Battery and electric vehicle materials innovation: Langson shows its material in the advanced lithium battery, China Extrusion Line

Date:2022-8-08 Author:Sam

Langson produces high -tech plastic Durethan and Pocan in Krefeld base in Germany, which are specially used in the automotive and electronics industry. Langson produces high -tech plastic Durethan and Pocan in Krefeld base in Germany, which are specially used in the automotive and electronics industry. Recently, Langson, a special chemical company, debuted at the Stugart Battery Exhibition, Germany for the first time in Langson, a special chemical company. At this exhibition, Langsheng focused on the raw materials and compounds provided by the lithium battery and electric power assembly components. \”Langson provided a large number of products and materials on the entire battery value chain,\” said Dr. Wolfgang ebenbeck from the Electric Vehicle and Battery Materials expert from the Functional Department of the Langson Enterprise Development Group. \”Our product portfolio includes raw materials for synthetic lithium chemicals, flame retardants to extract high -purity nickel and cobalt compounds and products applied to cathode materials, as well as high -tech gathering applied to battery and electric power assembly components Amide and polyester. \”In a promotional video played by the booth, Langson showed the potential applications of its materials in advanced lithium batteries, as well as applications widely involved in the company’s raw materials. Electric vehicles promote the development of lithium batteries to play a key role in advanced technology solutions in electric vehicles, energy storage and consumer electronics. Especially the trend of electric vehicles is promoting large -scale production investment in batteries. In Europe alone, it is planned to be built in 2025 battery factories with an annual output of more than 100 gigresses/hour. At the Battery Expert Forum held in April 2019, the P3 Group predicts that the cost of lithium battery systems by 2020 will drop significantly, and battery -driven vehicles will compete with internal combustion engine cars. The application potential of thermoplastic plastic in the battery is huge in the development of custom polyamide and polybenal ampanoltanols under the Dalthan and POCAN brands for lithium batteries and electric power Components of assembly and charging infrastructure. \”Battery exhibition provides us with opportunities to contact international battery manufacturers directly, showing the advantages of our thermoplastic plastic, such as design in terms of reducing cost, functional integration, flame retardant performance, thermal conductivity and lightweight. Due to us Over the years, it has jointly carried out business with the electrical and automotive industry. Our materials have met the most important global standards of the electrical and electronics industry, and most of them have been applied to automobiles. \” Anika Van Aaken explained that the team provides support for the project of the entire electric vehicle plastic component development chain as a partner. The potential applications of Langson thermoplastic plastic in the battery include: module cover and partitions, high -voltage connectors, shell parts, battery brackets, pads, module lids and power cords of the control unit. BatteryAn example of material innovation is the easy -to -flow Durethan BKV45FN04, which is characterized by 45%of glass fiber enhanced materials. Handalogless flame retardant polyam 6 passed the UL 94 flame-retardant test of UnderWroters Laboratories Inc., UNDERWRITERS LABORITORITORIERIES Inc.. Its optimal level is V-0 (0.4 mm), and it has a pillar resistance of leakage resistance under high voltage. Because of its stiffness and strength, it makes it an ideal choice for battery structure components -such as battery framework and endboard, which is also suitable for high -voltage connectors. More sufficient capacity, faster charging, and longer charging cycle Langson’s materials are especially the \”heart\” of lithium batteries -the battery directly or indirectly improves the performance of the battery. For example, the iron oxide pigment Bayode E B is the precursor of the production of lithium iron phosphate (LFP) for carbon thermal reduction method. This kind of cathode activity is characterized by long service life, and it can quickly charge the battery at high charging current. Using the Rhenofit CNT-4 can increase the battery capacity and the number of charging cycles. This product involves the dispersion of carbon nanotubes that can be used for yin and yang poles. Over the years, Lewater ion exchange resin products have been fully affirmed in the extraction and production of battery -grade nickel and cobalt, as well as the purification of high -purity lithium. These three metals are the key components for cathode materials for electric vehicle batteries today. The electrolyte raw material Langson is one of the leading hydrofluoric acid and trichlorine producer. These are two key materials for the production of lithium hexifluoro (LIPF6). It is a standard conductive salt used in the electrolytes of lithium batteries. \”The significant improvement of European lithium battery production capacity will also greatly enhance the market’s demand for this electrolyte component. Langson can use these two key materials to ensure the supply of European LIPF6 and electrolyte production,\” EbenBeck said. Langson with lithium battery lithium believes that Langson is in a favorable position in the growth of global battery chemicals on lithium demand. Langson plans to cooperate with the Canadian Standard Lithium company to extract lithium applicable to batteries from Langson in the production base of Erdorodo in Akrust, USA to produce bromine products. Standard Lithium provides an innovative technology for extraction of high -purity lithium directly from bromine saline. The project is currently in the stage of technical and economic feasibility review.