A Rapid Rheological Method for the Assessment of the High Pressure Homogenization of Citrus Pulp Fibres

S. J. J. Debon; J. Wallecan; J. Mazoyer

doi:10.3933/applrheol-22-63919

Startseite A Rapid Rheological Method for the Assessment of the High Pressure Homogenization of Citrus Pulp Fibres

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A Rapid Rheological Method for the Assessment of the High Pressure Homogenization of Citrus Pulp Fibres

S. J. J. Debon , J. Wallecan und J. Mazoyer

Veröffentlicht/Copyright: 7. Juni 2019

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Aus der Zeitschrift Applied Rheology Band 22 Heft 6

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APA
Harvard
Chicago
Vancouver

Debon, S. J. J., Wallecan, J. and Mazoyer, J.. "A Rapid Rheological Method for the Assessment of the High Pressure Homogenization of Citrus Pulp Fibres" Applied Rheology, vol. 22, no. 6, 2012, pp. 63919. https://doi.org/10.3933/applrheol-22-63919

Debon, S., Wallecan, J. & Mazoyer, J. (2012). A Rapid Rheological Method for the Assessment of the High Pressure Homogenization of Citrus Pulp Fibres. Applied Rheology, 22(6), 63919. https://doi.org/10.3933/applrheol-22-63919

Debon, S., Wallecan, J. and Mazoyer, J. (2012) A Rapid Rheological Method for the Assessment of the High Pressure Homogenization of Citrus Pulp Fibres. Applied Rheology, Vol. 22 (Issue 6), pp. 63919. https://doi.org/10.3933/applrheol-22-63919

Debon, S. J. J., Wallecan, J. and Mazoyer, J.. "A Rapid Rheological Method for the Assessment of the High Pressure Homogenization of Citrus Pulp Fibres" Applied Rheology 22, no. 6 (2012): 63919. https://doi.org/10.3933/applrheol-22-63919

Debon S, Wallecan J, Mazoyer J. A Rapid Rheological Method for the Assessment of the High Pressure Homogenization of Citrus Pulp Fibres. Applied Rheology. 2012;22(6): 63919. https://doi.org/10.3933/applrheol-22-63919

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Received: 2012-07-16

Accepted: 2012-09-28

Published Online: 2019-06-07

Published in Print: 2012-12-01

Artikel in diesem Heft

Creep and Large-amplitude Oscillatory Shear Behavior of Whey Protein Isolate/κ-carrageenan Gels
Rheological Evaluation of the Structure of Ice Cream Mixes Varying Fat Base
Numerical and Experimental Investigation of a Non-Newtonian Flow in a Collapsed Elastic Tube
Adaptive Neuro-fuzzy Inference System and Artificial Neural Network Estimation of Apparent Viscosity of Ice-cream Mixes Stabilized with Different Concentrations of Xanthan Gum
A Rapid Rheological Method for the Assessment of the High Pressure Homogenization of Citrus Pulp Fibres
Bookreview
Viscoelastic behavior of rubbery materials (C. M. Roland)
Report
Institute of Materials Malaysia (IMM) 1st Rheology Symposium 2012
The 6th International Symposium on Food Rheology and Structure (ISFRS 2012)

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https://doi.org/10.3933/applrheol-22-63919

Schlagwörter für diesen Artikel

plant cell walls; citrus pulp fiber; Herschel-Bulkley; homogenization

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Artikel in diesem Heft

Creep and Large-amplitude Oscillatory Shear Behavior of Whey Protein Isolate/κ-carrageenan Gels
Rheological Evaluation of the Structure of Ice Cream Mixes Varying Fat Base
Numerical and Experimental Investigation of a Non-Newtonian Flow in a Collapsed Elastic Tube
Adaptive Neuro-fuzzy Inference System and Artificial Neural Network Estimation of Apparent Viscosity of Ice-cream Mixes Stabilized with Different Concentrations of Xanthan Gum
A Rapid Rheological Method for the Assessment of the High Pressure Homogenization of Citrus Pulp Fibres
Bookreview
Viscoelastic behavior of rubbery materials (C. M. Roland)
Report
Institute of Materials Malaysia (IMM) 1st Rheology Symposium 2012
The 6th International Symposium on Food Rheology and Structure (ISFRS 2012)