EPS Insulation Module
Product Name: EPS module, also known as EPS insulation module
Product Technology: This product EPS module technology is an innovation and development of traditional masonry wall construction techniques that have been practiced in China for thousands of years. It aims to reduce or eliminate the reliance of buildings on fossilenergy for heating andcooling, lower air pollution levels, reduce or eliminate the emissions of harmful gases or substances, and provide reliable technical support for the construction of “Beautiful Countryside”.
Product Advantages: This product is made from expandable polystyrene beads and produced using a two-step foaming method, once molded under pressure, featuring uniform fusion, high compressive strength, stable technical specifications, and accurate geometric dimensions.
Product Shape: The product is available in various shapes, compliant with building modulus 3m, with plug-in joints on all edges and dovetail grooves distributed on both inner and outer surfaces.
Applicable Scope: Used for constructing environmentally friendly, energy-efficient, and disaster-resistant multi-story and low-rise residential buildings, it can also be used for building large cold storage warehouses, unheated agricultural machinery storage, and livestock greenhousesgreenhouses.
Product Introduction: The EPS hollow module organically interlocks withconcrete and thick plaster protective surface layers, enhancing the impact resistance, durability, and fire safety performance of composite walls, achieving integration of EPS module insulation with building structure and same lifespan.
EPS hollow module density reaches 30kg/m3, flame retardant grade reachesb1 level, thermal conductivity is less than 0.033 w/(m·k), meeting national building energy-saving requirements of 75%.
EPS modules are manufactured according to building modulus, energy-saving standards, building structure, structural system, and construction process requirements through specialized equipment and molds using high-temperature vacuum one-time molding, unlike large panel cutting methods. It features uniform fusion, high compressive strength, stable technical specifications, and accurate geometric dimensions, with a negative tolerance of 0.2mm.
This technology has strong workability; building houses is similar to playing with building blocks. It thoroughly replaces clay bricks and block masonry walls, eliminates outdated technologies and production capacities, and abandons traditional building construction methods, achieving integration of building insulation with building templates, integration of building insulation with building structure, and the industrialization and standardization of patented technologies with independent intellectual property rights.
It has realized the standardization of prefabricated low-energy disaster-resistant housing construction technology, factory production of building components, site assembly, meticulous engineering quality, and comfortable indoor environments. This provides reliable construction technologies and economically viable building components for constructing low-energy disaster-resistant houses, large cold storage warehouses, unheated large poultry houses, agricultural machinery storage, agricultural greenhouses, etc.
The EPS modules organically combine with cast-in-place concrete structures or recycled concrete structures, resulting in economic and technical indicators of houses compared to traditional clay brick houses: construction costs are reduced by 15%, construction speed increased by over 50%, usable area increased by 10%, insulation and airtightness meet passive house performance standards, and structural disaster resistance capability significantly upgraded, achieving “zero death” in 8 degree earthquake disasters.
It has completely bid farewell to the collapse of houses, personal injuries, property losses, and negative social impacts caused by natural disasters, achieving disaster without harm.
Energy-saving and space-efficient, resource preservation. The composite wall can use recycled concrete for all pouring, not only achieving effective recycling of construction waste but also making the insulation performance of composite walls equivalent to 3200mm thick solid clay brick walls.
EPS modules' excellent mechanical properties and uniformly distributed dovetail grooves on the inner and outer surfaces form an organic interlock with concrete structures and protective layers, enhancing the wall's impact resistance, durability, and fire safety performance, ensuring that the insulation layer of the module has the same lifespan as the cast-in-place concrete load-bearing walls.
