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A New World of Applications
These raw materials get collected, sorted, and crushed into microscopic powder.
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Then they get modified at low temperatures using our special surfactants to form an active inorganic powder encapsulated with active ingredients in a multilayered net, similar in appearance to a golf ball.
Mixing econiclay materials with different polymers derives different eco-materials, suitable for all kinds of applications…
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Econiclay-derived materials are the perfect eco-friendly alternative to plastics, with superior flexibility, reduced thermoplasticity, Class A fire resistance, and Cradle-to-cradle life cycle sustainability.
econiclay is an all-new foundational material developed by PHOMI from concept to reality. This breakthrough is internationally recognized and received the Gold Medal at the 50th Geneva International Exhibition of Invention and is a China National Patent. At PHOMI, we have expanded our econiclay innovation into a portfolio of 26 independently-developed intellectual property rights, creating an end-to-end technical moat that spans raw material formulation, manufacturing processes, and application-specific solutions!
econiclay the Disruptor
PHOMI manufactures advanced building surfaces that replace conventional materials like stone and concrete. Their dual-function technology integrates photovoltaic systems and digital platforms, transforming building exteriors into smart, beautiful, energy-producing, and data-rich shells that advance sustainability and modernize infrastructure.
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econiclay Achieves Cradle-to-Cradle Accreditation?
1.Material Health ?Our econiclay is made from natural, non-toxic materials like soil, stone waste, and non-metallic tailings. These materials are processed into micro-powders and treated with special surfactants to ensure the final product is free from harmful ingredients and emissions.
2.Product Recyclability? Designed for circularity, econiclay products are easily recycled without releasing harmful substances. They offer a durable, flexible alternative to plastics, extending product life and significantly reducing resource use.
3.Clean Air & Climate Protection? econiclay’s plant is powered by self-generated green energy, operating at low temperatures with no harmful emissions released. As an inorganic material, it emits zero VOCs during its lifespan or recycling, ensuring cleaner air and a reduced reliance on fossil fuels.
4.Water & Soil Protection? The manufacturing process conserves water through a steam-to-water condensation system, resulting in zero wastewater. After its lifecycle, the non-vitrified inorganic material breaks down without harming soil health.
5.Social Responsibility? econiclay’s low-temperature production process minimizes waste, noise, and pollution using self-generated green energy. Its Class A fire rating enhances community safety, while carbon-neutral measures and a safe manufacturing environment support broader social equity.
New Materials: Unprecedented Advantages
Econiclay’s unique reactive bonding and low-temperature forming enable a new class of industrial casings with fundamental advantages:
Revolutionizing Material Science
econiclay overcomes traditional material limitations by leveraging inorganic solid waste to enable circular, low-impact manufacturing, offering transformative potential across numerous industries:
Breaks Material Constraints: Utilizes inorganic solid waste and low-temperature activation technology to eliminate high-energy sintering and achieve zero waste discharge, drastically reducing reliance on non-renewable resources and carbon emissions.
Wide-Ranging Applications: Offers Class A fire resistance and superior durability, making it an ideal sustainable replacement for plastics in automotive, appliance, yacht interior, and other industrial uses.
Supports Global Sustainability Goals: Enables full lifecycle assessment (LCA) compliance and aligns with international priorities for resource conservation and waste utilization, easing regulatory approval and market adoption.
Drives Innovation and Industrial Upgrades: Its unique reactive bonding mechanism unlocks opportunities in high-value fields like semiconductor substrates and advanced adsorption materials, while promoting low-carbon transformation across waste management, energy, and construction sectors.
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