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PRODUCTSFocusing on the research and production of DETDA, DETDA-LC, DMTDA, and Sodium Silica products.
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BLOGSurvival through quality, reputation through quality, and development through quality.
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CONTACTPersist in technological innovation, provide high-quality products, and implement thoughtful services.
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Polyurethane: Technological Innovation for Low-Carbon Development
Release Time:
2025-04-27
As an important polymeric material, polyurethane has become a focus of attention both inside and outside the industry due to its technological innovation and low-carbon development.
With the increasing global emphasis on environmental protection and sustainable development, polyurethane, as an important polymeric material, has become a focal point of technological innovation and low-carbon development within and outside the industry. With its unique physical properties and wide range of applications, polyurethane plays an irreplaceable role in construction, automotive, textile, medical, and other industries. How to promote the low-carbon development of the polyurethane industry through technological innovation has become an important issue in the current industry development.
I. Basic Properties and Applications of Polyurethane Polyurethane, whose full name is polyurethanes, is a polymer material formed by the polycondensation reaction of polyol and polyisocyanate. It has excellent mechanical properties, wear resistance, oil resistance, and aging resistance, and also has good heat insulation, sound insulation, and shock resistance properties. These properties have led to the wide application of polyurethane in many fields, such as building insulation materials, automotive interiors, shoe soles, and medical devices.
II. Technological Innovation Promotes Low-Carbon Development of Polyurethane
1. Raw Material Innovation: The main raw materials of polyurethane include methylene diphenyl diisocyanate (MDI), toluene diisocyanate (TDI), and polypropylene glycol (PPG). In recent years, with the research and development and application of bio-based raw materials, more and more polyurethane companies have begun to try using renewable resources as raw materials, such as vegetable oils and waste biomass. The use of these raw materials not only reduces carbon emissions during the polyurethane production process but also improves the environmental performance of the products.
2. Production Process Innovation: Traditional polyurethane production processes have problems such as high energy consumption and large emissions. In order to reduce energy consumption and emissions during the production process, many companies have begun to explore new production processes. For example, using vacuum foaming technology instead of traditional foaming technology can not only improve production efficiency but also reduce energy consumption and emissions. In addition, some companies further reduce carbon emissions in the production process by optimizing production processes and using clean energy.
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