Interlocking Thermal Brick
A brick for maintain
thermal efficiency within a building with the
interlocking feature.
The "Interlocking Thermal Brick" is an innovative architectural solution designed to address thermal regulation, humidity management, and structural integrity in construction. It incorporates carefully chosen materials, including calcite carbonate, polyethylene, and silicon dioxide, to optimize thermal resistance, heat absorption, and thermal transmittance.
Strategic air gaps within the brick set enhance convective heat transfer, while fillet curves at corner junctions improve structural cohesion and reduce cement usage. Additionally, concave semicircular indentations serve as interlocking elements and aid in thermal transference. This innovation represents a transformative approach to construction, offering sustainability and efficiency in architectural design
This invention represents a breakthrough in the realm of construction materials, offering a solution that addresses long-standing challenges but also sets new standards for environmentally conscious architectural design. The following sections provide an in-depth exploration of the structural and functional features that define the Interlocking Thermal Brick and the significant benefits it bestows upon the construction industry and sustainable architecture.
The present innovation resides in the building materials and construction product, with a specific emphasis on bricks designed to offer a myriad of functional attributes. More precisely, this innovation concerns the configuration and design of an Interlocking Thermal Brick, which seamlessly marries structural robustness with passive environmental control mechanisms, encompassing humidity management and thermal management.
With a thermal resistance of 14.00 K/W and impressive heat absorption capabilities, this brick set efficiently manages heat flow, as evidenced by its low U-value of 0.05 W/m²K* (This may varies by the materials and thickness). site to check that all your elements are displaying content from the right collection fields.
Power in Numbers
0.05
U-Value (W/m²K)
14.36
R-Value (K/W)
20
Variety of Materials