Processes of Fiber Formation by Z.K. Walczak

By Z.K. Walczak

This publication provides the cutting-edge in fiber formation rules, together with many unique and an important but released advancements by means of the writer. the cloth is gifted from the theoretical part with the facts of contract with scan; with a number of exceptions, uncorroborated theories are passed over.

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A 1 9 3 (1944), 196. 24. K. Hess, H. Mahl, and E. ,155 ( 1 9 5 7 ) , 1. 25. E. W. , 12a ( 1 9 5 7 ) , 753. 26. P. H. Till, J . , 24 (1957), 301. 27. A. Keller, Phil. , 2 ( 1 9 5 7 ) , 1171. 28. P. H. , New York, 1963. 29. Z. K. Walczak, unpublished results, 1969. 30. P. Dreyfuss and A. Keller, J . , 11 (1973), 193. 31. P. Dreyfuss, J . , 11 (1973), 201. 32. J. D. Hoffman and J. J. Weeks, J . Chem. , 37 (1962), 1723. 33. J. J. Weeks, J . Res. Nat. Bur. , A67 ( 1 9 6 3 ) ,441. 34. J. Dlugosz, G.

While the contribution of the mole fraction is called the ideal component, the contribution resulting from the coefficient of activity is called the excess function: According to the magnitude and sign of the excess function the solutions may be classified into four types: ideal, athermal, regular, and real (irregular). If a solution is ideal then the contribution to Gibbs' energy results from the ideal entropy of mixing, the enthalpy is zero. In athermal solutions the enthalpy of mixing is equal zero but the entropy of mixing is different than the ideal.

D. Dumbleton, J. , Pt. A-2, 7 (1969), 17. F. , Makromol. , 110 (1967), 268. G. Meinel and A. Peterlin, J . , Polymer Letters, 5 (1967), 613. A. T. Jones, J. M. Aizlewood, and D. R. Beckett, Makromol. , 75 (1964), 134. H. Awaya, Nippon Kagaku Zasshi, 83 (1962), 865; cit. in C. , 58 (1963), 14120~. D. M. Sadler and A. Keller, Macromolecules, 10 (1977), 1128. E. W. Fischer, cit. in ref. 130. M. Avrami J . Chem. , 7 (1939), 1103; 8 (1940), 212. R.. B. Williamson: The Solidification of Polymers, Massachusetts Institgute of Technology, Res.

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