| Model | Equation | Parameters | |---------------------|--------------------------------------------------|--------------------------| | Power Law | η = K·γ̇ⁿ⁻¹ | K, n | | Cross | η = η∞ + (η₀−η∞)/(1 + (λ·γ̇)ᵐ) | η₀, η∞, λ, m | | Carreau | η = η∞ + (η₀−η∞)·[1 + (λ·γ̇)²]⁽ⁿ⁻¹⁾/² | η₀, η∞, λ, n | | Herschel–Bulkley | σ = σ₀ + K·γ̇ⁿ | σ₀, K, n |
The workspace for applying mathematical models (Power Law, Bingham, etc.).
software is designed to automate data collection and analysis for DV2T, DV3T, and DVNext instruments. Whether you're setting up for the first time or looking to utilize advanced math models, this guide covers the essentials for effective operation. AMETEK Brookfield 1. Getting Started: Installation & Connection
: Use these to search historical data, generate graphs, and perform deep-dive analysis. Utility Panels
| Model | Equation | Parameters | |---------------------|--------------------------------------------------|--------------------------| | Power Law | η = K·γ̇ⁿ⁻¹ | K, n | | Cross | η = η∞ + (η₀−η∞)/(1 + (λ·γ̇)ᵐ) | η₀, η∞, λ, m | | Carreau | η = η∞ + (η₀−η∞)·[1 + (λ·γ̇)²]⁽ⁿ⁻¹⁾/² | η₀, η∞, λ, n | | Herschel–Bulkley | σ = σ₀ + K·γ̇ⁿ | σ₀, K, n |
The workspace for applying mathematical models (Power Law, Bingham, etc.).
software is designed to automate data collection and analysis for DV2T, DV3T, and DVNext instruments. Whether you're setting up for the first time or looking to utilize advanced math models, this guide covers the essentials for effective operation. AMETEK Brookfield 1. Getting Started: Installation & Connection
: Use these to search historical data, generate graphs, and perform deep-dive analysis. Utility Panels