Varied are the ways of defining a low-thickness thermal insulation technology.
Varied are the ways of defining a technology and understanding its fields of use, especially when it comes to basalt rock fiber thin thermal insulation. This innovation represents a significant step forward in the construction and infrastructure sector, combining high performance with environmental sustainability.
What is thin basalt rock fiber thermal insulation?
A thin basalt rock fiber thermal insulation is a material made from fibers obtained from the melting of volcanic rock, particularly basalt. This material is known for its exceptional heat resistance and insulating properties. Due to its natural composition, it is a highly eco-friendly and environmentally safe product. The distinguishing aspect of this type of insulation is its low thickness, which allows for excellent thermal performance while minimizing bulk. This makes it ideal for applications where space is limited or where it is necessary to maintain a streamlined aesthetic profile.
Main properties
1. Thermal effectiveness: Nobilium Thermalpanel with its basalt rock fiber provides excellent thermal insulation capacity, helping to reduce heat loss and improving the energy efficiency of buildings.
2. Fire resistance: This material is naturally fire retardant, making it suitable for applications where safety is a priority.
3. Sustainability: Basalt is an abundant natural resource, and the production process is designed to minimize environmental impact. The fibers can be re used to increase the compressive strength of concrete.
4. Weathering resistance: Basalt rock fiber is highly resistant to moisture, frost and UV rays, ensuring a long service life.
5. Vapor migration capability; The material always stays dry, and does not go into thermal variation due to its high vapor migration capabilities.
Benefits for professionals
For architects, engineers and builders, the use of basalt rock fiber thermal insulation offers multiple advantages:
Design flexibility: Ability to implement complex projects without compromising on space.
Reduced energy costs: By improving the thermal efficiency of buildings, significant savings can be achieved on energy bills.
Regulatory compliance: This material meets the requirements of the most stringent insulation and safety regulations.
As a complementary solution to thick exterior insulation.
Window and door hole shoulders.
Under windowsills.
Terraces for space limitation;reduction in thickness.Coat.
Floor terraces due to height difference between indoor and outdoor floor.
Terrace ceiling , mechanical fastening problems for structural reinforcement of large thicknesses.
Linda cornices.
Fire compartmentalization of window holes ( Fire Department standard)
Compartmentalization of insulating facades between floors.
Compartmentalization of escape routes ( external stairwells).
As a complementary solution to thick interior insulation or refacing.
Disruption of linear thermal bridge on ceilings, floor, plug walls.
Thermal acoustic and technological systems insulation ( see housing boxes).
Thermal and acoustic insulation and fire compartmentation on metal plasterboard structures.
Thermal insulation of floating and non-floating floors.
Thermal insulation ceilings.
Heat insulation radiator niches
Thermal insulation shutter boxes
Interior thermal insulation, including bathrooms that are then covered with ceramics.
Solution for historic buildings.
External thermal insulation on the entire facade.
Roof thermal insulation for height constraint or mass improvement.
As a dehumidifying solution ( DWALL project).
As insulating and dehumidifying wainscoting with reconstructed stone( Thermikwall).
- Whole thermal insulation for space issues, or to avoid thermal buildup of the structure ( example rock houses).
As an anti-condensation and anti-mold solution ( DWALL project).
New construction
Thermal bridge concrete pillars and beams
Thermal bridge ground connection of steel structures.
Increased summer load insulation mass of Steel Frame structures and reduced thermal bridging between panel and mullion.
Fire risk reduction of wooden structures (BIO). Wooden pillars and beams.
Integrated building solutions.
Marble window sills, porcelain stoneware, marble cement.
Decorative facade systems with reconstructed stone
Sandwich panels with laminates. Esp. False ceilings, ventilated facade systems, pillar cladding, elevator shafts.
Industry solution.
Thermal insulation bread/ pizza ovens in line ( space limitation)
Thermal insulation as a high temperature seal. Die-cut material.
Ship bridges as thermal and non-combustible insulation. ( solution under study).
As a solution to carbon or glass resin body protection from the engine compartment of airplanes and helicopters. ( increase the time ).
As a thermal insole for shoes.
