谢历：陶瓷封装浇注料在高温电磁线圈上的应用



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                      Application of Ceramic Encapsulated Castable in High-Temperature

                                                 Electromagnetic Coils

                                                           XIE Li

                  (State Key Laboratory of Special Cables, Shanghai Electric Cable Research Institute Co., Ltd., Shanghai 200093, China)

                       Abstract:  With  nano  alumina  and  a  small  amount  of  nano  silica  as  the  main  raw  materials,  the  ceramic
                  encapsulated  castable  was  prepared  by  nano  particle  surface  modification  process.  The  structure,  thermal  stability
                  and encapsulation properties of the ceramic encapsulated castable were studied. The electromagnetic wire and ceramic
                  skeleton were encapsulated with the ceramic encapsulated castable and were calcined at 550 ℃. The insulation properties
                  and voltage resistance of the encapsulated electromagnetic coil were studied. The results show that after calcination at
                  800 ℃, the solvent in the ceramic encapsulated castable volatilized, the organic dispersant and the binder decomposed,
                  and the structure of the main component including nano alumina and silica inorganic materials basically did not change;
                  the  ceramic  encapsulated  castable  had  a  high  temperature  resistance  grade.  After  calcination  at  550 ℃,  the  ceramic
                  encapsulated castable was closely combined with the quartz fiber of electromagnetic wire and with the ceramic skeleton
                  to form a complete packaging structure. The electromagnetic coil with ceramic encapsulated castable could withstand
                  the voltage of more than 2 000 V at room temperature, and the insulation resistivity after aging at 550 ℃ for 100 h was
                        8
                  8.5×10  Ω · m; the encapsulated electromagnetic coil showed good voltage resistance and insulation performance.
                       Key words: ceramic encapsulated castable; electromagnetic coil; ceramic skeleton; thermal stability; insulation
                  property


























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