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  • 专利标题:   Thermal-resistant modified material comprises expanded polyethylene, polytetrafluoroethylene, carbon fiber, steel fiber, fluorine rubber powder, mineral wool fiber, graphene oxide, silicon dioxide and silane coupling agent KH550.
  • 专利号:   CN105907005-A
  • 发明人:   HU G
  • 专利权人:   ANHUI RONGDA VALVE CO LTD
  • 国际专利分类:   C08J007/04, C08K013/06, C08K003/34, C08K007/06, C08K009/02, C08K009/06, C08L023/06, C08L027/12, C08L027/18
  • 专利详细信息:   CN105907005-A 31 Aug 2016 C08L-027/18 201703 Pages: 5 Chinese
  • 申请详细信息:   CN105907005-A CN10473140 23 Jun 2016
  • 优先权号:   CN10473140

▎ 摘  要

NOVELTY - Thermal-resistant modified material comprises 15-20 pts. wt. expanded polyethylene (EPE), 80-90 pts. wt. polytetrafluoroethylene, 10-15 pts. wt. carbon fiber, 5-10 pts. wt. steel fiber, 5-10 pts. wt. fluorine rubber powder, 5-10 pts. wt. mineral wool fiber, 1-3 pts. wt. graphene oxide, 5-10 pts. wt. silicon dioxide, 15-20 pts. wt. silane coupling agent KH550, 5-10 pts. wt. calcium silicate, 30-40 pts. wt. 95% ethanol, acetic acid, 5-10 pts. wt. polyisocyanate JQ-1, 15-20 pts. wt. dimethylformamide, 10-15 pts. wt. 4-dimethylaminopyridine and 15-20 pts. wt. dicyclohexylcarbodiimide. USE - Thermal-resistant modified material. ADVANTAGE - The thermal-resistant modified material has high bonding strength and warm-keeping effect, and is prepared in cost-effective manner. DETAILED DESCRIPTION - Thermal-resistant modified material comprises 15-20 pts. wt. expanded polyethylene (EPE), 80-90 pts. wt. polytetrafluoroethylene, 10-15 pts. wt. carbon fiber, 5-10 pts. wt. steel fiber, 5-10 pts. wt. fluorine rubber powder, 5-10 pts. wt. mineral wool fiber, 1-3 pts. wt. graphene oxide, 5-10 pts. wt. silicon dioxide, 15-20 pts. wt. silane coupling agent KH550, 5-10 pts. wt. calcium silicate, 30-40 pts. wt. 95% ethanol, acetic acid, 5-10 pts. wt. polyisocyanate JQ-1, 15-20 pts. wt. dimethylformamide, 10-15 pts. wt. 4-dimethylaminopyridine, 15-20 pts. wt. dicyclohexylcarbodiimide and 90-100 pts. wt. water. The length of carbon fiber is 75-150 mu m, and steel fiber is 50-150 mu m. The particle size of fluorine rubber powder is 80-200 meshes. An INDEPENDENT CLAIM is included for a method for producing radiation-proof modified material, which involves: (A) mixing carbon fiber with 95% ethanol solvent; (B) subjecting obtained mixture ultrasonic dispersion; (C) adjusting pH of the obtained mixture to 4-5 by adding acetic acid; (D) adding obtained mixture with 10-15 parts silane coupling agent KH550 with stirring for 8-15 hours; (E) washing obtained mixture with deionized water, and then drying under vacuum to obtain dried mixture; (F) oxidizing graphene oxide to graphene peroxide in 95% ethanol solvent by glow discharge plasma technology; (G) adding oxidized mixture with dimethylformamide; (H) sonicating obtained mixture for 2-3 hours; (I) adding sonicated mixture with 4-dimethylaminopyridine, dicyclohexylcarbodiimide and dried mixture with stirring for 18-36 hours at room temperature; (J) washing obtained mixture with deionized water; (K) drying washed mixture under vacuum; (L) mixing dried mixture with polyisocyanate JQ-1 with mechanical stirring for 1-3 hours; (M) adding obtained mixture with polytetrafluoroethylene in high-speed mixer; (N) molding and sintering obtained mixture at 360-390 degrees C under air atmosphere to obtain mixture having 150-200mm diameter and 3-4mm thickness; (O) immersing mixture in coating solution for 4-8 minutes; (P) drying obtained mixture in oven at 80-100 degrees C; and (Q) sintering obtained mixture in muffle furnace at 120-200 degrees C for 10-30 minutes to obtain radiation-proof modified material.