المؤلفون: Barrera Cárdenas, Helver Mauricio, Formigoni, Paulo O., Buiochi, Flávio, Franco Guzmán, Ediguer Enrique

المصدر: https://www.sciencedirect.com/science/article/pii/S0041624X21001669Test.

مصطلحات موضوعية: Viscosidad, Física, Shear waves, Viscosity, Acoustic retroreflector, Reflection coefficient

وصف الملف: 6 páginas; application/pdf

العلاقة: 117; Franco, E. E., Barrera, H.M., Formigoni, P. O., Buiochi, F. (2021). Shear-wave cornerretroreflector device for ultrasonic measurement of viscosity. Ultrasonics. Revista Elsevier. Vol. 117, pp.1-6. https://www.sciencedirect.com/science/article/pii/S0041624X21001669Test; Ultrasonics; https://hdl.handle.net/10614/13864Test; Universidad Autónoma de Occidente; Repositorio Educativo Digital; https://red.uao.edu.coTest/

الإتاحة: https://doi.org/10.1016/S0377-0257Test(97)00119-5,
https://hdl.handle.net/10614/13864Test
https://red.uao.edu.coTest/

المؤلفون: Franco Guzmán, Ediguer Enrique, Buiochi, Flávio

المصدر: https://www.sciencedirect.com/science/article/pii/S0041624X17308016?via%3DihubTest.

مصطلحات موضوعية: Dinámica de fluidos, Hidrodinámica, Fluid dynamics, Hydrodynamics, Viscosity, Ultrasound, Shear waves

الوقت: Universidad Autónoma de Occidente. Calle 25 115-85. Km 2 vía Cali-Jamundí

وصف الملف: application/pdf; 7 páginas

العلاقة: R. Kažys, R. Rekuvienė. Viscosity and density measurement methods for polymer melts Ultragarsas (Ultrasound), 66 (4) (2011), pp. 20-25; W.P. Mason, W.O. Baker, J.M. McSkimin, J.H. Heiss Measurement of shear elasticity and viscosity of liquids at ultrasonic frequencies Phys. Rev., 75 (6) (1949), pp. 936-946; R. Saggin, J.N. Coupland. Oil viscosity measurement by ultrasonic reflectance J. Am. Oil. Chem. Soc., 78 (5) (2001), pp. 509-511; E.E. Franco, J.C. Adamowski, R.T. Higuti, F. Buiochi. Viscosity measurement of newtonian liquids using the complex reflection coefficient IEEE Trans. Ultrason. Ferroelectr. Freq. Control, 55 (10) (2008), pp. 2247-2253; F. Cohen-Tenoudji, W.J. Pardee, B.R. Tittmann, L. Ahlberg, R.K. Elsley A shear wave rheology sensor. IEEE Trans. Ultrason. Ferroelect. Freq. Control UFFC, 34 (2) (1987), pp. 263-269; E.E. Franco, J.C. Adamowski, F. Buiochi. Ultrasonic sensor for the presence of oily contaminants in water Dyna, 79 (176) (2012), pp. 4-9; M.M. Schirru, M. Sutton, R. Dwyer-Joyce, O. Smith, R. Mills, Development of a novel ultrasonic viscometer for real time and in-situ applications in engines, in: SAE Technical Paper, SAE International, 2015. https://doi.org/10.4271/2015-01-0679Test; V. Shah, K. Balasubramaniam Effect of viscosity on ultrasound wave reflection from a solid/liquid interface Ultrasonics, 34 (1996), pp. 817-824; E.E. Franco, J.C. Adamowski, F. Buiochi. Ultrasonic viscosity measurement using the shear-wave reflection coefficient with a novel signal processing technique. IEEE Trans. Ultrason. Ferroelect. nd Freq. Control, 57 (5) (2010), pp. 1133-1139; F. Buiochi, E.E. Franco, R.T. Higuti, J.C. Adamowski Viscosity measuring cell using ultrasonic wave mode conversion Ferroelectrics, 333 (1) (2006), pp. 139-149; V.V. Shah, K. Balasubramaniam. Measuring newtonian viscosity from the phase of reflected ultrasonic shear wave Ultrasonics, 38 (9) (2000), pp. 921-927; R. Saggin, J.N. Coupland. Rheology of xanthan/sucrose mixtures at ultrasonic frequencies J. Food Eng., 65 (1) (2004), pp. 49-53; F. Buiochi, J.C. Adamowski, C.M. Furukawa, Measurement of viscosity using wave mode conversion, in: Transactions of the 1998 IEEE Ultrasonic Symposium, vol. 2, Sendai, Japan, 1998, pp. 1193–1196; I. Alig, D. Lellinger, J. Sulimma, S. Tadjbakhsch. Ultrasonic shear wave reflection method for measurements of the viscoelastic properties of polymer films Rev. Sci. Instrum., 68 (3) (1997), pp. 1536-1542; M.S. Greenwood, J.A. Bamberger. Measurement of viscosity and shear wave velocity of liquid or slurry for on-line process control Ultrasonics, 39 (9) (2002), pp. 623-630; A. Kulmyrzaev, D.J. McClements. High frequency dynamic shear rheology of honey J. Food Eng., 45 (4) (2000), pp. 219-224; X. Wang, K.V. Subramaniam, F. Lin. Ultrasonic measurement of viscoelastic shear modulus development in hydrating cement paste Ultrasonics, 50 (2010), pp. 726-738; S.H. Sheen, H.T. Chien, A.C. Raptis An in-line ultrasonic viscometer Rev. Progress Quant. Nondestruct. Eval., 14 (1995), pp. 1151-1158; R.T. Higuti, J.C. Adamowski Ultrasonic densitometer using a multiple reflection technique IEEE Trans. Ultrason. Ferroelect. Freq. Control, 49 (9) (2002), pp. 1260-1268; J.A. Barlow, J. Lamb. The visco-elastic behaviour of lubricating oils under cyclic shearing stress Proc. Roy. Soc. London. Series A, Mathe. Phys. Sci., 253 (1272) (1959), pp. 52-69; http://hdl.handle.net/10614/11525Test

الإتاحة: https://doi.org/10.4271/2015-01-0679Test
http://hdl.handle.net/10614/11525Test

المؤلفون: Franco Guzmán, Ediguer Enrique, Adamowski, Julio C, Buiochi, Flávio

مصطلحات موضوعية: Ondas ultrasónicas, Contaminación del agua, Ultrasonic waves, Water - Pollution, Ultrasonido, Ondas transversales, Emulsión agua-aceite, Contaminante oleoso, Ultrasound, Shear waves, Water-oil emulsion, Oily contaminant

الوقت: Universidad Autónoma de Occidente. Calle 25 115-85. Km 2 vía Cali-Jamundí

وصف الملف: application/pdf; 6 páginas

العلاقة: Dyna. Volumen 79 número 176, (November/December, 2012); páginas 4-9; 176; 79; Franco Guzmán, E. E; Adamowski, J. C; Buiochi, F. (November/December, 2012). Ultrasonic sensor for the presence of oily contaminants in water. Dyna. 79 (176) , 4-9. http://red.uao.edu.co//handle/10614/11860Test; Dyna; Mason, W. P., Baker, W. O., Mcskimin, J. M. and Heiss, J. H., Measurement of shear elasticity and viscosity of liquids at ultrasonic frequencies, Physical Review, 75 (6), pp. 936-946, 1949; Franco, E. E., Adamowski, J. C., Higuti, R. T. and Buiochi, F., Viscosity measurement of newtonian liquids using the complex reflection coefficient, IEEE Transaction on Ultrasonics, Ferroelectrics and Frequency Control 55 (10), pp. 2247-2253, 2008.; Dixon, S. and Lanyon, B., Phase change measurement of ultrasonic shear waves on reflection from a curing epoxy system, Journal of Physics D: Applied Physics, 38 (22), pp. 4115-4125, 2005.; Franco, E. E., Adamowski, J. C. and Buiochi, F., Ultrasonic viscosity measurement using the shear-wave reflection coefficient with a novel signal processing technique, IEEE Transaction on Ultrasonics, Ferroelectrics and Frequency Control, 57 (5), pp. 1133-1139, 2010.; Saggin, R. and Coupland, J. N., Oil viscosity measurement by ultrasonic reflectance, Journal of the American Oil Chemists' Society, 78 (5), pp. 509-511, 2001.; Rommetveit, T., Johansen, T. F. and Jhonsen, R., Using a multi-layered transducer model to estimate the properties of paraffin wax deposited on steel, Ultrasonics, 51 (1), pp. 85-93, 2011.; Gasparoux, J, Laux, D., Ferrandis, J. Y., Attal, J. and Tordjeman, P., Large frequency bands viscoelastic properties of honey, Journal of Non-Newtonian Fluid Mechanics, 153 (1), pp. 46-52, 2008.; Cohen-Tenoudji, F., Pardee, W. J., Tittmann, B. R., Ahlberg, L. and Elsley, R. K., A shear wave rheology sensor, IEEE Transaction on Ultrasonics, Ferroelectrics and Frequency Control, UFFC-34 (2), pp. 263-269, 1987.; Sun, Z., Voigt, T. and Shah, S. P., Rheometric and ultrasonic investigations of viscoelastic properties of fresh portland cement pastes, Cement and Concrete Research, 36 (2), pp. 278-287, 2006.; Balasubramaniam, K., Shah, V., Costley, R. D., Bourdreaux, G. and Singh, J. P., High temperature ultrasonic sensor for the simultaneous measurement of viscosity and temperature of melts, Review of Scientific Instruments, 70 (12), 4618-4623, 1999.; Jakoby, B. and Villekoop, M. J., Physical sensor for water-in-oil emulsions, Sensors and Actuators A, 110, pp. 28-32, 2004.; Jacoby, B., Beigelbeck, R., Keplinger, F., Lucklum, F., Niedermayer, A., Reichel, E. K., Riesch, C., Voglhuber-Brunnmaier, T. and Weiss, B., Miniaturized Sensor for the Viscosity and Density of Liquids - Performance and Issues, IEEE Transaction on Ultrasonics, Ferroelectrics and Frequency Control, 57 (1), pp. 111-119, 2010.; http://red.uao.edu.co//handle/10614/11860Test

الإتاحة: http://red.uao.edu.co//handle/10614/11860Test

المؤلفون: Franco Guzmán, Ediguer Enrique, Adamowski, Julio Cezar, Higuti, Ricardo, Buiochi, Flávio

مصطلحات موضوعية: Reflection coefficient, Shear waves, viscoelasticity, Solid-liquid interface

الوقت: Universidad Autónoma de Occidente. Calle 25 115-85. Km 2 vía Cali-Jamundí

وصف الملف: application/pdf; 7 páginas

العلاقة: Physics Procedia. Volumen 3, (enero 2003); páginas 803-809; 809; 803; Franco, E. E., Adamowski, J. C., Higuti, R. T., Buiochi, F (2010). Experimental study of the complex reflection coefficient of shear waves from the solid–liquid interface. Physics Procedia. 3 (1), 803-809. http://red.uao.edu.co//handle/10614/11995Test; Physics Procedia; [1] W. P. Mason, W. O. Baker, J. M. McSkimin, and J. H. Heiss, “Measurement of shear elasticity and viscosity of liquids at ultrasonicfrequencies”,Physical Review, vol. 75, n. 6, pp. 936–946, 1949; [2] A. Kulmyrzaev and D. J. McClements. “High frequency dynamic shear rheology of honey”, Journal of Food Engineering, vol. 45, pp. 219–224, 2000; 3] A. Yoneda and M. Ichihara, “Shear viscoelasticity of ultrasonic couplers by broadband reflectivity measurements”,Journal Of AppliedPhysics, vol. 97, pp. 054901, 2005; [4] F. Buiochi, E. E. Franco, R. T. Higuti, and J. C. Adamowski, “Viscosity measuring cell using ultrasonic wave mode conversion”, Ferroelectrics, vol. 333, pp. 139–149, 2006; [5] E. E. Franco, J. C. Adamowski, R. T. Higuti, and F. Buiochi, “Viscosity measurement of newtonian liquids using the complex reflection coefficient”, IEEE Transaction on Ultrasonics, Ferroelectrics and Frequency Control, vol. 55, n. 10, pp. 2247–2253, 2008.; [6] F. Cohen-Tenoudji, W. J. Pardee, B. R. Tittmann, L. Ahlberg, and R. K. Elsley, “A shear wave rheology sensor”, IEEE Trans. Ultrason. Ferroelectr. Freq. Control, vol. UFFC-34, n. 2, pp. 263–269, 1987; [7] R. W. Whorlow, “Rheological Techniques”, Ellis Horwood, 1992; [8] V. V. Shah and K. Balasubramaniam, “Measuring newtonian viscosity from the phase of reflected ultrasonic shear wave”, Ultrasonics, vol. 38, pp. 921–927, 2000; 9] V. Shah and K. Balasubramaniam, “Effect of viscosity on ultrasound wave reflection from a solid/liquid interface”, Ultrasonics, vol. 34, pp. 817–824, 1996; 10] G. Harrison and A. J. Barlow, “Dynamic viscosity measurement”, Methods of Experimental Physics, vol. 19, pp. 137–178, 1981; [11] J. C. Adamowski, F. Buiochi, C. Simon, E. C. N. Silva, and R. A. Sigelmann, “Ultrasonic measurement of density of liquids”J. Acoust. Soc. Amer., vol. 97, n. 1, pp. 354–361, 1995.; http://red.uao.edu.co//handle/10614/11995Test

الإتاحة: http://red.uao.edu.co//handle/10614/11995Test