Lisocore®- lightweight perfomance
Lisocore® is a material-efficient high performance construction material.
This modern material achieves its excellent properties thanks to its unique structure, which consists of at least two thin cover layers that are bonded together by a three-dimensional pressed core structure. Selective milling of the cover layers creates recesses where the core structure finds a positive fit for a form-closed bond. A high-strength adhesive also ensures an adhesive bond.
Lisocore® therefore features both form-closed and adhesive bonding. This double bonding approach makes lisocore® unique from all other existing lightweight construction materials.
Benefits
• Low self-weight
• Optimized load-carrying action
• High bonding strength
• High bending strength
• Low creep
• High dimensional stability
• Good flatness
• Low thickness tolerance
• High edge stability.
Unique options
• Lengthwise and diagonal hollow spaces serve as installation
levels (for electrical equipment, for example)
- Multilayered structures
Can be pressed into two-dimensional forms
Lisocore® is already being successfully machined and processed in various industries as the lightweight material of choice. Application examples that speak for themselves.
• Free-form machining
• Narrow surface coating without a support edge or frame
• Retrospective surface coating possible
• Fittings mounted with clamps and screws
• Quick and secure screw fixtures (direct or using cold-melt anchor screw or blind rivet technology)
Lisocore® committed to the environment! Sustainable and environmentally friendly!
Resources are becoming increasingly scarce – and more expensive. An environmentally aware and sustainable approach to raw materials is becoming more and more important. Our standards focus
on this approach in the development and production of lisocore®.
• Carbon-neutral material basis
• Use of renewable raw materials
• Maximum material and energy efficiency
• Low-emissions manufacture
• Use of minimal amounts of adhesives
• Environmentally friendly in application and use
• Same-material construction.