Do Exterior HPL Panels Fade?

Understanding Delta E, Grey Scale and Colour Stability in Exterior HPL Facades

When selecting façade materials, one of the most common and practical questions is:

Do Exterior HPL panels fade over time?

This question is directly linked to UV resistance, colour stability, and long-term durability of façade panels.

 

Exterior HPL panels are constantly exposed to:

  • Ultraviolet (UV) radiation
  • Temperature fluctuations
  • Rain and humidity
  • Pollution and environmental exposure

Over time, these factors can affect colour performance, leading to:

  • Colour fading
  • Loss of vibrancy
  • Uneven ageing across panels

However, in high-quality systems like those from Samrat HPL, colour change is not random—it is scientifically measured, controlled, and minimized.

 

With over 9 million m² of Exterior HPL installed globally till 2025, Samrat HPL panels have demonstrated reliable weather-resistant façade performance and long-term colour stability.

 

What Is Colour Fading in Exterior HPL?

Colour fading refers to the change in appearance of a surface due to prolonged exposure to sunlight and environmental conditions.

In façade materials, fading occurs due to:

  • UV-induced degradation of pigments
  • Breakdown of molecular structures
  • Surface wear over time

This is why UV resistance in HPL panels is one of the most critical performance parameters.

 

➡️ Related blog
The Role of Organic vs Inorganic Pigments in Exterior HPL

 

How Is Colour Change Measured Scientifically?

Instead of relying on visual judgement, colour stability is measured using:

  1. Delta E (ΔE) – Numerical Measurement
  2. Grey Scale – Visual Assessment

These two methods together provide a complete evaluation of colour performance in exterior façade panels.

What Is Delta E (ΔE)?

Delta E (ΔE) is a numerical value that represents the difference between two colours.

 

It is measured using a spectrophotometer, based on the CIELAB colour system:

  • L* → Lightness
  • a* → Red–Green axis
  • b* → Yellow–Blue axis

ΔE represents the distance between two colours in 3D colour space.

 

Interpretation of Delta E Values

ΔE Value Meaning in Real Applications

0–1 No visible difference
1–2 Slight change
2–3 Noticeable on close inspection
3–5 Clearly visible

In Exterior HPL Context

  • After UV exposure or weathering tests:
  • Low ΔE → High colour stability
  • High ΔE → Visible fading

This is why ΔE is widely used in evaluating HPL façade colour durability.

What Is Grey Scale?

Grey Scale is a visual method used to assess colour change.

It compares a tested sample against standardized grey references.

 

Grey Scale Ratings

Grade – Performance
5 – No visible change
4 – Slight change
3 – Noticeable change
2 – Significant change
1 – Severe fading

 

Why Grey Scale Matters

While ΔE is scientific, Grey Scale reflects:

  • Human visual perception
  • Real façade appearance
  • Practical acceptance criteria

Why Do Some HPL Panels Fade Faster?

Not all façade panels perform equally.

Colour fading depends on several technical factors:

  1. Pigment Type
    Organic pigments → higher fading risk
    Inorganic pigments → better UV stability

➡️ Related blog
Organic vs Inorganic Pigments in Exterior HPL

  1. UV Protection Layer (PMMA)

At Samrat HPL:
50-micron PMMA (Plexiglas®) layer from Evonik / Röhm

 

This layer:
Reduces UV radiation reaching pigments
Improves colour stability
Lowers ΔE values

 

➡️ Related blog
How PMMA (Acrylic) Layers Improve Exterior HPL Performance

  • Decorative Paper Quality

    Samrat HPL uses papers from:
  • Technocell
  • Munksjö
  • Schattdecor

    This ensures:
  • Better pigment stability
  • Uniform colour behaviour
  • Reduced fading risk

  • Manufacturing Quality

    Samrat HPL panels are produced with:
  • 100% phenolic resin system
  • Higher resin content (~28.5%)
  • High-density structure

    This improves:
  • Pigment encapsulation
  • Structural stability
  • Resistance to environmental degradation

How Testing Is Done: Xenon Weathering

To simulate real-world exposure, panels undergo:

 

3000-hour Xenon Arc Weathering Test

 

This replicates:

  • Sunlight (UV radiation)
  • Heat cycles
  • Moisture exposure

    After testing:
  • ΔE is measured
  • Grey Scale rating is assigned

This ensures scientifically validated colour performance.

What Does This Mean for Real Facades?

From a practical standpoint:
Low ΔE → façade looks consistent for years
Grey Scale 4–5 → minimal visible change

 

This ensures:

  • Uniform appearance across panels
  • Reduced maintenance
  • Long-term architectural aesthetics

Real-World Performance – Samrat HPL

 

With over 9 million m² installed globally till 2025, Samrat HPL panels perform reliably in:

  • High UV regions (Middle East)
  • European climates
  • Coastal environments

This demonstrates long-term UV resistance and colour stability in façade panels.

Why Architects Prefer Samrat HPL

Samrat HPL ensures:

  • Controlled colour change (low ΔE)
  • High Grey Scale ratings
  • UV-resistant façade panels
  • Weather-resistant cladding performance

    This delivers both:
  • Scientific reliability
  • Visual consistency

Conclusion

So, do Exterior HPL panels fade?

Yes—but only within controlled, measurable, and acceptable limits.

With proper engineering, fading becomes:

  • Predictable
  • Minimal
  • Uniform across panels

Through:
Advanced pigment systems
PMMA UV protection
High-quality decorative papers
Xenon weathering validation

 

Samrat HPL Exterior Cladding ensures façade panels that do not fade significantly and maintain long-term colour stability.

 

Backed by 9 million square metres of global installations till 2025, Samrat HPL continues to deliver weather-resistant, durable, and colour-stable façade solutions.