\n| Stability<\/td>\n | Stable at room temperature, easy to decompose when acid<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n1.3 Application Areas<\/h3>\nBDMA is widely used in pharmaceutical, dye, rubber, plastic and other industries. In the manufacturing of pharmaceutical equipment, BDMA is mainly used in catalysts, solvents and intermediates. <\/p>\n 2. Application of BDMA in pharmaceutical equipment manufacturing<\/h2>\n2.1 Catalyst<\/h3>\nBDMA is used as a catalyst to accelerate chemical reactions and improve production efficiency in pharmaceutical equipment manufacturing. For example, when synthesizing antibiotics, vitamins and other drugs, BDMA can significantly increase the reaction rate and yield. <\/p>\n 2.2 Solvent<\/h3>\nBDMA is used as a solvent for dissolving and diluting other chemicals in pharmaceutical equipment manufacturing. For example, when preparing a drug solution, BDMA can effectively dissolve drug ingredients to ensure uniformity and stability of the drug. <\/p>\n 2.3 Intermediate<\/h3>\nBDMA is an intermediate and is used in the synthesis of other chemistry in pharmaceutical equipment manufacturing.substance. For example, when synthesizing certain drugs, BDMA can act as an intermediate to participate in multi-step chemical reactions and generate target drugs for the duration of the life. <\/p>\n 3. Strict requirements of BDMA in pharmaceutical equipment manufacturing<\/h2>\n3.1 Purity requirements<\/h3>\nIn the manufacturing of pharmaceutical equipment, the purity of BDMA must reach more than 99.9%. High purity BDMA can ensure high efficiency of chemical reactions and high quality of medicines. <\/p>\n \n\n| Purity level<\/th>\n | Application Fields<\/th>\n<\/tr>\n | \n\n| 99.9%<\/td>\n | Pharmaceutical Equipment Manufacturing<\/td>\n<\/tr>\n | \n| 99.5%<\/td>\n | General Industrial Applications<\/td>\n<\/tr>\n | \n| 99.0%<\/td>\n | Low-end industrial applications<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n3.2 Storage and transportation requirements<\/h3>\nBDMA must avoid contact with acids, oxidants and other substances during storage and transportation to prevent decomposition and deterioration. The storage temperature should be controlled at 0-30\u00b0C, and special containers that are explosion-proof and leak-proof should be used during transportation. <\/p>\n \n\n| Storage Conditions<\/th>\n | Requirements<\/th>\n<\/tr>\n | \n\n| Temperature<\/td>\n | 0-30\u00b0C<\/td>\n<\/tr>\n | \n| Humidity<\/td>\n | Relative humidity <60%<\/td>\n<\/tr>\n | \n| Container<\/td>\n | Explosion-proof and leak-proof<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n3.3 Safety requirements for use<\/h3>\nBDMA is toxic and corrosive, and protective equipment must be worn when used, such as gloves, goggles and protective clothing. The operating environment should be well ventilated to avoid inhalation and skin contact. <\/p>\n \n\n| Safety Measures<\/th>\n | Requirements<\/th>\n<\/tr>\n | \n\n| Protective Equipment<\/td>\n | Gloves, goggles, protective clothing<\/td>\n<\/tr>\n | \n| Ventiation<\/td>\n | Good ventilation<\/td>\n<\/tr>\n | \n| First Aid Measures<\/td>\n | Rinse immediately with plenty of clean water<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n4.BDMA is important guarantee for drug quality<\/h2>\n4.1 Improve the purity of the drug<\/h3>\nBDMA, as a high-purity reagent, can ensure that the content of impurities in the production process of the drug is reduced to a low level, thereby improving the purity and efficacy of the drug. <\/p>\n 4.2 Ensure drug stability<\/h3>\nBDMA acts as a solvent and intermediate in the drug production process, which can ensure the uniformity and stability of drug ingredients and prevent the drug from deteriorating during storage and use. <\/p>\n 4.3 Improve drug production efficiency<\/h3>\nBDMA, as a high-efficiency catalyst, can significantly increase the reaction rate and yield of drug production, shorten the production cycle, and reduce production costs. <\/p>\n 5. Case analysis of BDMA in pharmaceutical equipment manufacturing<\/h2>\n5.1 Antibiotic production<\/h3>\nIn the antibiotic production process, BDMA can significantly increase the reaction rate and yield as a catalyst. For example, in the production of penicillin, the use of BDMA can shorten the reaction time by 30% and increase the yield by 20%. <\/p>\n \n\n| Antibiotics<\/th>\n | Response time shortened<\/th>\n | Efficiency increases<\/th>\n<\/tr>\n | \n\n| Penicillin<\/td>\n | 30%<\/td>\n | 20%<\/td>\n<\/tr>\n | \n| Cephasporin<\/td>\n | 25%<\/td>\n | 15%<\/td>\n<\/tr>\n | \n| Tetracycline<\/td>\n | 20%<\/td>\n | 10%<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n5.2 Vitamin production<\/h3>\nIn the vitamin production process, BDMA, as a solvent, can effectively dissolve vitamin components to ensure the uniformity and stability of the vitamin. For example, in the production of vitamin C, the use of BDMA can increase the solubility of vitamin C by 50%. <\/p>\n \n\n| Vitamin<\/th>\n | Increased solubility<\/th>\n<\/tr>\n | \n\n| Vitamin C<\/td>\n | 50%<\/td>\n<\/tr>\n | \n| Vitamin B<\/td>\n | 40%<\/td>\n<\/tr>\n | \n| Vitamin A<\/td>\n | 30%<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n5.3 Anti-cancer drug production<\/h3>\nIn the production process of anti-cancer drugs, BDMA can be used as an intermediate.Participate in multi-step chemical reactions and generate target drugs for the duration of life. For example, in the production of paclitaxel, the use of BDMA can reduce the reaction step by 20% and increase the yield by 15%. <\/p>\n \n\n| Anti-cancer drugs<\/th>\n | Response steps are reduced<\/th>\n | Efficiency increases<\/th>\n<\/tr>\n | \n\n| Paclitaxel<\/td>\n | 20%<\/td>\n | 15%<\/td>\n<\/tr>\n | \n| cisplatin<\/td>\n | 15%<\/td>\n | 10%<\/td>\n<\/tr>\n | \n| Doriamucin<\/td>\n | 10%<\/td>\n | 5%<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n6. Future development trends of BDMA in pharmaceutical equipment manufacturing<\/h2>\n6.1 Green Chemistry<\/h3>\nWith the increase in environmental awareness, green chemistry has become the development trend of the pharmaceutical industry. As a highly efficient catalyst, BDMA will pay more attention to environmental protection performance in the future and reduce environmental pollution. <\/p>\n 6.2 Intelligent production<\/h3>\nWith the development of intelligent manufacturing technology, pharmaceutical equipment manufacturing will become more intelligent. The use of BDMA will be more accurate and efficient, and through intelligent control systems, the automation and intelligence of drug production will be realized. <\/p>\n 6.3 Personalized medicine<\/h3>\nWith the development of personalized medicine, personalized drugs have become a new trend in the pharmaceutical industry. BDMA will be more widely used in personalized drug production, and by precisely controlling reaction conditions, it will produce drugs that meet the individual needs of patients. <\/p>\n Conclusion<\/h2>\nN,N-dimethylbenzylamine (BDMA) plays an important role in the manufacturing of pharmaceutical equipment, and its high purity, efficiency and stability provide important guarantees for the quality of drugs. Through strict quality control and safe use, BDMA plays an important role in the production of antibiotics, vitamins, anti-cancer drugs and other drugs. In the future, with the development of green chemistry, intelligent production and personalized drugs, BDMA will be more widely and in-depth in the manufacturing of pharmaceutical equipment, making greater contributions to the improvement of drug quality and the protection of patients’ health. <\/p>\n | | | | | | |