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    • 3. 发明授权
    • Composite bearing structure
    • 复合轴承结构
    • US5675201A
    • 1997-10-07
    • US295623
    • 1994-08-24
    • Osamu KomuraTetsuya KatayamaAkira YamakawaKenji MatsunumaNorio YasuokaMatsuo HiguchiMasaya Miyake
    • Osamu KomuraTetsuya KatayamaAkira YamakawaKenji MatsunumaNorio YasuokaMatsuo HiguchiMasaya Miyake
    • F16C17/02F16C32/00F16C32/04F16C33/10F16C33/24F16C39/06H02K7/08H02K7/09
    • F16C32/0427F16C17/107F16C32/0431F16C33/107F16C39/063
    • A composite bearing structure that has a high rotational accuracy and that can withstand high-speed rotation comprises first bearing means, second bearing means, third bearing means and fourth bearing means. The first bearing means supports a radial impact force which is applied to a rotator during rotation, and is formed by an inner ring (1) and an outer ring (2) consisting of silicon nitride ceramics sintered bodies. The second bearing means supports an axial load which is applied to the rotator while maintaining a prescribed clearance with the rotator, and is formed by a magnetic bearing body of two permanent magnets (12) and (13) which are thrust-directionally opposed to each other. The third bearing means maintains the radial rotational accuracy of the rotator, and is formed by a radial dynamic pressure producing groove (5) which is formed in a cylindrical surface of the inner ring (1). The fourth bearing means maintains the thrust-directional rotational accuracy of the rotator, and is formed by an air dome portion (100) which is confined in a semi-closed state by the inner ring (1), the outer ring (2) and a cover (4).
    • PCT No.PCT / JP94 / 00002 Sec。 371日期:1994年8月24日 102(e)日期1994年8月24日PCT 1994年1月4日PCT PCT。 公开号WO94 / 16233 PCT 日期1994年7月21日具有高旋转精度并能承受高速旋转的复合轴承结构包括第一轴承装置,第二轴承装置,第三轴承装置和第四轴承装置。 第一轴承装置支撑在旋转期间施加到旋转器的径向冲击力,并且由内环(1)和由氮化硅陶瓷烧结体组成的外圈(2)形成。 第二轴承装置支撑轴向载荷,该轴向载荷与旋转体保持规定的间隙,并且由两个永磁体(12)和(13)的磁轴承体形成,该永磁体与每个 其他。 第三轴承装置维持旋转体的径向旋转精度,并且由形成在内圈(1)的圆柱形表面中的径向动压产生槽(5)形成。 第四轴承装置保持旋转体的推力定向旋转精度,并且由内圈(1),外圈(2)和外圈(1)限定在半闭合状态的空气圆顶部(100)形成, 盖(4)。
    • 6. 发明授权
    • High strength silicon nitride sintered body and process for producing
same
    • 高强度氮化硅烧结体及其制造方法
    • US5328876A
    • 1994-07-12
    • US995703
    • 1992-12-23
    • Takao NishiokaAkira KuibiraKenji MatsunumaYoshishige TakanoMatsuo HiguchiMasaaki HondaMasaya Miyake
    • Takao NishiokaAkira KuibiraKenji MatsunumaYoshishige TakanoMatsuo HiguchiMasaaki HondaMasaya Miyake
    • C04B35/597C04B35/58
    • C04B35/597
    • A high-strength silicon nitride sintered body having a flexural strength of 100 kg/mm.sup.2 or higher and a process for producing the same are disclosed, the sintered body comprising not less than 90% by weight of a single crystalline phase of silicon aluminum oxynitride (Si.sub.6-z Al.sub.2 O.sub.z N.sub.8-z, wherein z is a number of from 0 to 4.2) having an average longer diameter of not more than 5 .mu.m and an aspect ratio of not less than 5, the crystal phase constituting a network structure in the sintered body, the balance being a crystalline or amorphous (glassy) phase comprising one or more of oxides or oxynitrides of a rare earth metal, a group 3A metal, a group 2A metal or Si, and the process comprising mixing silicon nitride powder, an organic metal salt as a first sintering aid, and at least one of a metal oxide, a metal nitride, and a metal oxynitride as a second sintering aid, either separately or as a mixture of two or more thereof, with a solvent and a surface active agent, subjecting the mixture or mixtures to ultrasonic dispersion, mixing the mixtures together followed by drying to obtain a mixed powder, molding the mixed powder, and sintering the molded article at a temperature of from 1,600.degree. C. to 2,200.degree. C. in a non-oxidative atmosphere.
    • 公开了一种弯曲强度为100kg / mm 2以上的高强度氮化硅烧结体及其制造方法,所述烧结体包含不小于90重量%的氮化硅铝的单晶相( Si6-zAl2OzN8-z,其中z为0-4.2的数),平均长度不大于5μm,纵横比不小于5,构成烧结体网状结构的晶相 余量为包含稀土金属,3A族金属,2A族金属或Si族的氧化物或氮氧化物中的一种或多种的结晶或无定形(玻璃质)相,并且该方法包括将氮化硅粉末,有机金属 盐作为第一烧结助剂,以及作为第二烧结助剂的金属氧化物,金属氮化物和金属氮氧化物中的至少一种,分别地或作为其两种或多种的混合物与溶剂和表面活性剂 对混合物进行处理 或与超声分散体的混合物,将混合物混合在一起,然后干燥以获得混合粉末,模塑混合粉末,并在非氧化性气氛中在1600℃至2200℃的温度下烧结该模制品。
    • 8. 发明授权
    • Silicon nitride sintered body and process for producing the same
    • 氮化硅烧结体及其制造方法
    • US5275772A
    • 1994-01-04
    • US957506
    • 1992-10-05
    • Takehisa YamamotoTakao NishiokaKenji MatsunumaAkira YamakawaMasaya Miyake
    • Takehisa YamamotoTakao NishiokaKenji MatsunumaAkira YamakawaMasaya Miyake
    • C04B35/593C04B35/597C04B35/58
    • C04B35/5935C04B35/597
    • The present invention relates to a silicon nitride sintered body [wherein the composition of Si.sub.3 N.sub.4 -first aid (Y.sub.2 O.sub.3 +MgO)-second aid (at least one of Al.sub.2 O.sub.3 and AlN)] falls within a range defined by lines joining points A, B, C and D in FIG. 1, the crystal phase of the sintered body contains both .alpha.-Si.sub.3 N.sub.4 and .beta.'-sialon, and the relative density is 98% or more. This sintered body is produced by subjecting a green compact of the above-described source to primary sintering in a nitrogen gas atmosphere at 1300 to 1700.degree. C. so that the relative density reaches 96% or more, and the precipitation ratio of the .alpha.-Si.sub.3 N.sub.4 crystal phases to the .beta.'-sialon crystal phase in the sintered body is in the range of from 40:60 to 80:20; and then subjecting the primary sintered body to secondary sintering in a nitrogen gas atmosphere at 1300 to 1700.degree. C. so that the relative density reaches 98% or more. The sintered body has superior strength properties, especially at ordinary temperatures, and can be produced with a high productivity in a high yield at a low cost.
    • 本发明涉及一种氮化硅烧结体[其中,Si 3 N 4 - 急救(Y 2 O 3 + MgO) - 辅助剂(Al 2 O 3和AlN中的至少一种)的组成]落在由连接点A,B, C和D。 如图1所示,烧结体的结晶相含有α-Si 3 N 4和β'-Sialon,相对密度为98%以上。 该烧结体是通过使上述源的生坯在1300〜1700℃的氮气气氛中进行一次烧结而制成的,使得相对密度达到96%以上, Si3N4晶相与烧结体中的β' - 赛隆结晶相的比例范围为40:60至80:20; 然后在1300〜1700℃的氮气气氛中使一次烧结体进行二次烧结,使得相对密度达到98%以上。 该烧结体具有优异的强度特性,特别是在普通温度下,可以低成本高产率地以高生产率生产。