.4 Acid-base equilibria in ionic
- Page 651 and 652:
10.4 Acid-base equilibria in ionic
- Page 653 and 654:
10.4 Acid-base equilibria in ionic
- Page 655 and 656:
10.4 Acid-base equilibria in ionic
- Page 657 and 658:
10.4 Acid-base equilibria in ionic
- Page 659 and 660:
10.4 Acid-base equilibria in ionic
- Page 661 and 662:
10.4 Acid-base equilibria in ionic
- Page 663 and 664:
10.4 Acid-base equilibria in ionic
- Page 665 and 666:
10.4 Acid-base equilibria in ionic
- Page 667 and 668:
11 Electronic and Electrical Effect
- Page 669 and 670:
11.1 Theoretical treatment of solve
- Page 671 and 672:
11.1 Theoretical treatment of solve
- Page 673 and 674:
11.1 Theoretical treatment of solve
- Page 675 and 676:
11.1 Theoretical treatment of solve
- Page 677 and 678:
11.1 Theoretical treatment of solve
- Page 679 and 680:
11.1 Theoretical treatment of solve
- Page 681 and 682:
11.1 Theoretical treatment of solve
- Page 683 and 684:
11.1 Theoretical treatment of solve
- Page 685 and 686:
11.1 Theoretical treatment of solve
- Page 687 and 688:
11.1 Theoretical treatment of solve
- Page 689 and 690:
11.1 Theoretical treatment of solve
- Page 691 and 692:
11.1 Theoretical treatment of solve
- Page 693 and 694:
11.1 Theoretical treatment of solve
- Page 695 and 696:
11.1 Theoretical treatment of solve
- Page 697 and 698:
11.1 Theoretical treatment of solve
- Page 699 and 700:
11.1 Theoretical treatment of solve
- Page 701 and 702:
11.1 Theoretical treatment of solve
- Page 703 and 704:
11.1 Theoretical treatment of solve
- Page 705 and 706:
11.1 Theoretical treatment of solve
- Page 707 and 708:
11.1 Theoretical treatment of solve
- Page 709 and 710:
11.2 Dielectric solvent effects 681
- Page 711 and 712:
12 Other Properties of Solvents, So
- Page 713 and 714:
12.1 Rheological properties, aggreg
- Page 715 and 716:
12.1 Rheological properties, aggreg
- Page 717 and 718:
12.1 Rheological properties, aggreg
- Page 719 and 720:
12.1 Rheological properties, aggreg
- Page 721 and 722:
12.1 Rheological properties, aggreg
- Page 723 and 724:
12.1 Rheological properties, aggreg
- Page 725 and 726:
12.1 Rheological properties, aggreg
- Page 727 and 728:
12.1 Rheological properties, aggreg
- Page 729 and 730:
12.1 Rheological properties, aggreg
- Page 731 and 732:
12.1 Rheological properties, aggreg
- Page 733 and 734:
12.1 Rheological properties, aggreg
- Page 735 and 736:
12.2 Chain conformations of polysac
- Page 737 and 738:
12.2 Chain conformations of polysac
- Page 739 and 740:
12.2 Chain conformations of polysac
- Page 741 and 742:
12.2 Chain conformations of polysac
- Page 743 and 744:
12.2 Chain conformations of polysac
- Page 745 and 746:
12.2 Chain conformations of polysac
- Page 747 and 748:
12.2 Chain conformations of polysac
- Page 749 and 750:
12.2 Chain conformations of polysac
- Page 751 and 752:
12.2 Chain conformations of polysac
- Page 753 and 754:
12.2 Chain conformations of polysac
- Page 755 and 756:
12.2 Chain conformations of polysac
- Page 757 and 758:
12.2 Chain conformations of polysac
- Page 759 and 760:
12.2 Chain conformations of polysac
- Page 761 and 762:
12.2 Chain conformations of polysac
- Page 763 and 764:
12.2 Chain conformations of polysac
- Page 765 and 766:
738 Roland Schmid Figure 13.1.1. Re
- Page 767 and 768:
740 Roland Schmid HB interactions,
- Page 769 and 770:
742 Roland Schmid AN = -133.8 - 0.0
- Page 771 and 772:
744 Roland Schmid ated by the macro
- Page 773 and 774:
746 Roland Schmid turns out, polar
- Page 775 and 776:
748 Roland Schmid Packing density
- Page 777 and 778:
750 Roland Schmid tween calculated
- Page 779 and 780:
752 Roland Schmid over the solute-s
- Page 781 and 782:
754 Roland Schmid of the empirical
- Page 783 and 784:
756 Roland Schmid From X-ray and ne
- Page 785 and 786:
758 Roland Schmid Table 13.1.5. Sol
- Page 787 and 788:
760 Roland Schmid ΔG = ΔG + ΔG [
- Page 789 and 790:
762 Roland Schmid very recent paper
- Page 791 and 792:
764 Roland Schmid Solvent ΔvH/RT
- Page 793 and 794:
766 Roland Schmid E r = E i + E s [
- Page 795 and 796:
768 Roland Schmid from the explicit
- Page 797 and 798:
770 Roland Schmid sequently, there
- Page 799 and 800:
772 Roland Schmid simulations. 188-
- Page 801 and 802:
774 Roland Schmid 23 N. A. Lewis, Y
- Page 803 and 804:
776 Roland Schmid 132 R. R. Dogonad
- Page 805 and 806:
778 Michelle L. Coote and Thomas P.
- Page 807 and 808:
780 Michelle L. Coote and Thomas P.
- Page 809 and 810:
782 Michelle L. Coote and Thomas P.
- Page 811 and 812:
784 Michelle L. Coote and Thomas P.
- Page 813 and 814:
786 Michelle L. Coote and Thomas P.
- Page 815 and 816:
788 Michelle L. Coote and Thomas P.
- Page 817 and 818:
790 Michelle L. Coote and Thomas P.
- Page 819 and 820:
792 Michelle L. Coote and Thomas P.
- Page 821 and 822:
794 Michelle L. Coote and Thomas P.
- Page 823 and 824:
796 Michelle L. Coote and Thomas P.
- Page 825 and 826:
798 Maw-Ling Wang 13.3 EFFECTS OF O
- Page 827 and 828:
800 Maw-Ling Wang [13.3.2] Inverse
- Page 829 and 830:
802 Maw-Ling Wang Both cation and a
- Page 831 and 832:
804 Maw-Ling Wang Table 13.3.2. Eff
- Page 833 and 834:
806 Maw-Ling Wang Table 13.3.3. Ext
- Page 835 and 836:
808 Maw-Ling Wang Table 13.3.5. Eff
- Page 837 and 838:
810 Maw-Ling Wang reacts with pheno
- Page 839 and 840:
812 Maw-Ling Wang Figure 13.3.3. Ef
- Page 841 and 842:
814 Maw-Ling Wang the organic solve
- Page 843 and 844:
816 Maw-Ling Wang crease. Therefore
- Page 845 and 846:
818 Maw-Ling Wang (F) Polymerizatio
- Page 847 and 848:
820 Maw-Ling Wang Table 13.3.16. Sy
- Page 849 and 850:
822 Maw-Ling Wang 13.3.1.4 Effect o
- Page 851 and 852:
824 Maw-Ling Wang Table 13.3.19 Eff
- Page 853 and 854:
826 Maw-Ling Wang quaternary salt c
- Page 855 and 856:
828 Maw-Ling Wang Table 13.3.24. Ef
- Page 857 and 858:
830 Maw-Ling Wang Solvent Dielectri
- Page 859 and 860:
832 Maw-Ling Wang ied. 82,83,97,101
- Page 861 and 862:
834 Maw-Ling Wang substitution, suc
- Page 863 and 864:
836 Maw-Ling Wang (2) the ion excha
- Page 865 and 866:
838 Maw-Ling Wang REFERENCES 1 A. A
- Page 867 and 868:
840 Maw-Ling Wang 101 D. C. Sherrin
- Page 869 and 870:
842 Norio Tsubokawa [13.4.2] PAI is
- Page 871 and 872:
844 Norio Tsubokawa Table 13.4.2. I
- Page 873 and 874:
846 Norio Tsubokawa more easily tha
- Page 875 and 876:
848 George Wypych methyl amyl keton
- Page 877 and 878:
850 George Wypych Peel strength, N/
- Page 879 and 880:
852 George Wypych 8 P Enenkel, H Ba
- Page 881 and 882:
854 George Wypych Table 14.2.2. Tot
- Page 883 and 884:
856 M Matsumoto, S Isken, JAMdeBont
- Page 885 and 886:
858 M Matsumoto, S Isken, JAMdeBont
- Page 887 and 888:
860 M Matsumoto, S Isken, JAMdeBont
- Page 889 and 890:
862 M Matsumoto, S Isken, JAMdeBont
- Page 891 and 892:
864 M Matsumoto, S Isken, JAMdeBont
- Page 893 and 894:
866 Tilman Hahn, Konrad Botzenhart
- Page 895 and 896:
868 Tilman Hahn, Konrad Botzenhart
- Page 897 and 898:
870 Tilman Hahn, Konrad Botzenhart
- Page 899 and 900:
872 Tsuneo Yamane 14.4.3 CHOICE OF
- Page 901 and 902:
874 Tsuneo Yamane Very trace amount
- Page 903 and 904:
876 Tsuneo Yamane It has been shown
- Page 905 and 906:
878 Tsuneo Yamane [ ( kcat Km) ( kc
- Page 907 and 908:
880 George Wypych 11 A. Zaks, in En
- Page 909 and 910:
882 George Wypych rected towards im
- Page 911 and 912:
884 Kaspar D. Hasenclever than 55°
- Page 913 and 914:
886 Kaspar D. Hasenclever The same
- Page 915 and 916:
888 Kaspar D. Hasenclever Figure 14
- Page 917 and 918:
890 Kaspar D. Hasenclever Computer
- Page 919 and 920:
892 Kaspar D. Hasenclever • Solve
- Page 921 and 922:
894 Martin Hanek, Norbert Löw, And
- Page 923 and 924:
896 Martin Hanek, Norbert Löw, And
- Page 925 and 926:
898 Martin Hanek, Norbert Löw, And
- Page 927 and 928:
900 Martin Hanek, Norbert Löw, And
- Page 929 and 930:
902 Martin Hanek, Norbert Löw, And
- Page 931 and 932:
904 Martin Hanek, Norbert Löw, And
- Page 933 and 934:
906 Martin Hanek, Norbert Löw, And
- Page 935 and 936:
908 Martin Hanek, Norbert Löw, And
- Page 937 and 938:
910 Martin Hanek, Norbert Löw, And
- Page 939 and 940:
912 Martin Hanek, Norbert Löw, And
- Page 941 and 942:
914 Martin Hanek, Norbert Löw, And
- Page 943 and 944:
916 Martin Hanek, Norbert Löw, And
- Page 945 and 946:
918 Martin Hanek, Norbert Löw, And
- Page 947 and 948:
920 George Wypych 20 N. L�w, EPP
- Page 949 and 950:
922 George Wypych Table 14.9.2. Rep
- Page 951 and 952:
924 Phillip J. Wakelyn, Peter J. Wa
- Page 953 and 954:
926 Phillip J. Wakelyn, Peter J. Wa
- Page 955 and 956:
928 Phillip J. Wakelyn, Peter J. Wa
- Page 957 and 958:
930 Phillip J. Wakelyn, Peter J. Wa
- Page 959 and 960:
932 Phillip J. Wakelyn, Peter J. Wa
- Page 961 and 962:
934 Phillip J. Wakelyn, Peter J. Wa
- Page 963 and 964:
936 Phillip J. Wakelyn, Peter J. Wa
- Page 965 and 966:
938 Phillip J. Wakelyn, Peter J. Wa
- Page 967 and 968:
940 Phillip J. Wakelyn, Peter J. Wa
- Page 969 and 970:
942 Phillip J. Wakelyn, Peter J. Wa
- Page 971 and 972:
944 Phillip J. Wakelyn, Peter J. Wa
- Page 973 and 974:
946 Phillip J. Wakelyn, Peter J. Wa
- Page 975 and 976:
948 Phillip J. Wakelyn, Peter J. Wa
- Page 977 and 978:
950 George Wypych 14.11 GROUND TRAN
- Page 979 and 980:
952 George Wypych Figure 14.13.1. S
- Page 981 and 982:
954 Tilman Hahn, Konrad Botzenhart,
- Page 983 and 984:
956 George Wypych more to show that
- Page 985 and 986:
958 George Wypych Table 14.16.1. Re
- Page 987 and 988:
960 George Wypych Table 14.17.1. Re
- Page 989 and 990:
962 George Wypych Table 14.18.2. Re
- Page 991 and 992:
964 Tilman Hahn, Konrad Botzenhart,
- Page 993 and 994:
966 Tilman Hahn, Konrad Botzenhart,
- Page 995 and 996:
968 Tilman Hahn, Konrad Botzenhart,
- Page 997 and 998:
970 David Randall 14.19.2.2 Water b
- Page 999 and 1000:
972 David Randall Hydrophobic subst
- Page 1001 and 1002:
974 David Randall 50-60% glutaric,
- Page 1003 and 1004:
976 George Wypych Figure 14.20.1. D
- Page 1005 and 1006:
978 Michel Bauer, Christine Barthé
- Page 1007 and 1008:
980 Michel Bauer, Christine Barthé
- Page 1009 and 1010:
982 Michel Bauer, Christine Barthé
- Page 1011 and 1012:
984 Michel Bauer, Christine Barthé
- Page 1013 and 1014:
986 Michel Bauer, Christine Barthé
- Page 1015 and 1016:
988 Michel Bauer, Christine Barthé
- Page 1017 and 1018:
990 Michel Bauer, Christine Barthé
- Page 1019 and 1020:
992 Michel Bauer, Christine Barthé
- Page 1021 and 1022:
994 Michel Bauer, Christine Barthé
- Page 1023 and 1024:
996 Michel Bauer, Christine Barthé
- Page 1025 and 1026:
998 An Li This discussion is intend
- Page 1027 and 1028:
1000 An Li Trade Name Cosolvent vol
- Page 1029 and 1030:
1002 An Li Figure 14.21.2.1. Effect
- Page 1031 and 1032:
1004 An Li partial derivative ∂(l
- Page 1033 and 1034:
1006 An Li Equation [14.21.2.8] can
- Page 1035 and 1036:
1008 An Li Figure 14.21.2.2a. Devia
- Page 1037 and 1038:
1010 An Li Figure 14.21.2.2c. Devia
- Page 1039 and 1040:
1012 An Li f 0.1 0.2 0.4 0.6 0.8 0.
- Page 1041 and 1042:
1014 An Li estimated from the log K
- Page 1043 and 1044:
1016 George Wypych 72 K. Brololm, a
- Page 1045 and 1046:
1018 George Wypych Figure 14.22.2.
- Page 1047 and 1048:
1020 George Wypych New technology i
- Page 1049 and 1050:
1022 George Wypych Table 14.23.1. R
- Page 1051 and 1052:
1024 George Wypych Table 14.24.2. R
- Page 1053 and 1054:
1026 Mohamed Serageldin, Dave Reeve
- Page 1055 and 1056:
1028 Mohamed Serageldin, Dave Reeve
- Page 1057 and 1058:
1030 Mohamed Serageldin, Dave Reeve
- Page 1059 and 1060:
1032 Mohamed Serageldin, Dave Reeve
- Page 1061 and 1062:
1034 Mohamed Serageldin, Dave Reeve
- Page 1063 and 1064:
1036 Mohamed Serageldin, Dave Reeve
- Page 1065 and 1066:
1038 Mohamed Serageldin, Dave Reeve
- Page 1067 and 1068:
1040 George Wypych Table 14.27.2. R
- Page 1069 and 1070:
1042 George Wypych Table 14.28.2. R
- Page 1071 and 1072:
1044 George Wypych Table 14.31.1. R
- Page 1073 and 1074:
1046 George Wypych Table 14.32.1. R
- Page 1075 and 1076:
1048 George Wypych Table 14.32.3. R
- Page 1077 and 1078:
1050 George Wypych Table 14.32.5. T
- Page 1079 and 1080:
1052 George Wypych The traditional
- Page 1081 and 1082:
1054 George Wypych The acidity of b
- Page 1083 and 1084:
1056 George Wypych except water whi
- Page 1085 and 1086:
1058 George Wypych solution is 2.73
- Page 1087 and 1088:
1060 George Wypych presence of igni
- Page 1089 and 1090:
1062 George Wypych method of determ
- Page 1091 and 1092:
1064 George Wypych used. A thermal
- Page 1093 and 1094:
1066 George Wypych 15.1.26 REFRACTI
- Page 1095 and 1096:
1068 George Wypych Table 15.1.1. Ty
- Page 1097 and 1098:
1070 George Wypych Wexcluded solven
- Page 1099 and 1100:
1072 George Wypych 25 ASTM D 2108-9
- Page 1101 and 1102:
1074 George Wypych 68 ASTM D 3844-9
- Page 1103 and 1104:
1076 George Wypych BS 506-2.84. Met
- Page 1105 and 1106:
1078 Myrto Petreas 15.2 SPECIAL MET
- Page 1107 and 1108:
1080 Myrto Petreas In short, biolog
- Page 1109 and 1110:
1082 Myrto Petreas cients of some i
- Page 1111 and 1112:
1084 Myrto Petreas lection at the a
- Page 1113 and 1114:
1086 Myrto Petreas and legal reperc
- Page 1115 and 1116:
1088 Myrto Petreas • The solvent
- Page 1117 and 1118:
1090 Myrto Petreas of time after ex
- Page 1119 and 1120:
1092 Myrto Petreas even after log-l
- Page 1121 and 1122:
1094 Myrto Petreas 26 M Petreas, J
- Page 1123 and 1124:
1096 James L. Botsford In Europe ma
- Page 1125 and 1126:
1098 James L. Botsford Figure 15.2.
- Page 1127 and 1128:
1100 James L. Botsford cussed. Neit
- Page 1129 and 1130:
1102 James L. Botsford n Ave. Var.
- Page 1131 and 1132:
1104 James L. Botsford (Calleja et
- Page 1133 and 1134:
1106 James L. Botsford Table 15.2.2
- Page 1135 and 1136:
1108 James L. Botsford the test is
- Page 1137 and 1138:
1110 James L. Botsford Table 15.2.2
- Page 1139 and 1140:
1112 James L. Botsford Geiger, D. L
- Page 1141 and 1142:
1114 Christine Barthélémy, Michel
- Page 1143 and 1144:
1116 Christine Barthélémy, Michel
- Page 1145 and 1146:
1118 Christine Barthélémy, Michel
- Page 1147 and 1148:
1120 Christine Barthélémy, Michel
- Page 1149 and 1150:
1122 Christine Barthélémy, Michel
- Page 1151 and 1152:
1124 Christine Barthélémy, Michel
- Page 1153 and 1154:
1126 George Wypych n-heptane molecu
- Page 1155 and 1156:
1128 George Wypych MEK P PA Fat-fre
- Page 1157 and 1158:
1130 Michel Bauer, Christine Barth
- Page 1159 and 1160:
1132 Michel Bauer, Christine Barth
- Page 1161 and 1162:
1134 Michel Bauer, Christine Barth
- Page 1163 and 1164:
1136 Michel Bauer, Christine Barth
- Page 1165 and 1166:
1138 Michel Bauer, Christine Barth
- Page 1167 and 1168:
1140 Michel Bauer, Christine Barth
- Page 1169 and 1170:
1142 Michel Bauer, Christine Barth
- Page 1171 and 1172:
1144 Michel Bauer, Christine Barth
- Page 1173 and 1174:
1146 Michel Bauer, Christine Barth
- Page 1175 and 1176:
17 Environmental Impact of Solvents
- Page 1177 and 1178:
17.1 The environmental fate and mov
- Page 1179 and 1180:
17.1 The environmental fate and mov
- Page 1181 and 1182:
17.1 The environmental fate and mov
- Page 1183 and 1184:
17.1 The environmental fate and mov
- Page 1185 and 1186:
17.1 The environmental fate and mov
- Page 1187 and 1188:
17.1 The environmental fate and mov
- Page 1189 and 1190:
17.2 Fate-based management 1163 dat
- Page 1191 and 1192:
17.2 Fate-based management 1165 bre
- Page 1193 and 1194:
17.2 Fate-based management 1167 gra
- Page 1195 and 1196:
17.3 Environmental fate of glycol e
- Page 1197 and 1198:
17.3 Environmental fate of glycol e
- Page 1199 and 1200:
17.3 Environmental fate of glycol e
- Page 1201 and 1202:
17.3 Environmental fate of glycol e
- Page 1203 and 1204:
17.3 Environmental fate of glycol e
- Page 1205 and 1206:
17.3 Environmental fate of glycol e
- Page 1207 and 1208:
17.3 Environmental fate of glycol e
- Page 1209 and 1210:
17.3 Environmental fate of glycol e
- Page 1211 and 1212:
17.3 Environmental fate of glycol e
- Page 1213 and 1214:
17.3 Environmental fate of glycol e
- Page 1215 and 1216:
17.4 Organic solvent impacts on tro
- Page 1217 and 1218:
17.4 Organic solvent impacts on tro
- Page 1219 and 1220:
17.4 Organic solvent impacts on tro
- Page 1221 and 1222:
17.4 Organic solvent impacts on tro
- Page 1223 and 1224:
17.4 Organic solvent impacts on tro
- Page 1225 and 1226:
17.4 Organic solvent impacts on tro
- Page 1227 and 1228:
18 Concentration of Solvents in Var
- Page 1229 and 1230:
18.1 Measurement and estimation of
- Page 1231 and 1232:
18.1 Measurement and estimation of
- Page 1233 and 1234:
18.1 Measurement and estimation of
- Page 1235 and 1236:
18.1 Measurement and estimation of
- Page 1237 and 1238:
18.1 Measurement and estimation of
- Page 1239 and 1240:
18.1 Measurement and estimation of
- Page 1241 and 1242:
18.1 Measurement and estimation of
- Page 1243 and 1244:
18.1 Measurement and estimation of
- Page 1245 and 1246:
18.1 Measurement and estimation of
- Page 1247 and 1248:
18.1 Measurement and estimation of
- Page 1249 and 1250:
18.1 Measurement and estimation of
- Page 1251 and 1252:
18.1 Measurement and estimation of
- Page 1253 and 1254:
18.2 Prediction of organic solvents
- Page 1255 and 1256:
18.2 Prediction of organic solvents
- Page 1257 and 1258:
18.2 Prediction of organic solvents
- Page 1259 and 1260:
18.2 Prediction of organic solvents
- Page 1261 and 1262:
18.3 Indoor air pollution by solven
- Page 1263 and 1264:
18.3 Indoor air pollution by solven
- Page 1265 and 1266:
18.3 Indoor air pollution by solven
- Page 1267 and 1268:
18.3 Indoor air pollution by solven
- Page 1269 and 1270:
18.3 Indoor air pollution by solven
- Page 1271 and 1272:
18.3 Indoor air pollution by solven
- Page 1273 and 1274:
18.3 Indoor air pollution by solven
- Page 1275 and 1276:
18.3 Indoor air pollution by solven
- Page 1277 and 1278:
18.4 Solvent uses with exposure ris
- Page 1279 and 1280:
18.4 Solvent uses with exposure ris
- Page 1281 and 1282:
18.4 Solvent uses with exposure ris
- Page 1283 and 1284:
18.4 Solvent uses with exposure ris
- Page 1285 and 1286:
18.4 Solvent uses with exposure ris
- Page 1287 and 1288:
18.4 Solvent uses with exposure ris
- Page 1289 and 1290:
18.4 Solvent uses with exposure ris
- Page 1291 and 1292:
18.4 Solvent uses with exposure ris
- Page 1293 and 1294:
1268 Carlos M. Nu�ez ter or habit
- Page 1295 and 1296:
1270 Carlos M. Nu�ez CAS No. Chem
- Page 1297 and 1298:
1272 Carlos M. Nu�ez CAS No. Chem
- Page 1299 and 1300:
1274 Carlos M. Nu�ez CAS No. Chem
- Page 1301 and 1302:
1276 Carlos M. Nu�ez CAS No. Chem
- Page 1303 and 1304:
1278 Carlos M. Nu�ez CAS No. Chem
- Page 1305 and 1306:
1280 Carlos M. Nu�ez CAS No. Chem
- Page 1307 and 1308:
1282 Carlos M. Nu�ez tronic circu
- Page 1309 and 1310:
1284 Carlos M. Nu�ez EPA Region 6
- Page 1311 and 1312:
1286 Carlos M. Nu�ez i.e., entire
- Page 1313 and 1314:
1288 Carlos M. Nu�ez Table 19.6.
- Page 1315 and 1316:
1290 Carlos M. Nu�ez Schedule Sou
- Page 1317 and 1318:
1292 Carlos M. Nu�ez The CAA prov
- Page 1319 and 1320:
1294 Carlos M. Nu�ez CWA to estab
- Page 1321 and 1322:
1296 Carlos M. Nu�ez amended to i
- Page 1323 and 1324:
1298 Carlos M. Nu�ez Figure 19.5.
- Page 1325 and 1326:
1300 Carlos M. Nu�ez environmenta
- Page 1327 and 1328:
1302 Carlos M. Nu�ez For comparis
- Page 1329 and 1330:
1304 Carlos M. Nu�ez tives. Four
- Page 1331 and 1332:
1306 Carlos M. Nu�ez • Program
- Page 1333 and 1334:
1308 Carlos M. Nu�ez 31 Federal R
- Page 1335 and 1336:
1310 Carlos M. Nu�ez HSWA Hazardo
- Page 1337 and 1338:
1312 Tilman Hahn, Konrad Botzenhart
- Page 1339 and 1340:
20 Toxic Effects of Solvent Exposur
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20.1 Toxicokinetics, toxicodynamics
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20.1 Toxicokinetics, toxicodynamics
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20.1 Toxicokinetics, toxicodynamics
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20.1 Toxicokinetics, toxicodynamics
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20.1 Toxicokinetics, toxicodynamics
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20.2 Cognitive and psychosocial out
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20.2 Cognitive and psychosocial out
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20.2 Cognitive and psychosocial out
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20.3 Pregnancy outcome following so
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20.3 Pregnancy outcome following so
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20.3 Pregnancy outcome following so
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20.3 Pregnancy outcome following so
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20.3 Pregnancy outcome following so
- Page 1367 and 1368:
20.3 Pregnancy outcome following so
- Page 1369 and 1370:
20.3 Pregnancy outcome following so
- Page 1371 and 1372:
20.3 Pregnancy outcome following so
- Page 1373 and 1374:
20.3 Pregnancy outcome following so
- Page 1375 and 1376:
20.3 Pregnancy outcome following so
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20.3 Pregnancy outcome following so
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20.4 Industrial solvents and kidney
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20.4 Industrial solvents and kidney
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20.4 Industrial solvents and kidney
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20.4 Industrial solvents and kidney
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20.5 Lymphohematopoietic study of w
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20.5 Lymphohematopoietic study of w
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20.5 Lymphohematopoietic study of w
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20.5 Lymphohematopoietic study of w
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20.5 Lymphohematopoietic study of w
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20.5 Lymphohematopoietic study of w
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20.6 Chromosomal aberrations 1375 2
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20.6 Chromosomal aberrations 1377 p
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20.7 Hepatotoxicity 1379 8 Mitelman
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20.7 Hepatotoxicity 1381 to convert
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20.7 Hepatotoxicity 1383 Table 20.7
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20.7 Hepatotoxicity 1385 toxicity o
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20.7 Hepatotoxicity 1387 early pote
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20.7 Hepatotoxicity 1389 vents. It
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20.7 Hepatotoxicity 1391 19 Slater
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20.8 Solvents and the liver 1393 20
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20.8 Solvents and the liver 1395 Cu
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20.8 Solvents and the liver 1397 th
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20.8 Solvents and the liver 1399 cu
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20.8 Solvents and the liver 1401 20
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20.8 Solvents and the liver 1403 65
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20.9 Toxicity of environmental solv
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20.9 Toxicity of environmental solv
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20.9 Toxicity of environmental solv
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20.9 Toxicity of environmental solv
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20.9 Toxicity of environmental solv
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20.9 Toxicity of environmental solv
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20.9 Toxicity of environmental solv
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21 Substitution of Solvents by Safe
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21.1 Supercritical solvents 1421 So
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21.1 Supercritical solvents 1423 Fi
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21.1 Supercritical solvents 1425 Fi
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21.1 Supercritical solvents 1427 Fi
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21.1 Supercritical solvents 1429 K
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21.1 Supercritical solvents 1431 ai
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21.1 Supercritical solvents 1433 Th
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21.1 Supercritical solvents 1435 wh
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21.1 Supercritical solvents 1437 *
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21.1 Supercritical solvents 1439 In
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21.1 Supercritical solvents 1441 21
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21.1 Supercritical solvents 1443 Ta
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21.1 Supercritical solvents 1445 Re
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21.1 Supercritical solvents 1447 Re
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21.1 Supercritical solvents 1449 ta
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21.1 Supercritical solvents 1451 21
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21.1 Supercritical solvents 1453 Fi
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21.1 Supercritical solvents 1455 Fi
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21.1 Supercritical solvents 1457 13
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21.2 Ionic liquids 1459 85 M. Polia
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21.2 Ionic liquids 1461 be used. Th
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21.2 Ionic liquids 1463 Figure 21.2
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21.2 Ionic liquids 1465 Table 21.2.
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21.2 Ionic liquids 1467 been utiliz
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21.2 Ionic liquids 1469 One specifi
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21.2 Ionic liquids 1471 lustrates t
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21.2 Ionic liquids 1473 these alloy
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21.2 Ionic liquids 1475 ( ) ln = K
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21.2 Ionic liquids 1477 According t
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21.2 Ionic liquids 1479 Acidic melt
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21.2 Ionic liquids 1481 21 C.L. Hus
- Page 1507 and 1508:
21.2 Ionic liquids 1483 110 G.P. Li
- Page 1509 and 1510:
21.3 Oxide solubilities in ionic me
- Page 1511 and 1512:
21.3 Oxide solubilities in ionic me
- Page 1513 and 1514:
21.3 Oxide solubilities in ionic me
- Page 1515 and 1516:
21.3 Oxide solubilities in ionic me
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21.3 Oxide solubilities in ionic me
- Page 1519 and 1520:
21.3 Oxide solubilities in ionic me
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21.4 Alternative cleaning technolog
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21.4 Alternative cleaning technolog
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21.4 Alternative cleaning technolog
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21.4 Alternative cleaning technolog
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21.4 Alternative cleaning technolog
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1508 Klaus-Dirk Henning Application
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1510 Klaus-Dirk Henning 22.1.2.2 Ad
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1512 Klaus-Dirk Henning point the a
- Page 1537 and 1538:
1514 Klaus-Dirk Henning Figure 22.1
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1516 Klaus-Dirk Henning Figure 22.1
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1518 Klaus-Dirk Henning Table 22.1.
- Page 1543 and 1544:
1520 Klaus-Dirk Henning Figure 22.1
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1522 Klaus-Dirk Henning Regeneratio
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1524 Klaus-Dirk Henning • activit
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1526 Klaus-Dirk Henning adsorption
- Page 1551 and 1552:
1528 Klaus-Dirk Henning Figure 22.1
- Page 1553 and 1554:
1530 Klaus-Dirk Henning Figure 22.1
- Page 1555 and 1556:
1532 Klaus-Dirk Henning Figure 22.1
- Page 1557 and 1558:
1534 Klaus-Dirk Henning vent conden
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1536 Klaus-Dirk Henning Figure 22.1
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1538 Klaus-Dirk Henning Figure 22.1
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1540 Klaus-Dirk Henning Figure 22.1
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1542 Klaus-Dirk Henning 12 H. Krill
- Page 1567 and 1568:
1544 Isao Kimura Table 22.2.1. Appl
- Page 1569 and 1570:
1546 Isao Kimura Table 22.2.2. Typi
- Page 1571 and 1572:
1548 Isao Kimura 22.2.4 SOLVENT REC
- Page 1573 and 1574:
1550 Isao Kimura Figure 22.2.9. Flo
- Page 1575 and 1576:
1552 Isao Kimura • Difficult in d
- Page 1577 and 1578:
1554 Isao Kimura Figure 22.2.12. Fl
- Page 1579 and 1580:
1556 Denis Kargol Figure 22.3.1. So
- Page 1581 and 1582:
1558 Denis Kargol Figure 22.3.4. AS
- Page 1583 and 1584:
1560 K. A. Magrini, et al. and Olli
- Page 1585 and 1586:
1562 K. A. Magrini, et al. ysis of
- Page 1587 and 1588:
1564 K. A. Magrini, et al. Figure 2
- Page 1589 and 1590:
1566 K. A. Magrini, et al. On the l
- Page 1591 and 1592:
1568 K. A. Magrini, et al. ating te
- Page 1593 and 1594:
1570 K. A. Magrini, et al. Cummings
- Page 1595 and 1596:
1572 Hanadi S. Rifai, Charles J. Ne
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1574 Hanadi S. Rifai, Charles J. Ne
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1576 Hanadi S. Rifai, Charles J. Ne
- Page 1601 and 1602:
1578 Hanadi S. Rifai, Charles J. Ne
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1580 Hanadi S. Rifai, Charles J. Ne
- Page 1605 and 1606:
1582 Hanadi S. Rifai, Charles J. Ne
- Page 1607 and 1608:
1584 Hanadi S. Rifai, Charles J. Ne
- Page 1609 and 1610:
1586 Hanadi S. Rifai, Charles J. Ne
- Page 1611 and 1612:
1588 Hanadi S. Rifai, Charles J. Ne
- Page 1613 and 1614:
1590 Hanadi S. Rifai, Charles J. Ne
- Page 1615 and 1616:
1592 Hanadi S. Rifai, Charles J. Ne
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1594 Hanadi S. Rifai, Charles J. Ne
- Page 1619 and 1620:
1596 Hanadi S. Rifai, Charles J. Ne
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1598 Hanadi S. Rifai, Charles J. Ne
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1600 Hanadi S. Rifai, Charles J. Ne
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1602 Hanadi S. Rifai, Charles J. Ne
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1604 Hanadi S. Rifai, Charles J. Ne
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1606 Hanadi S. Rifai, Charles J. Ne
- Page 1631 and 1632:
1608 Hanadi S. Rifai, Charles J. Ne
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1610 Hanadi S. Rifai, Charles J. Ne
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1612 Hanadi S. Rifai, Charles J. Ne
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1614 Hanadi S. Rifai, Charles J. Ne
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1616 Hanadi S. Rifai, Charles J. Ne
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1618 Barry J. Spargo, James G. Muel
- Page 1643 and 1644:
1620 Barry J. Spargo, James G. Muel
- Page 1645 and 1646:
1622 Barry J. Spargo, James G. Muel
- Page 1647 and 1648:
1624 Barry J. Spargo, James G. Muel
- Page 1649 and 1650:
1626 Barry J. Spargo, James G. Muel
- Page 1651 and 1652:
1628 Barry J. Spargo, James G. Muel
- Page 1653 and 1654:
1630 Barry J. Spargo, James G. Muel
- Page 1655 and 1656:
1632 George Wypych number of 1 or e
- Page 1657 and 1658:
1634 George Wypych In addition to t
- Page 1659 and 1660:
1636 George Wypych d diameter of gr
- Page 1661 and 1662:
1638 George Wypych wax-containing c
- Page 1663 and 1664:
1640 George Wypych product of inven
- Page 1665 and 1666:
1642 George Wypych selection of sol
- Page 1667 and 1668:
1644 George Wypych fining processes
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1646 George Wypych requires several
- Page 1671 and 1672:
1648 George Wypych crease color str
- Page 1673 and 1674:
1650 George Wypych tion. The patent
- Page 1675 and 1676:
1652 George Wypych 75 M Solinas, T
- Page 1677 and 1678:
1658 Index anhydrous form 282 anili
- Page 1679 and 1680:
1660 Index 1-chlorooctane 826 chlor
- Page 1681 and 1682:
1662 Index term 750 dipole moment 1
- Page 1683 and 1684:
1664 Index Friedel-Crafts alkylatio
- Page 1685 and 1686:
1666 Index method 245 laser 689 lat
- Page 1687 and 1688:
1668 Index O octane 127,185 1-octan
- Page 1689 and 1690:
1670 Index Prandtl number 392 Praus
- Page 1691 and 1692:
1672 Index function 137 preferentia
- Page 1693 and 1694:
1674 Index change 350 time scale 33
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