Why Roof Construction (and Timber Quality) Matters in Outdoor Classrooms

/in /by

When investing in an outdoor classroom, most schools focus on size, layout, and price.

But there are two critical elements that determine whether your structure lasts 5 years… or 25+ years:

👉 The roof system
👉 The quality and treatment of the timber

These are rarely visible at first glance—but they make all the difference over time.

Our Roof System – Built for Long-Term Performance

Our outdoor classrooms use a layered roofing system, designed to withstand the UK climate and minimise long-term maintenance.

Our roof build-up includes:

  • Tanalised structural timber roof

  • A full waterproof membrane covering the entire roof

  • High-quality IKO felt shingle tiles as the outer layer

Why this matters:

  • Complete waterproof protection – even if outer tiles are damaged

  • Prevents moisture reaching the timber structure

  • Significantly reduces risk of rot and decay

  • Extends lifespan dramatically compared to basic systems

  • Low maintenance for schools

👉 This is the same principle used in domestic roofing—because it works.

The Problem with “Standard” Roofing Systems

Many outdoor classroom suppliers use simpler, lower-cost methods that can fail over time.

1. Single Skin Timber (Shiplap) Roofs

These are made from overlapping timber boards.

Over time:

  • Timber naturally shrinks and expands

  • Boards separate, creating gaps

  • Knots can fall out, leaving holes

  • Water begins to penetrate the structure

👉 Result: leaks, drafts, and ongoing deterioration

2. Exterior Grade Plywood Roofs

Another common method is using exterior-grade ply.

While initially watertight, over time this can lead to:

  • Mould and staining

  • Moisture absorption

  • Delamination (layers separating)

  • Eventual rot and failure

👉 Result: costly repairs or premature replacement

Understanding Timber: Natural Movement vs Poor Design

Timber is a natural material—and that’s one of its strengths. However, it’s important to understand how it behaves.

Why Does Timber Crack?

All timber will develop small cracks over time, known as “shakes.”

This happens because:

  • Timber expands and contracts with temperature and humidity changes

  • It adjusts to its environment over time

  • Seasonal weather accelerates this movement

👉 This is completely natural and does not usually affect structural strength

When Timber Becomes a Problem

Issues arise when timber is poorly designed or inadequately treated.

This can lead to:

  • Large splits in round posts (radial cracking)

  • Open gaps allowing water into the core of the timber

  • Increased risk of internal rot

  • Splinter hazards, especially in school environments

👉 In outdoor classrooms, this affects both safety and longevity

Why Timber Treatment Is Critical

The goal isn’t to stop timber movement—it’s to control it.

High-quality treatment:

  • Slows how moisture enters and leaves the timber

  • Reduces severity of cracking

  • Protects against fungal decay and insect attack

  • Extends the lifespan of the structure

What Makes a Quality Timber Treatment?

Professional-grade timber should be pressure treated, not just surface coated.

This involves:

  • Industrial treatment vessels

  • Vacuum and pressure cycles

  • Preservative forced deep into the timber structure

👉 This ensures protection throughout—not just on the surface

Understanding Use Classes (BS EN 335)

Timber must be treated appropriately for how it will be used.

  • Use Class 3 – External use above ground

  • Use Class 4 – Timber in contact with the ground

👉 Any structural timber going into the ground must be Use Class 4

Ground Contact: The Hidden Risk

One of the most common failure points in outdoor classrooms is below ground level.

When timber posts are placed directly into the ground:

  • They are exposed to constant moisture

  • Rot begins out of sight

  • Structural integrity can fail before visible signs appear

Best practice includes:

  • Enhanced treatment for ground-contact timber

  • Protective barriers or sleeves

  • Design that minimises prolonged moisture exposure

Why This Matters for Schools

A poorly designed structure can lead to:

  • Ongoing maintenance costs

  • Disruption to learning

  • Reduced lifespan

  • Safety concerns from damp or splintering

Whereas a properly designed system:

✔ Protects your investment
✔ Keeps the space usable year-round
✔ Reduces long-term costs
✔ Provides peace of mind

The Bottom Line

Not all outdoor classrooms are built the same.

👉 The real difference lies in what you can’t immediately see:

  • What’s beneath the roof covering

  • How the timber is treated

  • How the structure is designed for long-term use

A Simple Question to Ask Any Supplier

“What sits beneath the outer roof covering—and how is your timber protected?”

If the answer doesn’t include a full waterproof membrane system and properly treated structural timber, it’s worth taking a closer look.