Product Features
The 100mm High-Strength Industrial Grade Plain Face 7.3N Block is engineered to provide exceptional structural integrity and durability for demanding construction projects. Its impressive compressive strength of 7.3N/mm² makes it ideal for applications requiring superior load-bearing capacity.
High Strength: This block boasts a compressive strength rating of 7.3N/mm², ensuring it can handle significant structural loads, making it suitable for multi-story buildings and high-load applications.
Dimensional Accuracy: With a thickness of 100mm, this block is precision-engineered for consistency in size, promoting seamless alignment and construction efficiency.
Lightweight Yet Durable: Despite its lightweight design, this block offers a remarkable strength-to-weight ratio, making it easy to handle and install without sacrificing durability.
Sustainable: Composed of sand, lime, and water, this block supports sustainable building practices and offers excellent thermal performance, aligning with green building objectives.
Product Specifications
| Specification |
Details |
| Product |
High Strength |
| Application |
Internal & External Leaf Cavity Walls, Separating Walls, Internal Partitions |
| Indoor/Outdoor Usage |
Indoor & Outdoor |
| Material Type |
Aerated Concrete |
| Thickness |
100mm |
| Length |
440mm |
| Height |
215mm |
| Weight |
10kg |
| Sales Unit |
Each |
| Fire Rating |
A1 Non-Combustible |
| Moisture Resistant |
Yes |
| Thermal Conductivity |
0.18W/mK |
| Compressive Strength |
7.3N |
| Density |
730kg/m3 |
| Product Standard |
BS EN 771-1 |
| Edge |
Square |
Applications
- Foundations
- Lower storeys of three and four-storey buildings
- Piers under high vertical loads
- Multi-storey buildings
Compressive Strength: 7.3N/mm²
FAQs
Q: Can this block be used in high-load areas?
A: Yes, the block is designed for high-load applications, making it suitable for foundations and multi-storey buildings.
Q: Is the block environmentally friendly?
A: Yes, it is made from sustainable materials and offers excellent thermal performance.