A Pro App for Rheologists. Non-Newtonian Flow Models. Shear Thinning. Yield Stress. Cross. Carreau. Bingham. Herschel Bulkley. Arrhenius. WLF. TTS. Activation Energy. Pressure effect. D3.
Key Features:
Material Database: Add unlimited number of materials to the database with individual flow parameters according to flow behavior. Export/ import database for backup and for sharing with others.
Supported Models: Newtonian, Power Law, Cross, Carreau, Carreau Yasuda, Bingha
m, Herschel Bulkley, Casson, Newtonian Arrhenius, Newtonian WLF, Cross WLF, Carreau Yasuda WLF, Cross WLF Thermoplastic, Cross Arrhenius Thermoplastic.
Plot Viscosity Curves: Plot Rheological Curves using the saved material data: Viscosity Curves (shear rate vs. viscosity), Flow Curves (shear rate vs. shear stress) and Temperature Curves (temperature vs. shear rate).
Viscosity Calculator: Calculate viscosity under different flow conditions of shear rate, temperature and pressure using the saved material data.
Rheological Curve Fitting: Fit experimental results to different rheological models. Viscosity Curve Fitting: Cross, Carreau, Carreau Yasuda. Flow Curve Fittting: Power Law, Bingham, Herschel Bulkley, Casson. Temperature Curve Fitting: Arrhenius, WLF.
Time Temperature Superposition: Create Mastercurves from experimental viscosity and stress relaxation data. Fit to Arrhenius and WLF models. Determine the Arrhenius Flow Activation Energy and WLF c1/c2 parameters.
Data Entry Modes: Read experimental data for curve fitting and TTS directly from a text file or by scanning the data from a QR Code or a Data Matrix image instead of manually typing in each data point.
Save Data: Save the entered curve fitting and TTS data to a text file for re-analysis anytime later.
Rheometry Toolbox: Calculate Shear Rate, Shear Stress, Viscosity from Rheometer raw data, such as Flow Rate, Pressure Difference, RPM, Torque. Supported geometries: Capillary Die, Slit Die, Parallel Plate, Cone and Plate, Cup and Bob. ... Read more