Caber® Journal Publications

Selected CABER® Journal Publications

• Rodd, L.E.; Scott, T.P.; Cooper-White, J.J.; McKinley, G.H., “Capillary breakup rheometery of low viscosity elastic fluids,” Appl. Rheol., 15(2005), 12-27.
• McKinley, G.H. and A. Tripathi, “How to extract the Newtonian viscosity from capillary breakup measurements in a filament rheometer,” Journal of Rheology, 2000. 44(3): p. 653-670.
• Anna, S.L. and G.H. McKinley, “Elasto-capillary thinning and breakup of model elastic liquids,” Journal of Rheology, 45: p. 115-138 (2001).
• Braithwaite, G.J.C. and S.H. Spiegelberg. “Capillary Breakup to Determine the Extensional Properties of Polymeric Fluids,” in American Chemical Society North Eastern Regional Meeting. 2001. Durham, NH.
• Willenbacher, N, “Industrial applications of capillary breakup elongational rheometry (Haake CaBER™), Eur. Rheology Meeting, 2002. Erlangen.
• Neal, G. and G. Braithwaite. “The use of Capillary Breakup Extensional Rheology to examine concentration dependence of relaxation time,” in Society of Rheology Annual Meeting. 2003. Pittsburgh, PA.
• Willenbacher, N, “Elongational viscosity of aqueous acrylic thickener solutions from capillary break-up elongation rheometry (CaBER)”, Rheofuture, 2004. Karlsruhe, Germany.
• Plog, J.P., Kulicke, W.-M., Clasen, C. “Influence of the molar mass distribution on the elongational behaviour of polymer solutions in capillary breakup,” Appl. Rheology, vol 15, 28-37, (2005).
• Kheirandish, S., Guybaidullin, Il, Wohlleben, W., Willenbacher, N. “Shear and elongational flow behavior of acrylic thickener solutions. Part I: Effect of intermolecular aggregation. Rheol Acta, (2008).
• Kityk, A.V., Wagner, C. “Delay of disorder by diluted polymers,” Europhys. Lett., vol 75 (3), p. 441 (2006).
• Willenbacher, N., Matter, Y., Gubaydullin, I., Schaedler, V., “Effect of aggregation on shear and elongational flow properties of acrylic thickeners,” Korea-Australia Rheology Journal, vol 20, pp 109-116 (2008)
• K. Niedzwiedz,O. Arnolds, N. Willenbacher, R. Brummer, “How to Characterize Yield Stress Fluids with Capillary Breakup Extensional Rheometry (CaBER)?”, Applied Rheology, vol 19, (2009).
• Rothstein, J.P., Miller, E., Moldenaers, P., Clasen, C., “The Effect of StepStretch Parameters on Capillary Breakup Extensional Rheology (CaBER) Measurements,” AIP Conf. Proc. 1027, pp. 1117-1119 (2008)
• Zell, A., Gier, S., Rafai, S., Wagner, C., “Is there a Relationship between the Elongational Viscosity and the First Normal Stress Difference in Polymer Solutions?” J. Non-Newtonian Fluid Mechanics, p 1-22 (2009)
• M.I. Smith, R. Besseling, M.E. Cates, V. Bertola “Dilatancy in the flow and fracture of stretched colloidal suspensions,” Nature Comm, 1, 114 (2010)
• Arnolds, O., Buggisch, H., Sachsenheimer, D., Willenbacher, N. “Capillary breakup extensional rheometry (CaBER) on semi-dilute and concentrated polyethylene oxide (PEO) solutions,” Rheologica Acta, vol 49, pp 1207-1217 (2010)
• Clasen, C. “Capillary breakup extensional rheometry of semi-dilute polymer solutions”,Korea-Australia Rheology Journal, Vol 22, pp. 331-338 (2010)
• Bhattacharjee, P.K., McDonnell, A.G., Prabhakar, R., Yeo, L.Y., Friend, J. “Extensional flow of low-viscosity fluids in capillary bridges formed by pulsed surface acoustic wave jetting,” New Journal of Physics, vol 13 (2011)
• A.S. Lubansky,R. Brad,P.R. Williams, D. Deganello,T.C. Claypole, “Measuring maximum tensile strength of liquids at low stressing rates,” J. Non-Newtonian Fluid Mech., vol 166, p 896-899 (2011).
• F.J. Galindo-Rosales, M.A. Alves, M.S.N. Oliveira, “Microdevices for extensional rheometry of low viscosity elastic liquids: a review,” Microfluid Nanofluid (2012)