| Many common fluids such as blood, oils and shampoos exhibit non-Newtonian properties, and low Reynolds flow is ubiquitous in micro-scale swimmers such as flagellum and bacteria. Purcell's Scallop Theorem states that locomotion via a single time-independent degree of movement through low Reynolds flow is impossible as the effects of momentum are negligible. Experimentation was performed to prove that propulsion, via a singular rotational, or linear degree-of-freedom, is possible by employing the normal stresses and shear thinning capabilities of non-Newtonian fluids, respectively. This study also discusses non-Newtonian fluid rheometry, as well as the design and control of the swimming robots. |
