Rheology is the science that studies the mechanical properties of substances in a flowing state

Rheological research includes stress, strain, flow rate, viscosity and other parameters

Applications of Rheology in Engineering

Applications of Rheology in Biomedicine

experimental method

Theoretical methods

Early development of rheology

The development of modern rheology

Structure and properties of polymer chains

Rheological properties of polymer fluids

Newtonian fluid model

Non-Newtonian fluid model

Rotational rheometer experimental method

Capillary Rheometer Experimental Methods

Theoretical basis of rheological model of polymer fluids

Numerical simulation of rheological model of polymer fluid

Application of Rheological Model of Polymer Fluids in Polymer Processing

Application of rheological model of polymer fluid in polymer fiber spinning

Application of rheological model of polymer fluid in petroleum engineering

Application of rheological models of polymer fluids in biomedicine

Polymer segment of polymer fluid

Interactions between segments of polymer fluids

Viscosity of polymer fluid

The elasticity of polymer fluids

Yield stress of polymer fluid

Continuity equation of polymer fluid

Momentum equation of polymer fluid

Energy equation of polymer fluid

Wall boundary conditions for polymer fluids

Inlet and outlet boundary conditions for polymer fluids

Shear rheometer experiment of polymer fluids

Extensional rheometer experiments on polymer fluids

Laser Doppler Velocimetry Experiment of Polymer Fluid

Particle image velocimetry experiment of polymer fluids

Finite element meshing of polymer fluids

Solving finite element equations of polymer fluids

Lattice Boltzmann meshing of polymer fluids

Solving the Lattice Boltzmann equation for polymer fluids

Optimization of extrusion molding process of polymer fluid

Injection molding process optimization of polymer fluids

Optimization of pipeline transportation of polymer fluids

Optimization of storage tank design for polymer fluids;

shear viscosity of fluid

extensional viscosity of fluid

Reynolds number of fluid

fluid flow resistance

Fluid turbulence intensity

fluid turbulence scale

axial flow velocity of fluid

Radial flow velocity of fluid

Fluid flow direction angular distribution

fluid inlet velocity

Fluid inlet pressure

Fluid exit velocity

Fluid outlet pressure

Fluid wall shear stress

Fluid wall friction coefficient

isothermal flow of fluid

non-isothermal flow of fluids

fluid static pressure

fluid dynamic pressure

Relative humidity of fluid

Absolute humidity of fluid

Fluid flow control equipment

Fluid flow control strategies

Fluid flow resistance is reduced

Fluid flow speed increases

Improved fluid flow stability;

A rheometer is an instrument that measures the flow properties of materials

A rheometer measures the relationship between deformation and stress of a material by applying external force.

rotational rheometer

Oscillating rheometer

capillary rheometer

Study the rheological properties of materials

Optimize material processing technology

Predicting the service life of materials

Study the rheological properties of foods

Optimize food processing technology

Predicting the shelf life of food

Study the rheological properties of biological tissues

Optimizing processing of biomedical materials

Predicting growth and repair of biological tissues

Oil industry

Cosmetics industry

Building materials industry

Use artificial intelligence technology to realize automated operation and analysis of rheometers

Miniaturization and portability of rheometers through miniaturization technology

Integrate multiple measurement functions to achieve multi-functionality of the rheometer

Utilize network technology to realize remote control and data sharing of rheometers.