HC Plastics News:
Fraunhofer's 72 institutes, as Europe's leading applied research organization, are investigating sustainable alternatives to new terpene high performance plastics found in resins. Fraunhofer researchers are using a new catalytic process to convert lenene into 100% pure bio-based plastics that are transparent and have high thermal stability.
The Fraunhofer Institute is dedicated to the production of bio-based polyamides
Endene is a natural substance and is a component of turpentine. Turpentine is a waste of cellulose produced from wood. Conifers such as pine, larch or spruce provide natural substances. The preparation of the pulp includes decomposition of the wood to separate the cellulose fibers and a large amount of separation of the terpenes as a by-product.
Researchers at the Fraunhofer branch participated in a joint project on “Building Blocks of Terpene Bio-Based Polyamidesâ€, which successfully optimized the synthesis of lactams from enriches and converted them into scalable, competitive the process of. Can be used for industrial scale production. Experts believe that terpenes such as terpenes and limonene are suitable raw materials for the synthesis of biolactams and are the basic raw materials for the production of polyamides.
The Raunhofer Association is Germany and Europe's largest applied scientific research institution. It was founded on March 26, 1949 and named after German scientist, inventor and entrepreneur Joseph Fraunhofer. Unlike the Mark Planck Research Association, the Fraunhofer Institute is dedicated to industrial application technology research. In particular, focus on shaping technology, designing new products, improving hygiene, communication, safety, energy saving, environmental protection and other production methods and technologies.
The development of polymers with lower environmental impacts presents a huge opportunity for plastics producers. The global market for growing materials based on renewable resources and meeting stringent physical, chemical and mechanical properties is growing. In many applications, bio-based plastics have been able to replace some of the plastics based on petrochemical feedstocks, which has greatly facilitated the sustainable management of resources. According to market data compiled by the European Bioplastics Association and research institutes, the global bio-based plastics capacity will increase from about 2.05 million tons in 2017 to about 2.44 million tons in 2022.
From the actual production of bio-based plastics and regional production capacity, Asia is becoming the largest production center for bio-plastics and will further expand its global leadership. As an important category in bio-based plastics, the development of bio-based plastics has grown by leaps and bounds, with continuous advances in new material development and performance improvements. At present, a variety of bio-based plastics have entered the stage of commercial application, and the development prospects are very optimistic. 
Editor in charge: Yao Chunlin
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