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Transient Dynamics of Concentrated Particulate Suspensions Under Shear: Springer Theses

Autor Endao Han
en Limba Engleză Paperback – 10 mar 2021
This thesis demonstrates the first use of high-speed ultrasound imaging to non-invasively probe how the interior of a dense suspension responds to impact. Suspensions of small solid particles in a simple liquid can generate a rich set of dynamic phenomena that are of fundamental scientific interest because they do not conform to the typical behavior expected of either solids or liquids. Most remarkable is the highly counter-intuitive ability of concentrated suspensions to strongly thicken and even solidify when sheared or impacted. The understanding of the mechanism driving this solidification is, however, still limited, especially for the important transient stage while the response develops as a function of time. In this thesis, high-speed ultrasound imaging is introduced to track, for the first time, the transition from the flowing to the solidified state and directly observe the shock-like shear fronts that accompany this transition. A model is developed that agrees quantitativelywith the experimental measurements. The combination of imaging techniques, experimental design, and modeling in this thesis represents a major breakthrough for the understanding of the dynamic response of dense suspensions, with important implications for a wide range of applications ranging from the handling of slurries to additive manufacturing.
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Specificații

ISBN-13: 9783030383503
ISBN-10: 3030383504
Ilustrații: XVI, 96 p. 33 illus., 32 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.17 kg
Ediția:1st ed. 2020
Editura: Springer International Publishing
Colecția Springer
Seria Springer Theses

Locul publicării:Cham, Switzerland

Cuprins

Chapter1. Introduction.- Chapter2. Ultrasound techniques for studying suspensions.- Chapter3. Investigating impact-activated fronts with ultrasound.- Chapter4. Modeling shear fronts in one dimension.- Chapter5. Rheology in the shear jamming regime.- Chapter6. Conclusions and outlook.

Notă biografică

Endao Han is an Associate Research Scholar and CPBF Fellow at Princeton University. He received his PhD from the University of Chicago in 2018.

Textul de pe ultima copertă

This thesis demonstrates the first use of high-speed ultrasound imaging to non-invasively probe how the interior of a dense suspension responds to impact. Suspensions of small solid particles in a simple liquid can generate a rich set of dynamic phenomena that are of fundamental scientific interest because they do not conform to the typical behavior expected of either solids or liquids. Most remarkable is the highly counter-intuitive ability of concentrated suspensions to strongly thicken and even solidify when sheared or impacted. The understanding of the mechanism driving this solidification is, however, still limited, especially for the important transient stage while the response develops as a function of time. In this thesis, high-speed ultrasound imaging is introduced to track, for the first time, the transition from the flowing to the solidified state and directly observe the shock-like shear fronts that accompany this transition. A model is developed that agrees quantitativelywith the experimental measurements. The combination of imaging techniques, experimental design, and modeling in this thesis represents a major breakthrough for the understanding of the dynamic response of dense suspensions, with important implications for a wide range of applications ranging from the handling of slurries to additive manufacturing.

Caracteristici

Nominated as an outstanding PhD Thesis by the University of Chicago Presents a major breakthrough in the understanding of dense suspensions with industrial applications Demonstrates the first use of high-speed ultrasound imaging to track transitions in suspensions Develops new models for the behavior of suspensions