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    • 2. 发明专利
    • Alumina-magnesia monolithic refractory for microwave drying and its application method
    • 用于微波干燥的ALUMINA-MAGNESIA单晶耐火材料及其应用方法
    • JP2005194110A
    • 2005-07-21
    • JP2003435430
    • 2003-12-26
    • Kurosaki Harima CorpNippon Steel Corp新日本製鐵株式会社黒崎播磨株式会社
    • ITOSE SHIYOUICHITAIRA HATSUONAKAMURA HISASHI
    • C04B35/66F27D1/00
    • PROBLEM TO BE SOLVED: To provide a monolithic refractory which is dried highly efficiently by microwave drying, has corrosion resistance inherent in an alumina-magnesia material, and hence is very effective in improving the furnace operation rate by application time shortening/lining life extension and the like, reducing standard physical units of refractory, and decreasing the number of times of repairing a lining, and so on. SOLUTION: The alumina-magnesia monolithic refractory for microwave drying is dried by the irradiation with a microwave after slip casting application and contains a refractory material mainly comprising a magnesia raw material and an alumina raw material, a binder, and a dispersant. As a coarse grain section of the alumina material, electrofused alumina containing 2-5 mass% TiO 2 in terms of a chemical component value is used. COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了提供通过微波干燥高效干燥的整体耐火材料,具有氧化铝 - 氧化镁材料中固有的耐腐蚀性,因此通过施加时间缩短/内衬提高炉的操作速度非常有效 寿命延长等,减少耐火材料的标准物理单位,减少修理衬里的次数等。 解决方案:用于微波干燥的氧化铝 - 氧化镁整体耐火材料在滑移浇铸后通过微波照射被干燥,并且包含主要包含氧化镁原料和氧化铝原料,粘合剂和分散剂的耐火材料。 作为氧化铝材料的粗颗粒部分,使用以化学成分值计含有2-5质量%TiO 2 SB SB2的电铸氧化铝。 版权所有(C)2005,JPO&NCIPI
    • 3. 发明专利
    • Hot casting repair material
    • 热铸造维修材料
    • JP2007302521A
    • 2007-11-22
    • JP2006133373
    • 2006-05-12
    • Kurosaki Harima CorpKyushu Refract Co LtdNippon Steel Corp九州耐火煉瓦株式会社新日本製鐵株式会社黒崎播磨株式会社
    • EJIRI TSUTOMUMATSUMOTO YUICHINAKAMURA HISASHIMATSUMOTO FUMIAKIASAHI TOSHIAKI
    • C04B35/66F27D1/16
    • PROBLEM TO BE SOLVED: To provide a hot casting repair material capable of forming a cast, without scattering, at an inclined site that needs to be repaired when thrown against the site under a situation where the operation rate is high and only a short time can be spared for repair. SOLUTION: From 5 to 30 pts.mass substance forming a carbon bond under heat and 0.1-5 pts.mass nonaqueous solvent are compounded with 100 pts.mass grain size-controlled basic refractory aggregate. The resulting composition enables moderate wetting of the basic refractory aggregate and the substance forming the carbon bond under heat by the nonaqueous solvent at compounding and kneading and results in coating of a coarse grain of the basic refractory aggregate with a fine powder. This prevents scattering of the fine powder when the composition is thrown into a furnace and crashes into a high-temperature wall furnace and enables the composition to retain the designed grain size composition and stay at the site to exert a shape retention property. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了提供一种能够在运行速率高的情况下在与现场相撞时在需要修理的倾斜部位形成铸件的热铸造修补材料,并且只有 短暂的时间可以免去维修。 解决方案:在加热下形成碳键的5至30点物质和0.1-5质子非水溶剂与100粒子粒度控制的基本耐火骨料混合。 所得到的组合物能够在混合和捏合时使碱性耐火骨料和加热下形成碳键的物质适度润湿,并且导致用细粉末涂覆碱性耐火骨料的粗粒。 当防止组合物投入炉内并撞击到高温壁炉中时,能够防止细粉末飞散,能够使组合物保持设计的粒度组合物并停留在现场以发挥形状保持性。 版权所有(C)2008,JPO&INPIT
    • 5. 发明专利
    • Method for heating agglomerates
    • 加热助剂的方法
    • JP2012082495A
    • 2012-04-26
    • JP2010231516
    • 2010-10-14
    • Nippon Steel Corp新日本製鐵株式会社
    • SUGIBASHI ATSUSHITAIRA HATSUOONUKI KAZUOHARADA HIROSHIAOKI RIICHINAKAMURA HISASHI
    • C21B13/10C22B1/16C22B1/24C22B5/10
    • PROBLEM TO BE SOLVED: To provide a method for heating agglomerates, capable of further reducing uneven heating of the agglomerates while suppressing increase in device cost and operation cost.SOLUTION: The method for heating agglomerates for heating agglomerates molded by mixing iron oxide raw material and a reductant in a solid reduction furnace includes: a radiation heating step of heating the agglomerates charged in the solid reduction furnace by the radiation heat of a burner provided in the solid reduction furnace; and a microwave heating step of heating the agglomerates at a position where the agglomerates reach a predetermined temperature inside the solid reduction furnace by irradiating the agglomerates with microwaves having a specific microwave output for a specific irradiation time by a microwave oscillation device provided in the solid reduction furnace.
    • 要解决的问题:提供一种加热附聚物的方法,能够进一步减少凝聚体的不均匀加热,同时抑制装置成本和操作成本的增加。 解决方案:用于加热用于加热通过在固体还原炉中混合氧化铁原料和还原剂而成型的附聚物的附聚物的方法包括:辐射加热步骤,通过辐射加热固体还原炉中的附聚物, 设置在固体还原炉中的燃烧器; 以及微波加热步骤,通过在固相还原炉中设置的微波振荡装置,通过用特定的微波输出的微波照射附聚物,在凝固体在固体还原炉内部达到规定温度的位置加热附聚物 炉。 版权所有(C)2012,JPO&INPIT
    • 6. 发明专利
    • Iron raw material and manufacturing method therefor
    • 铁原料及其制造方法
    • JP2010196148A
    • 2010-09-09
    • JP2009045652
    • 2009-02-27
    • Nippon Steel Corp新日本製鐵株式会社
    • SATO TAKENORINAGAI WATARUNAKAMURA HISASHI
    • C21B13/10C21C5/28C21C5/36C21C5/54C22B1/16C22B1/242
    • Y02P10/216
    • PROBLEM TO BE SOLVED: To efficiently restrain the wear of MgO-series refractory lined on a melting furnace. SOLUTION: An iron raw material for charging into the melting furnace is contained multiple oxide composed of MgO-FeO, and the melting point of this multiple oxide composed of MgO-FeO is lower compared with MgO alone. Therefore, this melting speed of MgO into slag can be made large compared with a case where MgO is added alone. Further, even in the case of directly charging the iron raw material from the upper part of the melting furnace without using a lance, the iron raw material is surely reached into the slag without flowing out to waste gas-recovering side. Therefore the wear of the MgO-series refractory lined on the melting furnace can further effectively be restrained. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:有效地抑制在熔炉上衬里的MgO系耐火材料的磨损。 解决方案:用于装入熔炉的铁原料含有由MgO-FeO组成的多重氧化物,由MgO-FeO组成的多重氧化物的熔点比单独的MgO低。 因此,与单独添加MgO的情况相比,可以使MgO向熔渣中的熔融速度变大。 此外,即使在不使用喷枪的情况下从熔融炉的上部直接对铁原料进行充填的情况下,铁原料可靠地进入炉渣而不流出到废气回收侧。 因此,能够进一步有效地抑制在熔融炉上排列的MgO系耐火材料的磨损。 版权所有(C)2010,JPO&INPIT
    • 7. 发明专利
    • Method of repairing lining of reduction furnace
    • 修复减少炉内衬的方法
    • JP2011208883A
    • 2011-10-20
    • JP2010077378
    • 2010-03-30
    • Hirohata Furnace Co LtdNippon Steel Corp新日本製鐵株式会社株式会社広築
    • NAKAMURA HISASHIMAEDA KAZUOMATSUBARA TAKEYOSHIIMAMURA SHIGERU
    • F27D1/16
    • PROBLEM TO BE SOLVED: To provide a method of repairing lining suitable for a reduction furnace, which repairs the lining of high durability and rapidly recovers an operation in the reduction furnace having severe in-furnace environment.SOLUTION: In this method of repairing the lining of the reduction furnace lined with a refractory, an opening 6 is formed by removing the refractories 3', 4' of a range including a lining damage section 5 with a shell 2' of the reduction furnace 1 in hot condition, a heat-resisting plate member 7 is inserted from a furnace outer side of the opening section 6 to close the opening section 6 from an furnace inner side, the heat-resisting plate member 7 is retained on a position at the in-furnace side of the opening section 6, a fibrous refractory 8 is spread on at least a heat-resisting plate member 7 side in the opening section 6, and then a monolithic refractory 9 is charged into a void space in the opening section 6.
    • 要解决的问题:提供一种修复适用于还原炉的衬里的方法,其修复具有高耐久性的衬里,并且在具有严格的炉内环境的还原炉中快速恢复操作。解决方案:在这种修复衬里的方法中 通过将还原炉1的外壳2'处于热状态的包括衬里损伤部5的范围的耐火材料3',4'除去形成开口6,耐热性 板构件7从开口部6的炉外侧插入,从炉内侧封闭开口部6,将耐热板构件7保持在开口部6的炉内侧的位置 在开口部6的至少耐热板构件7侧铺展纤维耐火材料8,然后将整体耐火材料9装入开口部6的空隙部。
    • 8. 发明专利
    • Preheating method of immersion nozzle for continuous casting, and continuous casting method
    • 连续铸造浸渍喷嘴预热方法及连续铸造方法
    • JP2009233729A
    • 2009-10-15
    • JP2008085932
    • 2008-03-28
    • Nippon Steel Corp新日本製鐵株式会社
    • NAKAMURA HISASHIKONNO TOSHIHIROMIFUNE KAZUYUKIITO SATOSHITAMURA YOSHIHIROMATSUI TAIJIRO
    • B22D11/10B22D41/54
    • PROBLEM TO BE SOLVED: To provide a preheating method of an immersion nozzle for continuous casting which is satisfactory in thermal efficiency and in which satisfactory steel quality can be obtained, and a continuous casting method.
      SOLUTION: In the preheating method of the immersion nozzle for continuous casting for previously heating, prior to pouring, the immersion nozzle for pouring molten steel from a tundish of a continuous casting machine, induction heating by an induction coil is required to be performed under an inert gaseous atmosphere. Preferably in this case, induction heating is performed by the induction coil disposed near the inner and outer surfaces of the immersion nozzle, and the immersion nozzle has a gas blowing section composed of porous body refractories including carbon, and the other nozzle body surface exclusive of the gas blowing section is covered with an antioxidant.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供热效率良好并且可以获得令人满意的钢质的连续铸造浸渍式喷嘴的预热方法和连续铸造方法。 解决方案:在用于预先加热的连铸浸渍喷嘴的预热方法中,在浇注之前,用于从连续铸造机的中间包浇注钢水的浸渍喷嘴,需要通过感应线圈进行感应加热 在惰性气体气氛下进行。 在这种情况下,优选的是,通过设置在浸入式喷嘴的内表面和外表面附近的感应线圈进行感应加热,并且浸渍喷嘴具有由包括碳的多孔体耐火材料构成的气体吹送部分,而另一个喷嘴体表面不包括 气体吹入部分被抗氧化剂覆盖。 版权所有(C)2010,JPO&INPIT