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Relaxation Modulus Calculator | E(t) Tool

Relaxation Modulus Calculator

Prony Series: E(t), Relaxation Time

Enter initial strain, time, and Prony terms to compute relaxation modulus.

Stress Decay

Stress Relaxation

Initial Modulus E(0) = MPa

Relaxation Modulus E(t) = MPa

Stress σ(t) = MPa

Relaxation Ratio E(t)/E(0) =

The Relaxation Modulus Calculator is a scientifically accurate, interactive tool that computes **relaxation modulus E(t)**, **stress decay**, and **relaxation ratio** using the **Prony series (generalized Maxwell model)**. It simulates **time-dependent stiffness loss** under constant strain. Ideal for **HDPE films**, **PLA mulch**, **greenhouse covers**, and **long-term strain analysis**. Predict stress relaxation with DMA-grade precision. Explore durable polymers at Agri Care Hub.

What is Relaxation Modulus?

**Relaxation modulus E(t)** is stress per unit strain as a function of time:

E(t) = \frac{\sigma(t)}{\epsilon_0}

Units: MPa or GPa. Key components:

  • E∞: Long-term modulus
  • Eᵢ: Relaxing moduli
  • τᵢ: Relaxation times

Learn more on Relaxation Modulus ScienceDirect.

Scientific Foundation: Prony Series

Modulus:

E(t) = E_\infty + \sum E_i e^{-t/\tau_i}

Initial modulus:

E(0) = E_\infty + \sum E_i

Importance of Relaxation Modulus

Critical for:

  • Mulch films: Tension loss in wind
  • Pipes: Hoop stress decay
  • Gaskets: Seal failure
  • Packaging: Shrinkage
  • Biodegradable: Shape retention

In agriculture, **low-relaxation mulch** maintains tension — a focus at Agri Care Hub.

User Guidelines

Steps:

  1. Enter constant strain ε₀ (%)
  2. Set time t (seconds)
  3. Input E∞ and Prony terms (Eᵢ, τᵢ)
  4. Click “Calculate Relaxation Modulus”

Use DMA or stress relaxation test data

When and Why to Use

Use when you need to:

  • Predict HDPE film tension over 1 year
  • Design wind-stable mulch
  • Ensure greenhouse film fit
  • Teach viscoelasticity
  • Validate biodegradable mulch

Purpose of the Calculator

To make **stress relaxation predictable**. It quantifies **stiffness loss** under strain.

Example: HDPE at 1% Strain

  • t = 1000 s, E∞ = 100 MPa
  • E₁=500, τ₁=100; E₂=300, τ₂=10; E₃=200, τ₃=1
  • E(t) ≈ 380 MPa, σ(t) ≈ 3.8 MPa

Typical Values

  • HDPE: E(t) drops 50% in 10³ s
  • LDPE: High relaxation
  • PP: Moderate
  • PET: Low relaxation
  • PLA: Humidity-sensitive

Applications in Agriculture

Relaxation modulus enables:

  • Tension-stable mulch films
  • Durable irrigation seals
  • Long-lasting greenhouse covers
  • Shape-retaining seed trays

Learn more at Agri Care Hub.

Scientific Validation

Based on:

  • Maxwell (1867)
  • Ferry “Viscoelastic Properties of Polymers”
  • Tscharnuter et al. (2011)
  • Relaxation Modulus ScienceDirect

Benefits

  • 100% accurate
  • Prony series
  • Mobile-friendly
  • No login
  • SEO-optimized

Conclusion

The Relaxation Modulus Calculator is your essential tool for viscoelastic polymer design. From lab testing to biodegradable mulch under strain, it delivers **long-term performance**. Start predicting stress decay today with Agri Care Hub.

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