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公开(公告)号:US08071064B2
公开(公告)日:2011-12-06
申请号:US12581209
申请日:2009-10-19
CPC分类号: C01B6/24 , C01B3/0031 , Y02E60/327 , Y10S420/90
摘要: State-of-the-art electronic structure calculations yield results consistent with the observed compound SiLi2Mg and provide likelihood of the availability of IrLi2Mg and RhLi2Mg. Similar calculations provide likelihood of the availability of YLi2MgHn, ZrLi2MgHn, NbLi2MgHn, MoLi2MgHn, TcLi2MgHn, RuLi2MgHn, RhLi2MgHn, LaLi2MgHn, Ce4+Li2MgHn, Ce3+Li2MgHn, PrLi2MgHn, NdLi2MgHn, PmLi2MgHn, SmLi2MgHn, EuLi2MgHn, GdLi2MgHn, TbLi2MgHn, DyLi2MgHn, HoLi2MgHn, ErLi2MgHn, TmLi2MgHn, YbLi2MgHn, LuLi2MgHn, HfLi2MgHn, TaLi2MgHn, ReLi2MgHn, OsLi2MgHn, and IrLi2MgHn (here n is an integer having a value in a particular compound of 4-7) as solid hydrides for the storage and release of hydrogen. Different hydrogen contents may be obtained in compounds having the same XLi2Mg crystal structures. These materials offer utility for hydrogen storage systems.
摘要翻译: 最先进的电子结构计算产生与观察到的化合物SiLi2Mg一致的结果,并提供IrLi2Mg和RhLi2Mg的可用性的可能性。 类似的计算提供YLi2MgHn,ZrLi2MgHn,NbLi2MgHn,MoLi2MgHn,TcLi2MgHn,RuLi2MgHn,RhLi2MgHn,LaLi2MgHn,四价铈Li2MgHn,Ce3 +的Li2MgHn,PrLi2MgHn,NdLi2MgHn,PmLi2MgHn,SmLi2MgHn,EuLi2MgHn,GdLi2MgHn,TbLi2MgHn,DyLi2MgHn,HoLi2MgHn的可用性的可能性, ErLi2MgHn,TmLi2MgHn,YbLi2MgHn,LuLi2MgHn,HfLi2MgHn,TaLi2MgHn,ReLi2MgHn,OsLi2MgHn和IrLi2MgHn(这里n是具有4-7的特定化合物中的值的整数)作为氢的储存和释放的固体氢化物。 在具有相同XLi2Mg晶体结构的化合物中可以获得不同的氢含量。 这些材料为氢存储系统提供实用性。
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公开(公告)号:US20110091368A1
公开(公告)日:2011-04-21
申请号:US12581209
申请日:2009-10-19
CPC分类号: C01B6/24 , C01B3/0031 , Y02E60/327 , Y10S420/90
摘要: State-of-the-art electronic structure calculations yield results consistent with the observed compound SiLi2Mg and provide likelihood of the availability of IrLi2Mg and RhLi2Mg. Similar calculations provide likelihood of the availability of YLi2MgHn, ZrLi2MgHn, NbLi2MgHn, MoLi2MgHn, TcLi2MgHn, RuLi2MgHn, RhLi2MgHn, LaLi2MgHn, Ce4+Li2MgHn, Ce3+Li2MgHn, PrLi2MgHn, NdLi2MgHn, PmLi2MgHn, SmLi2MgHn, EuLi2MgHn, GdLi2MgHn, TbLi2MgHn, DyLi2MgHn, HoLi2MgHn, ErLi2MgHn, TmLi2MgHn, YbLi2MgHn, LuLi2MgHn, HfLi2MgHn, TaLi2MgHn, ReLi2MgHn, OsLi2MgHn, and IrLi2MgHn (here n is an integer having a value in a particular compound of 4-7) as solid hydrides for the storage and release of hydrogen. Different hydrogen contents may be obtained in compounds having the same XLi2Mg crystal structures. These materials offer utility for hydrogen storage systems.
摘要翻译: 最先进的电子结构计算产生与观察到的化合物SiLi2Mg一致的结果,并提供IrLi2Mg和RhLi2Mg的可用性的可能性。 类似的计算提供YLi2MgHn,ZrLi2MgHn,NbLi2MgHn,MoLi2MgHn,TcLi2MgHn,RuLi2MgHn,RhLi2MgHn,LaLi2MgHn,四价铈Li2MgHn,Ce3 +的Li2MgHn,PrLi2MgHn,NdLi2MgHn,PmLi2MgHn,SmLi2MgHn,EuLi2MgHn,GdLi2MgHn,TbLi2MgHn,DyLi2MgHn,HoLi2MgHn的可用性的可能性, ErLi2MgHn,TmLi2MgHn,YbLi2MgHn,LuLi2MgHn,HfLi2MgHn,TaLi2MgHn,ReLi2MgHn,OsLi2MgHn和IrLi2MgHn(这里n是具有4-7的特定化合物中的值的整数)作为氢的储存和释放的固体氢化物。 在具有相同XLi2Mg晶体结构的化合物中可以获得不同的氢含量。 这些材料为氢存储系统提供实用性。
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公开(公告)号:US20120285583A1
公开(公告)日:2012-11-15
申请号:US13367427
申请日:2012-02-07
CPC分类号: C22F1/002 , B22F1/0018 , B22F9/04 , B22F2009/048 , B22F2998/10 , C22C33/003 , C22C38/002 , C22C38/005 , C22C45/02 , C22C2202/02 , H01F1/0571 , H01F1/0576 , H01F1/0578 , B22F9/002 , B22F1/0085
摘要: Useful permanent magnet materials are formed by processing molten alloys of cerium, iron, and boron to form permanent magnet compositions with appreciable coercivity and remanence. For example, Ce16.7Fe77.8B5.6 has been produced with coercivity, Hci of 6.18 kOe and remanence, Br of 4.92 kG. In one practice, streams of the molten alloy are rapidly quenched (e.g., by melt spinning) to form magnetically-soft melt-spun material which is suitably annealed to obtain permanent magnet properties. In another practice, the streams of molten alloy are quenched at a predetermined quench rate to directly obtain permanent magnet properties in the cerium-iron-boron material.
摘要翻译: 通过加工铈,铁和硼的熔融合金形成有用的永磁材料,以形成具有可观的矫顽力和剩磁性的永磁体组合物。 例如,Ce16.7Fe77.8B5.6已经生产出矫顽力,Hci为6.18 kOe和剩磁,Br为4.92 kG。 在一个实践中,熔融合金的流被快速淬火(例如通过熔融纺丝)以形成适当退火的磁软熔融材料,以获得永磁体性能。 在另一个实践中,熔融合金流以预定的淬火速率淬火以直接获得铈 - 铁 - 硼材料中的永磁体性质。
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公开(公告)号:US07713505B2
公开(公告)日:2010-05-11
申请号:US11758049
申请日:2007-06-05
申请人: Jan F. Herbst
发明人: Jan F. Herbst
IPC分类号: C01F17/00 , C01B21/00 , C01B21/092
CPC分类号: C01B21/0602 , C01B3/001 , C01P2002/77 , Y02E60/324
摘要: State-of-the-art electronic structure calculations provide the likelihood of the availability of YLi3N2, ZrLi3N2, NbLi3N2, MoLi3N2, TcLi3N2, RuLi3N2, RhLi3N2, GeLi3N2, InLi3N2, and SnLi3N2 as compounds for reaction with hydrogen under suitable conditions. Such calculations also provide the likelihood of the availability of YLi3N2Hn, ZrLi3N2Hn, NbLi3N2Hn, MoLi3N2Hn, TcLi3N2Hn, RuLi3N2Hn, RhLi3N2Hn, PdLi3N2Hn, AgLi3N2Hn, CdLi3N2Hn, AlLi3N2Hn, GaLi3N2Hn, GeLi3N2Hn, InLi3N2Hn, SnLi3N2Hn, and SbLi3N2H, (here n is an integer having a value of 1-6) as solid hydrides for the storage of hydrogen. These materials offer utility for hydrogen storage systems.
摘要翻译: 最先进的电子结构计算提供了YLi3N2,ZrLi3N2,NbLi3N2,MoLi3N2,TcLi3N2,RuLi3N2,RhLi3N2,GeLi3N2,InLi3N2和SnLi3N2作为在适当条件下与氢反应的化合物的可能性。 这种计算还提供YLi3N2Hn,ZrLi3N2Hn,NbLi3N2Hn,MoLi3N2Hn,TcLi3N2Hn,RuLi3N2Hn,RhLi3N2Hn,PdLi3N2Hn,AgLi3N2Hn,CdLi3N2Hn,AlLi3N2Hn,GaLi3N2Hn,GeLi3N2Hn,InLi3N2Hn,SnLi3N2Hn,和SbLi3N2H的可用性的可能性,(这里n是一个有整数 1-6的值)作为氢存储的固体氢化物。 这些材料为氢存储系统提供实用性。
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公开(公告)号:US09377328B2
公开(公告)日:2016-06-28
申请号:US13357002
申请日:2012-01-24
申请人: Jan F. Herbst
发明人: Jan F. Herbst
摘要: A sensor includes a magnetic piece with a magnetic array, a conductive coil and ferromagnetic object. The magnetic array provides a spatially modulated magnetic field that is concentrated in the near-field. A processor calculates the ferromagnetic object's speed based on voltage induced in the conductive coil. The ferromagnetic object's movement through the magnetic field causes a change in the magnetic flux, and the rate of change is proportional to the induced voltage.
摘要翻译: 传感器包括具有磁性阵列的磁性片,导电线圈和铁磁体。 磁阵列提供集中在近场的空间调制磁场。 处理器基于导电线圈中感应的电压来计算铁磁体的速度。 铁磁物体通过磁场的移动导致磁通量的变化,并且变化率与感应电压成比例。
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公开(公告)号:US09289778B2
公开(公告)日:2016-03-22
申请号:US13356860
申请日:2012-01-24
申请人: Alan L. Browne , Jan F. Herbst
发明人: Alan L. Browne , Jan F. Herbst
CPC分类号: B03C1/20 , B03C1/22 , B03C2201/20
摘要: A magnetic separator system may include a rotating wheel, a conveyor belt drawn around the wheel, and at least one magnetic array. The pulley transports material mix through a spatially modulated magnetic field generated by the magnetic array. The magnetic array may be fixed in place on the pulley and directed towards the stream of material mix, or multiple magnetic arrays may be distributed on the conveyor belt or wheel of the pulley.
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公开(公告)号:US07618607B2
公开(公告)日:2009-11-17
申请号:US11386409
申请日:2006-03-22
申请人: Jan F. Herbst
发明人: Jan F. Herbst
IPC分类号: C01F17/00 , C01B21/092
CPC分类号: C01B21/0602 , C01B3/0031 , C01B3/0063 , C01B21/0923 , C01P2002/76 , C01P2002/77 , Y02E60/327
摘要: State-of-the-art electronic structure calculations provide the likelihood of the availability of ScLi3N2, TiLi3N2, VLi3N2, CrLi3N2, MnLi3N2, CoLi3N2, NiLi3N2, CuLi3N2, and ZnLi3N2 as compounds for reaction with hydrogen under suitable conditions. Reaction with hydrogen is likely to form stable hydrides of the family ScLi3N2Hn, TiLi3N2Hn, VLi3N2Hn, CrLi3N2Hn, MnLi3N2Hn, FeLi3N2Hn CoLi3N2Hn, NiLi3N2Hn, CuLi3N2Hn, and ZnLi3N2Hn, where n is an integer in the range of 1-4. These materials offer utility for hydrogen storage systems.
摘要翻译: 最先进的电子结构计算提供了ScLi3N2,TiLi3N2,VLi3N2,CrLi3N2,MnLi3N2,CoLi3N2,NiLi3N2,CuLi3N2和ZnLi3N2作为在合适条件下与氢反应的化合物的可能性。 与氢反应可能形成ScLi3N2Hn,TiLi3N2Hn,VLi3N2Hn,CrLi3N2Hn,MnLi3N2Hn,FeLi3N2HnCoLi3N2Hn,NiLi3N2Hn,CuLi3N2Hn和ZnLi3N2Hn族中稳定的氢化物,其中n为1-4的整数。 这些材料为氢存储系统提供实用性。
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公开(公告)号:US08807159B2
公开(公告)日:2014-08-19
申请号:US13094890
申请日:2011-04-27
CPC分类号: B60T8/3615 , H01F7/08 , Y10T137/7036
摘要: A valve for an anti-lock brake system, wherein the anti-lock brake system is configured for controlling flow of a fluid, includes a housing defining a cavity therein and having a longitudinal axis, a valve seat disposed within the cavity so as to define a first passage for the fluid, and an armature disposed within the cavity so as to at least partially define a second passage for the fluid. The armature is translatable with respect to the valve seat along the longitudinal axis and matable with the valve seat to seal off fluid communication between the first passage and the second passage. The armature defines a surface that is substantially resistant to corrosion from the fluid, and the surface is substantially free from a coating including zinc.
摘要翻译: 一种用于防抱死制动系统的阀,其中所述防抱死制动系统构造成用于控制流体的流动,包括在其中限定空腔并具有纵向轴线的壳体,设置在所述腔内的阀座,以便限定 用于流体的第一通道和设置在空腔内的衔铁,以便至少部分地限定用于流体的第二通道。 衔铁可相对于阀座沿着纵向轴线平移并与阀座配合,以密封第一通道和第二通道之间的流体连通。 电枢限定了基本上抵抗来自流体的腐蚀的表面,并且该表面基本上没有包括锌的涂层。
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公开(公告)号:US20120273710A1
公开(公告)日:2012-11-01
申请号:US13094890
申请日:2011-04-27
CPC分类号: B60T8/3615 , H01F7/08 , Y10T137/7036
摘要: A valve for an anti-lock brake system, wherein the anti-lock brake system is configured for controlling flow of a fluid, includes a housing defining a cavity therein and having a longitudinal axis, a valve seat disposed within the cavity so as to define a first passage for the fluid, and an armature disposed within the cavity so as to at least partially define a second passage for the fluid. The armature is translatable with respect to the valve seat along the longitudinal axis and matable with the valve seat to seal off fluid communication between the first passage and the second passage. The armature defines a surface that is substantially resistant to corrosion from the fluid, and the surface is substantially free from a coating including zinc.
摘要翻译: 一种用于防抱死制动系统的阀,其中所述防抱死制动系统构造成用于控制流体的流动,包括在其中限定空腔并具有纵向轴线的壳体,设置在所述腔内的阀座,以便限定 用于流体的第一通道和设置在空腔内的衔铁,以便至少部分地限定用于流体的第二通道。 衔铁可相对于阀座沿着纵向轴线平移并与阀座配合,以密封第一通道和第二通道之间的流体连通。 电枢限定了基本上抵抗来自流体的腐蚀的表面,并且该表面基本上没有包括锌的涂层。
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公开(公告)号:US4347086A
公开(公告)日:1982-08-31
申请号:US138240
申请日:1980-04-07
CPC分类号: H01F1/0306 , H01F1/055
摘要: An amorphous rare-earth transition metal body is provided that has integral, predetermined regions of hard and soft magnetism. A method is provided for heating portions of an amorphous rare-earth transition metal alloy body, in situ, to transform predetermined portions from a state of low magnetic coercivity to a highly magnetically coercive state.
摘要翻译: 提供了一种非结晶的稀土过渡金属体,其具有硬和软磁性的整体的预定区域。 提供了一种用于加热无定形稀土过渡金属合金体的部分的方法,以将预定部分从低磁矫顽力的状态转变为高磁力矫顽力。
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