Physical gelation under shear for gelatin gels
Author:
Publisher
Springer Science and Business Media LLC
Subject
Condensed Matter Physics,General Materials Science
Link
http://link.springer.com/content/pdf/10.1007/BF00367355.pdf
Reference33 articles.
1. Berret JF, Roux DC, Porte G (1994) Isotropic to nematic transition in wormlike micelles under shear. J Phys II France 4:1261
2. Beysens D, Gbadamassi M, Moncef-Bouanz B (1983) New developments in the study of binary fluids under shear flow. Phys Rev A 28:2491
3. Bourgoin D, Joly M (1952) La, transformation sol-gel de la gelatine. Étude par la biréfringence d'écoulement. J Chim Phys 49:427; (1954) Nouvelles recherches sur les mécanismes de gélification. I Résultats expérimentaux, Kolloid Z 136:25; (1956) Nouvelles recherches sur les mécanismes de gélification. II Interprétation des résultats expérimentaux. Kolloid-Z 146:121; (1958) Nouvelles recherches sur les mécanismes de gélification. III Phénomènes de prégélification dans les solutions da gélatine. Verh Kolloid Ges 18:36
4. Cappelaere E, Cressely R, Makhloufi R, Decruppe JP (1994) Temperature and flow induced viscosity transition for CTAB surfactant solutions. Rheol Acta 33:43l
5. Chan CK, Perrot F, Beysens D (1991) Experimental study and model simulation of spinodal decomposition in a binary mixture under shear. Phys Rev A 43:1826
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