HC Plastics News: In the 19th century, plastic was born, which is called one of the greatest inventions of mankind. But because white pollution is getting worse, plastic has become the "worst" invention. According to statistics, the annual global plastic waste is about 30 million tons, of which more than 8 million tons of plastic waste is directly discarded or passed through the river from the land, and the wind finally enters the ocean. The damage caused by plastic pollution to the marine environment far exceeds people's imagination. . Recently, at the final of the first “First Cup†Future Technology Innovation Competition held in Shenzhen, the team of the National Engineering Research Center of Engineering Plastics of the Institute of Physics and Chemistry of the Chinese Academy of Sciences demonstrated a degradable material in seawater, which can effectively solve the problem of marine plastic pollution. The project is also one of the 30 projects that will eventually win the prize. Inspired by biodegradable plastics Where does plastic waste come from? A plastic bag with breakfast at the fast food restaurant on the way to work, a parcel bag sent by the little brother at noon, or plastic granules in the shower gel during bathing, etc. In many unexpected places, everyone will make many Plastic garbage. In order to solve the problem of white pollution, the National Engineering Research Center of Engineering Plastics of the Institute of Physics and Chemistry of the Chinese Academy of Sciences has developed a kind of “biodegradable plasticâ€, which not only makes plastic products easy to use, but also “automatically disappears†after use. Ji Junhui, director and researcher of the National Engineering Research Center of Engineering Plastics, Institute of Physics and Chemistry, Chinese Academy of Sciences, told the reporter of the Chinese Journal of Science and Technology: "Biodegradable plastics are mostly polymer materials with ester bonds, and the molecular chains are relatively 'fragile', so they can be decomposed by many microorganisms in nature. Digest, eventually forming carbon dioxide and water that are harmless to the environment." Currently, commercially available biodegradable plastics include polylactic acid (PLA), polybutylene succinate (PBS) and copolyesters (PBAT), polycaprolactone (PCL), and polyhydroxyalkanoates. (PHA), etc. These materials have become recognized, green and fully biodegradable materials. They have gradually replaced polypropylene (PP), polyethylene (PE) and other non-degradable and non-degradable plastic products in many fields such as disposable packaging, mulch film and disposable tableware. . While solving the problem of white pollution on land, the increasingly serious pollution of marine plastics has attracted the attention of Ji Junhui. “Since 2016, the global coverage of marine plastic pollution has been overwhelming. Because we have a lot of experience in research and development of biodegradable plastics in the early stage, we immediately developed the idea of ​​developing seawater degradable materials. From the material point of view, there was no experience at home and abroad. Can learn from, but because we are doing degradable plastics, we feel that this matter is obligated to complete." Ji Junhui said. Technological innovation to achieve marine degradation After determining the direction of the development of seawater degradable materials, Wang Gexia, a senior engineer at the Institute of Physics and Chemistry of the Chinese Academy of Sciences, conducted a systematic research work. Through multiple trials, they found that materials with good biodegradability in soil and compost did not degrade in seawater. Wang Gexia said: "We thought this was an easy task. We could adapt the biodegradable material to the marine environment, but the reality was a cold water." This is how it happened? After careful study, Wang Gexia found the answer. “The composting process of polyester material is an enzymatic hydrolysis reaction under the action of microorganisms; while the seawater temperature is low, the specific microbial species are few, the quantity is small, and it is difficult to have biodegradation conditions, so most polyester materials have a very long degradation cycle in seawater. Slow, even difficult to degrade." Wang Gexia said that different regions of seawater have great differences in different periods. It is hoped that the materials can be completely degraded in a controlled cycle. It is impossible to rely solely on the biodegradation process. The problem we face is to solve the problem of refractory and non-degradable water in existing materials, and to meet certain application performance and environmental adaptability according to different application requirements. After repeated experiments, Wang Gexia and team members successfully came out of this dilemma. Starting from molecular design and two-phase synthesis, they introduced non-enzymatically hydrolyzed groups into biodegradable polyester systems through polymer synthesis modification and blend modification to achieve overall controllable degradation of materials in seawater. . “Now we can develop seawater degradable materials that can disintegrate or degrade in different cycles from several minutes to several hundred days. Its degradation cycle and degradation mode can be adjusted according to different application requirements. In the future, we hope that this material will degrade. Can be intelligent." Wang Gexia said. The application market has broad prospects Since 1999, it has been involved in the research of degradable plastics. After nearly 20 years of accumulation, the National Engineering Research Center of Engineering Plastics has independently developed one-step PBS/PBAT polymerization technology through technology transfer, and has completed 4 enterprise technology licenses, of which 3 are successful. Put into production, the total production capacity of 75,000 tons, accounting for 55% of the world's 126,000 tons. “During the 2008 Beijing Olympic Games, the biodegradable environmental protection bags tailored for the Olympic Center Park have now formed a relatively mature and stable degradable plastics industrial chain, which also laid a solid foundation for the industrialization of seawater degradable materials. Ji Junhui told reporters. Wang Gexia said that in the future, seawater degradable materials can replace existing disposable plastic products, especially during long-distance navigation, which can effectively solve the problem of plastic waste disposal and reduce the pollution of garbage to the sea. In addition, special functionalized process degradation materials can also be used in information security, energy supply, aquaculture and other fields. Ji Junhui said: "From the automotive modified plastics to the research and development of antibacterial materials for home appliances, we have accumulated a lot of experience in industrial transformation. We now have not only technology, but also production lines, and the future industrialization path of seawater degradable materials is good. Although short-term The internal production cost will be higher than that of ordinary plastics, but when the raw materials, processes, and production scale reach a certain level, the cost will definitely fall." Ji Junhui also said that the "plastic limit order" can not solve the white pollution problem from the source, and the degradable plastic is to solve the fundamental problem from the source of the material. "Plastic pollution prevention is a problem that benefits the whole society. We can't just let consumers pay for it. We hope that the government and society will take responsibility." Ji Junhui said. Editor in charge: Yao Chunlin The application of Si3N4 ceramics on automotive engines has opened up a new dimension for the development of new high-temperature structural materials. The automobile industry itself is a multidisciplinary industry that integrates all kinds of science and technology. China is an ancient civilization with a long history. It has made brilliant achievements in the history of ceramic development. With the progress of reform and opening up, one day, China also It is bound to be among the world's major auto industry countries, creating new glory for the development of ceramics. Silicon Nitride Ceramic Bar,Aluminum Ceramic Round Rod,Industrial Silicon Nitride,Silicon Nitride Ceramic Rod SHENZHEN HARD PRECISION CERAMIC CO.,LTD , https://www.hardcm.com