Day 1
Prepare the timber frame
The process starts with the load-bearing timber frame that forms the structural base of the panel.
Production stages
The panels are manufactured in clearly defined process steps with continuous control.
Day 1
Prepare the mix
The recipe is measured precisely to ensure stable density and strength.
Day 1
Form the panels
The material is placed into the formwork and prepared for the following compaction stages.
Day 1
Compact
Vibration pressing densifies the structure and delivers the required mechanical values.
Day 1
Horizontal drying
The material stabilises in a controlled environment until the target moisture level is reached.
Day 2 to 21
Vertical drying
Panels pass through the curing and strengthening cycle under controlled conditions.
Day 21
Ready for installation
After final inspection, the elements are prepared for shipment and site installation.
Day 21+
Installation
The prepared elements are installed accurately on site.
Day 1
Prepare the timber frame
The process starts with the load-bearing timber frame that forms the structural base of the panel.
Day 1
Prepare the mix
The recipe is measured precisely to ensure stable density and strength.
Day 1
Form the panels
The material is placed into the formwork and prepared for the following compaction stages.
Day 1
Compact
Vibration pressing densifies the structure and delivers the required mechanical values.
Day 1
Horizontal drying
The material stabilises in a controlled environment until the target moisture level is reached.
Day 2 to 21
Vertical drying
Panels pass through the curing and strengthening cycle under controlled conditions.
Day 21
Ready for installation
After final inspection, the elements are prepared for shipment and site installation.
Day 21+
Installation
The prepared elements are installed accurately on site.
Technical data
Every production stage uses a multi-level control system.
Documentation
Mechanische Festigkeit und Druckprüfung (EMPA)
Download PDFDocumentation
Wärmeleitfähigkeit und Rohdichte (EMPA)
Download PDFDocumentation
Brandverhalten - Klassifizierung nach EN 13501
Download PDFDocumentation
Brandschutzprüfung und Materialkennwerte (TÜV SÜD)
Download PDFTechnical panel data
Comparison of Hanfsteine, Diffutherm, M-ISOI and Emisco 101-0
| Property | Hanfsteine | Diffutherm | M-ISOI | Emisco 101-0 |
|---|---|---|---|---|
| Bulk density (kg/m³) | 300 | 190 | 115.5 | 400 |
| Thermal conductivity λ (W/mK) | 0.070 | 0.043 | 0.061 | 0.085 |
| Specific heat capacity (J/kgK) | 2100 | 1244 | 1087 | - |
| μ-value | 5 | 1.7 | 3.67 | - |
| Property | Hanfsteine | Diffutherm | M-ISOI | Emisco 101-0 |
|---|---|---|---|---|
| Compressive strength | 300 kPa | 80 kPa | - | EMPA / TÜV SÜD |
| Flexural strength | 230 kPa | - | - | - |
| Surface cohesion | 110 kPa | - | - | - |
| Evidence | Technical data sheet | Product data sheet | - | Test reports |
| Property | Hanfsteine | Diffutherm | M-ISOI | Emisco 101-0 |
|---|---|---|---|---|
| Bulk density (kg/m³) | 300 | 180-190 | 115.5 | 400 |
| Thermal conductivity λ (W/mK) | 0.071 | 0.045 | 0.061 | 0.085 |
| μ-value | 2.8 | 5 | 3.67 | - |
| Fire behaviour | - | - | - | Tested to EN 13501 |
| Property | Hanfsteine | Diffutherm | M-ISOI | Emisco 101-0 |
|---|---|---|---|---|
| Thermal conductivity | Technical data sheet | Product data sheet | - | EMPA |
| Fire classification | EN 13501-1: B-s1,d0 / A1 with render | Building material class B2 | - | EN 13501 |
| Strength and pressure | Compressive and flexural values documented | Compressive stress 80 kPa | - | EMPA / TÜV SÜD |
| Documentation | - | - | - | Available |
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