Arrhenius S (1889) U ̈ber die Reaktionsgeschwindigkeit bei der Inversion von Rohrzucker durch
Sa ̈uren. Z Phys Chem (Leipzig) 4:226–248
Boehmer R, Ngai KL, Angell CA, Plazek DJ (1993) Non-exponential relaxations in strong and
fragile glass formers. J Chem Phys 99:4201–4209
Boltzmann L (1874) Zur Theorie des elastischen Nachwirkung. Sitzungsber Kaiserlich Akad Wiss
(Wien) Math Naturwiss Classe 70(II):275–306, Ann Phys Chem 7: 624–654 (1876)
Boyer RF (1979) Contributions of torsional braid analysis to "Tll". Polym Eng Sci 19:732–748
Boyer RF (1980) Dynamics and thermodynamics of the liquid state g (T>Tg) of amorphous
polymers. J Macromol Sci, Phys B18:461–553
Boyer RF (1981) T 11 of anionic polystyrenes from zero-shear melt viscosity. Eur Polym
J 17:661–673
Bucknall C, Smith R (1965) Stress whitening in high-impact polystyrene. Polymer 6:437–446
Burgers JM (1935) Mechanical considerations, model systems, phenomenological theories of
relaxation and of viscosity. In: Burgers JM (ed) First report on viscosity and plasticity.
Nordemann Publishing Company, New York
Conside`re AG (1885) Memoire sur l’Emploi du Fer et de l’Acier dans les Constructions. Annales
des Ponts et Chausses 6(9):574–775
Cox WP, Merz EH (1958) Correlation of dynamic and steady flow viscosities. J Polym Sci
28:619–622
Debye P (1913) Zur Theorie der anomalen Dispersion im Gebiete der langwelligen elektrischen
Strahlung. Berichte der Deutschen physikalischen Gesellschaft 15:777–793
DiMarzio EA, Yang AJM (1997) Configurational entropy approach to the kinetics of glasses. J Res
NIST 102:135–157
Doolittle AK (1951) The dependence of the viscosity of liquids on free space. J Appl Phys
22:1471–1475
Ediger MD (2000) Spatially heterogeneous dynamics in supercooled liquids. Annu Rev Phys
Chem 51:99–128
Ferry JD (1950) Mechanical properties of substances of high molecular weight. VI Dispersion in
concentrated polymer solutions and its dependence on temperature and concentration. J Am
Chem Soc 72:3746–3752
Fetters LJ, Lohse DJ, Graessley WW (1999) Chain dimension and entanglement spacings in dense
macromolecular systems. J Polym Sci, Polym Phys Ed 37:1023–1033
Fischer EW, Bakai A, Patkowski AW, Steffen W, Reinhardt L (2002) Heterophase fluctuations in
supercooled liquids and polymers. J Non-Cryst Solids 307–310:584–601
Flory PJ (1956) Statistical thermodynamics of semi-flexible chain molecules. Proc R Soc London
A234:60–73
Flory PJ, Fox TG (1951) Treatment of intrinsic viscosities. Intrinsic viscosity relationships for
polystyrene. J Am Chem Soc 73:1904–1908, 1915–1920
Fox TG (1956) Influence of diluent and copolymer composition on the glass temperature of a
polymer system. Bull Am Phys Soc 1:123–125
Fox TG, Flory PJ (1950) Second-order transition temperatures and related properties of poly-
styrene. 1. Influence of molecular weight. J Appl Phys 21:581–591
Fox TG, Loshaek S (1955) Influence of molecular weight and degree of crosslinking on the
specific volume and glass temperature of polymers. J Polym Sci 15:371–390
Fulcher GS (1925) Analysis of recent measurements of viscosity of glasses. J Am Ceram Soc
8:339–355
Gibbs JH (1956) The nature of the glass transition. J Chem Phys 25:185–186
Gibbs JH, DiMarzio EA (1958) Nature of the glass transition and the glassy state. J Chem Phys
28:373–383
Goldstein M (1969) Viscous liquids and the glass transition: a potential energy barrier picture.
J Chem Phys 51:3728–3739
Gordon M, Taylor J (1952) Ideal copolymers and the second-order transitions of synthetic rubbers.
I. Non-crystalline polymers. J Appl Chem 2:493–500
Go ̈tze W (2009) Complex dynamics of glass forming liquids: a mode-coupling theory. Oxford
University Press, Oxford
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