References
- Princen, H. M.; Kiss, A. D. Rheology of Foams and Highly Concentrated Suspensions: III. Static Shear Modules. J. Colloid. Interf. Sci. 1986, 112, 427–437.
- Capron, I.; Costeau, S.; Djabourov, M. Water in Water Emulsions: Phase Separation and Rheology of Biopolymer Solutions. Rheol. Acta. 2001, 40, 441–456.
- Pal, R. Techniques for Measuring the Composition (Oil and Water Content) of Emulsions:A State of the Art Review. Colloids Surf. A 1994, 84, 141–193.
- Phan-Thien, N.; Pham, D. C. Differential Multiphase Models for Polydispersed Spheroidal Inclusions: Thermal Conductivity and Ective Viscosity. Int. J. Eng. Sci. 2000, 38, 73–88.
- Princen, H. M. Rheology of Foams and Highly Concentrated Suspensions: I. Elastic Properties and Yield Stress of a Cylindrical Model System. J. Colloid. Interf. Sci. 1983, 91, 160–175.
- Princen, H. M. Rheology of Foams and Highly Concentrated Suspensions: II. Experimental Study of the Yield Stress and Wall Effects for Concentrated Oil-in-Water Emulsions. J. Colloid. Interf. Sci. 1985, 105, 150–171.
- Pal, R. Novel Shear Modulus Equation for Concentrated Emulsions of Two Immisible Elastic Liquids with Interfacial Tension. J. Non-Newtonian. Fluid. Mech. 2002, 105, 21–33.
- Zhang, K. M.; Ni, O. Q. Rheological Properties and Stability of Emulsion Explosive Matrix. J. Disper. Sci. Technol. 2015, 36, 932–937.
- Zhang, K. M.; Ni, O. Q. Effect of PIBSA-Based Surfactants on the Interfacial Interaction, Rheology and Stability of Highly Concentrated Water-in-Oil Emulsion. J. Disper. Sci. Technol. 2015, 36, 555–562.
- Zhang, K. M.; Zhao, H. R.; Ni, O. Q.; Ren, X. M. Storage Modulus’ Variation in Aging and its Application in Assessing the Stability of Emulsion Explosive matrix. J. Disper. Sci. Technol. 2017, 38, 1517–1522.
- Capron, I.; Costeau, S.; Djabourov, M. Water in Water Emulsions: Phase Separation and Rheology of Biopolymer Solutions. Rheol. Acta. 2001, 40, 441–456.
- Pal, R. Novel Viscosity Equations for Emulsions of Two Immiscible Liquids. J. Rheol. 2001, 45, 509–520.
- Zhang, K. M.; Ni, O. Q. Rheological Properties and Stability of Highly Concentrated Water-in-Oil Emulsions with Different Emulsifiers. J. Disper. Sci. Technol. 2015, 36, 549–555.
- Be′cu, L.; Grondin, P. How Does a Concentrated Emulsion Flow? Yielding, Local Rheology, and Wall Slip. Colloids Surf. A Physicochem. Eng. Aspects. 2004, 263, 146–152.
- Masalova, I.; Malkin, A. Y. Flow of Super-concentrated Emulsions. Proc. 2nd International Conference on Flow Dynamics, Sendai, Japan, 11, 16–18, 2005.
- Masalova, I.; Malkin, A. Y.; Slatter, P.; Wilson, K. The Rheological Characterization and Pipeline Flow of High Concentration Water-in-Oil Emulsions. J. Non-Newtonian Fluid Mech. 2003, 112, 101–114.
- Masalova, I.; Malkin, A. Y. Peculiarities of Rheological Properties and Flow of Highly Concentrated Emulsions: The Role of Concentration and Droplet Size. Colloid. J. 2007, 69, 185–197.
- Wang, L. Q.; Fang, J. Rheological Properties and Water-in-Oil Structural Stability of Emulsion Matrixes. Cent. Eur. J. Energ. Mat. 2013, 10, 87–102.
- Mudeme, S.; Masalova, I. Haldenwang, R. Kinetics of Emulsification and Rheological Properties of Highly Concentrated Explosive Emulsions. Chem. Eng. Process. 2010, 49, 468–475.
- Masalova, I.; Foudazi, R.; Malkin, A. Y. The Rheology of Highly Concentrated Emulsions Stabilized with Different Surfactants. Colloids Surf. A: Physicochem. Eng. Aspects. 2011, 375, 76–86.