Render Systems for Concrete Block Construction: What You Need to Know
Concrete block is one of Australia's most common construction substrates – and for good reason. It's strong, cost-effective, and performs well in our climate. But when it comes to finishing blockwork with render, the substrate's unique characteristics demand careful system selection.
Get it right, and you'll achieve a durable, crack-free facade that lasts for decades. Get it wrong, and you're looking at cracking, delamination, and costly repairs down the track. This guide covers what you need to know about choosing and applying render systems for concrete block construction.
Why Concrete Block Needs a Purpose-Designed Render System
Concrete blockwork isn't like brick or poured concrete. It has distinct properties that affect how render performs:
- High porosity and suction – Concrete blocks absorb moisture rapidly, which can pull water out of the render before it cures properly. This leads to weak adhesion and surface defects.
- Surface texture variation – Block faces are rarely perfectly smooth. Mortar joints, surface irregularities, and manufacturing variations create an uneven base that standard renders struggle to accommodate.
- Thermal and structural movement – Block walls expand and contract with temperature changes. A rigid cement render can't flex with this movement, resulting in cracking over time.
These factors mean a generic render won't cut it. You need a system engineered specifically for blockwork substrates.
Cement Render vs Acrylic Polymer Render: Which Performs Better?
Traditional cement renders have been used on blockwork for decades, but they come with well-documented limitations. They're rigid, prone to cracking, and offer limited weather resistance once cracks appear.
Acrylic polymer render systems take a different approach. By incorporating flexible polymer technology, these renders can accommodate substrate movement without cracking – typically achieving crack resistance up to six times higher than cement-based products.
Key performance differences:
| Property | Cement Render | Acrylic Polymer Render |
|---|---|---|
| Flexibility | Low – prone to cracking | High – accommodates movement |
| Adhesion | Moderate | Excellent across substrates |
| Water resistance | Reduces once cracked | Maintains integrity |
| Impact resistance | Brittle | Up to 50 joules |
| Cure sensitivity | High – weather dependent | More forgiving |
For concrete block construction, acrylic polymer systems like StoArmat deliver significantly better long-term performance, particularly in Australian conditions where temperature swings and UV exposure are constant factors.
Preparing Concrete Block for Render Application
Proper preparation is half the battle. Skipping steps here will undermine even the best render system.
- Surface cleaning – Remove dust, efflorescence, oil, and any loose material. A clean surface is essential for adhesion.
- Moisture management – Check the block's moisture content. Applying render to overly wet or dry blocks causes problems. Lightly dampen very dry blocks before application, but avoid saturating them.
- Filling and levelling – Address any significant voids, damaged blocks, or uneven mortar joints before rendering. Deep recesses should be filled and allowed to cure.
- Priming – A suitable primer helps regulate suction and improves the bond between substrate and render. This step is particularly important for high-suction blockwork.
Application: What a Quality Blockwork Render System Looks Like
A properly specified render system for concrete block typically involves multiple components working together:
- Base coat render – The foundation layer that bonds to the substrate, fills minor irregularities, and provides the bulk of the system's thickness. For blockwork, this needs excellent adhesion and flexibility.
- Reinforcing mesh (where required) – Embedded in the base coat to add tensile strength and crack resistance, particularly over joints and at stress points.
- Finishing render or texture coat – The visible surface layer that provides colour, texture, and weather protection. This coat takes the brunt of UV exposure and rain.
- Protective top coat (optional but recommended) – A final coating that enhances water repellency, colour retention, and resistance to dirt pickup.
Each layer has a role. Cutting corners by skipping components – or substituting products from different systems – compromises the whole assembly.
Common Mistakes to Avoid
Even experienced applicators can run into issues with blockwork render. Watch out for these:
- Applying too thick in one pass – Thick single coats don't cure evenly and are prone to slumping and cracking. Build thickness gradually across multiple coats.
- Ignoring weather conditions – Rendering in extreme heat, direct sun, or when rain is imminent affects curing and finish quality. Plan application timing carefully.
- Mismatched system components – Using a primer from one manufacturer, base coat from another, and finish from a third creates compatibility risks. Stick to tested, certified systems.
- Insufficient curing time between coats – Each layer needs to cure adequately before the next is applied. Rushing this leads to adhesion failures.
Choosing the Right System for Your Project
The right render system depends on your project's specific requirements – exposure conditions, desired finish, budget, and performance expectations.
Sto's concrete block construction systems are BRANZ Appraised and backed by technical support from specification through to completion. Whether you're working on a residential build, commercial project, or facade refurbishment, there's a system matched to your substrate and performance needs.
Need guidance on system selection? Contact Sto Australia to speak with a technical consultant.
