On June 13, the 17th SNEC PV+ (2024) International Solar Photovoltaic and Smart Energy Conference & Exhibition was grandly opened at the National Exhibition and Convention Center (Shanghai). Times New Materials showcased its new product, the "Composite Material Photovoltaic Frame," at this exhibition.
This year’s SNEC exhibition is the largest in history, with over 3,600 companies from 95 countries and regions participating. The exhibition area spans 400,000 square meters, and the number of registered attendees exceeds 500,000. In addition, several themed forums will be held during the exhibition, where global mainstream photovoltaic companies and industry experts will gather in Shanghai. Over 5,000 industry professionals will attend to share and discuss the latest technologies and innovations in the fields of photovoltaics, energy storage, and hydrogen energy, contributing to the conversation on green development.
At the exhibition, TMT booth was bustling with activity, drawing attention from industry experts, media, and visitors who were eager to learn more.
Driven by the demand for lightweight photovoltaic module structures and the extreme environmental conditions of their application, the latest composite material photovoltaic frame developed by TMT demonstrates superior performance. Compared to traditional metal frames, it boasts high strength and rigidity, capable of withstanding external loads and its own weight, effectively protecting solar module safety. Additionally, its excellent corrosion resistance and weather resistance ensure the frame maintains stable performance in harsh environments, extending the lifespan of the photovoltaic frame.
Furthermore, especially in applications involving harsh environments such as marine and wastewater treatment plants, the composite material photovoltaic frame’s superior corrosion resistance and salt mist resistance make it an ideal choice for offshore photovoltaic installations. Its high yield strength, resistance to backglass breakage, and low carbon emissions further enhance its value in the photovoltaic field.
