Eco-Acrylic Breakthrough: 93.2% Transmittance, 35% Carbon Cut

In an era of continuous deepening in materials technology, our company is proud to announce the official launch of our independently developed new-generation eco-friendly acrylic sheets. This breakthrough product not only achieves industry-leading performance in core metrics such as light transmittance and impact resistance but also reduces full-life-cycle carbon emissions by 35% through biobased raw material formulation and closed-loop production processes, marking a significant stride in our green materials innovation journey.

As one of the few domestic enterprises mastering improved continuous bulk polymerization technology, our R&D team has achieved a light transmittance of 93.2% after 18 months of research and development, while enhancing impact resistance by 40% compared to traditional products through nanoparticle doping technology. Notably, the new product uses 30% biobased methyl methacrylate (MMA), extracted from corn starch via microbial fermentation, reducing fossil energy consumption by 42% compared to traditional petroleum-based raw materials. In production, we innovatively applied a "gradient decompression - stepwise temperature control" polymerization process with intelligent flow regulation, achieving a melt loss rate below 8%, while a waste heat recovery system reduces comprehensive energy consumption by 25%.

This material has already been validated in multiple high-end applications. In a Shanghai international commercial complex project, our customized 180mm-thick light-transmitting signage system, with precise color rendering (Pantone color matching error <1.5%) and excellent weather resistance, has remained yellowing-free outdoors for three years. In a similar project at Singapore Changi Airport, our 50mm-thick curved viewing platform, after heat bending with a curvature error controlled within ±0.3mm, successfully withstands a daily stepping load of 3,000 people.

"Material innovation is essentially a deep response to needs," said our Chief Technical Officer. "We observe growing demands for material functionality in sectors like consumer electronics and medical devices, so we've integrated special features like self-healing and anti-static properties into the new product. For example, a superhydrophobic coating via surface grafting achieves a contact angle of over 150°, making it ideal for precision instrument protection."

To align with China's "Double Carbon" strategy, we have also established an acrylic closed-loop recycling system. Through chemical recycling, waste sheets are converted into high-purity MMA monomers, currently achieving a 30% raw material recycling rate. This achievement has received key support from a Ministry of Housing and Urban-Rural Development research project and is driving the formulation of standards like fatigue testing for architectural organic glass.

Industry forecasts indicate a 5.2% CAGR for the global acrylic sheet market from 2025-2030, with China's market growth expected to lead globally driven by consumption upgrading and industrial transformation. We plan to increase biobased product proportion to 50% within two years and adopt a "coastal R&D + inland manufacturing" dual-base layout for rapid response to domestic and international markets.

The product series has obtained EU CE certification and UL Yellow Card certification, with the first 500-ton orders scheduled for North America and Southeast Asia by the end of this month. We invite industry partners to jointly explore acrylic applications in emerging fields like smart dimming glass and building-integrated photovoltaics.