Basf corporation private company information – bloomberg static electricity in the body

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BASF Corporation manufactures and supplies basic chemicals and intermediates ranging from solvents, plasticizers, and monomers to glues and electronic chemicals, as well as raw materials for detergents, plastics, textile fibers, paints and coatings, plant protection, and pharmaceuticals. The company also provides petrochemicals, monomers, and intermediates; vitamins and food additives, as well as ingredients for pharmaceuticals, hygiene, home, and personal care; other products for the paper industry, oil and gas production, mining, and water treatment; and dispersions and pigments, care chemicals, nutrition and health products, paper chemicals, and performance chemicals. In addition, it offe…

BASF Corporation manufactures and supplies basic chemicals and intermediates ranging from solvents, plasticizers, and monomers to glues and electronic chemicals, as well as raw materials for detergents, plastics, textile fibers, paints and coatings, plant protection, and pharmaceuticals. The company also provides petrochemicals, monomers, and intermediates; vitamins and food additives, as well as ingredients for pharmaceuticals, hygiene, home, and personal care; other products for the paper industry, oil and gas production, mining, and water treatment; and dispersions and pigments, care chemicals, nutrition and health products, paper chemicals, and performance chemicals. In addition, it offers functional materials and solutions, such as catalysts, battery materials, engineering plastics, polyurethane systems, automotive and industrial coatings, concrete admixtures, and construction systems; and performance materials for automotive, electrical, chemical, and construction industries, as well as for household applications, and for sports and leisure. Further, the company engages in the exploration and production of oil and gas. Furthermore, it offers WorldAccount, a Web-based transaction and information platform; and analytics, eco-efficiency analysis, and technical services. It serves industries, such as aerospace, agriculture, automotive, chemicals, computer and electronics, construction, electrical equipment, feed, food and beverage, furniture, home, leather and apparel, machinery, mining, miscellaneous manufacturing, nonmetallic mineral products, oil processing, packaging, personal care, pharmaceutical, plastics product manufacturing, primary metal, printing and graphics, pulp and paper, rubber, textiles, transportation, utilities, wind energy, and wood. It has a strategic relationship with American Superconductor Corporation. The company was founded in 1865 and is headquartered in Florham Park, New Jersey. BASF Corporation operates as a subsidiary of BASF SE.

BASF and TriFusion Devices bring the strongest 3D printed thermoplastic carbon fiber definitive prosthetic socket to market that is easily customized to ensure the most comfortable fit for patients. The prosthetic, printed with BASF’s Ultramid® polyamide reinforced with short carbon fiber, is lightweight, yet tough and more flexible than traditional carbon fiber sockets. The definitive socket is made with thermoplastic material that enables small adjustments in increments of 2-3mm without weakening as needed throughout the life cycle of the prosthetic, a crucial development as a patient’s body changes over time. While traditional sockets do not easily accommodate modifications, BASF’s material allows changes to be made directly to the socket to ensure it always fits a patient comfortably. To ensure the sockets meet clinicians and patients’ expectations, the companies enlisted Anew Life Prosthetics and Orthotics, a Southeast Mich. based clinic, as a validation partner. BASF introduced Essentium to Chris Casteel, owner of Anew Life, to determine the fit and function of TriFusion 3D printed sockets. As a clinician, past manufacturing professional and amputee himself, Casteel works with patients to test the sockets and provide real-time feedback to Essentium and BASF on improvements to the 3D printing process and material selection. According to Casteel, patients shared that the test sockets fit like a glove and are overall more comfortable. A traditional carbon fiber socket typically takes three days of labor by a technician to mold and cast. The 3D printed socket streamlines the time- and resource-intensive production process to less than 24 hours from scan to ship. This allows for efficient order fulfillment, increased patient interface and profitability for clinicians. It also eliminates human error as the scan ensures the socket fit is close to correct the first time.