Product Description
What is Cemimax DL30?
Cemimax DL30 is a cement-based self leveling compound formulated for leveling thicker floor irregularities in interior flooring preparation applications. The compound forms a high-strength, smooth leveling layer that improves substrate flatness and enhances adhesion performance for flooring adhesives and finishes.
Where is it Used?
- Concrete and cementitious screeds
- Uneven subfloors requiring 1–30 mm leveling
- Renovation substrates with surface irregularities
- Preparation for resilient, wood, or tile floors
- Uniform substrate creation for high-load areas
Key Product Properties
- High compressive strength (35 MPa at 28 days)
- Thick-layer leveling capability up to 30 mm
- Superior flow performance for smooth surfaces
- Pump or manual application compatibility
- High-performance interior leveling solution
- Enhanced flexural strength (8 MPa)
Technical Specifications
| Product type | Cement-based self leveling compound |
| Application thickness | 1–30 mm per layer |
| Working time | Approx. 20–30 minutes |
| Coverage | Approx. 1.7 kg powder/mm/m² |
| Compressive strength | Approx. 35 MPa (28 days) |
| Flexural strength | Approx. 8 MPa (28 days) |
| Walkable time | Approx. 24 hours |
| Shelf life | 12 months |
How is Cemimax DL30 Applied?
Mix the self leveling compound with clean water to produce a homogeneous fluid mixture and pour onto the prepared substrate. Spread evenly using a smoothing trowel or spike roller to achieve the required leveling thickness. Ensure recommended primers are applied and fully dried before installation.
Subfloor Preparation Requirements
Substrates must be clean, dry, structurally sound, and free from dust, grease, or loose materials. Remove weak layers by mechanical preparation and apply the recommended primer before placing the self leveling compound.
System Integration
Cemimax DL30 functions as a high-strength substrate within the complete flooring installation system, providing medium-to-thick leveling capability ensuring consistent bonding and long-term durability.
