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Non-Newtonian Flow

Non-Newtonian Flow

Non-Newtonian Flow describes fluid motion where viscosity depends on shear rate or deformation history. Unlike Newtonian fluids, these fluids exhibit complex behavior. Examples include polymers, slurries, and biological fluids. Non-Newtonian flow is important in industrial processing, biomedical engineering, and geophysics. Physics explains how internal structure affects flow resistance and stress response. Non-Newtonian flow behavior includes shear thinning, shear thickening, and viscoelasticity. Understanding non-Newtonian flow is essential for designing pipelines, reactors, and medical devices. Experimental and computational methods are used to study these flows. This field extends classical fluid dynamics to complex real-world materials.

Committee Members

Speaker at Global Physics Innovation Conference 2026 - Thomas F Ramos

Thomas F Ramos

Lawrence Livermore National Laboratory, United States

Speaker at Global Physics Innovation Conference 2026 - Ephraim Suhir

Ephraim Suhir

Portland State University, United States

Speaker at Global Physics Innovation Conference 2026 - Alexander Unzicker

Alexander Unzicker

Pestalozzi Gymnasium Munchen, Germany

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GPIC 2026 Speakers

Speaker at Global Physics Innovation Conference 2026 - Thomas J Webster

Thomas J Webster

Brown University, United States

Speaker at Global Physics Innovation Conference 2026 - Jon H Brasher

Jon H Brasher

Stelleo Scientific Foundation, United States

Speaker at Global Physics Innovation Conference 2026 - Jason Liu

Jason Liu

West Windsor-Plainsboro High School North, United States

Speaker at Global Physics Innovation Conference 2026 - Tom Lawrence

Tom Lawrence

Ronin Institute of Independent Scholarship 2.0, United Kingdom

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